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Carefully designed and efficient extension of the Java Collections Framework with primitive specializations and more, built for Java 8 (Implementation)
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/*
* Copyright 2014 the original author or 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.koloboke.collect.impl.hash;
import com.koloboke.collect.*;
import com.koloboke.collect.hash.HashConfig;
import com.koloboke.collect.impl.*;
import com.koloboke.collect.map.*;
import com.koloboke.collect.map.hash.*;
import com.koloboke.collect.set.*;
import com.koloboke.collect.set.hash.*;
import java.util.function.BiConsumer;
import java.util.function.BiFunction;
import com.koloboke.function.FloatPredicate;
import com.koloboke.function.FloatFloatConsumer;
import com.koloboke.function.FloatFloatPredicate;
import com.koloboke.function.FloatFloatToFloatFunction;
import com.koloboke.function.FloatUnaryOperator;
import java.util.function.Consumer;
import java.util.function.Function;
import java.util.function.Predicate;
import com.koloboke.function.FloatBinaryOperator;
import com.koloboke.function.FloatConsumer;
import com.koloboke.function.FloatPredicate;
import edu.umd.cs.findbugs.annotations.SuppressFBWarnings;
import javax.annotation.Nonnull;
import java.util.*;
public class MutableQHashParallelKVFloatFloatMapGO
extends MutableQHashParallelKVFloatFloatMapSO {
final void copy(ParallelKVFloatFloatQHash hash) {
int myMC = modCount(),
hashMC = hash.modCount();
super.copy(hash);
if (myMC != modCount() ||
hashMC != hash.modCount())
throw new ConcurrentModificationException();
}
final void move(ParallelKVFloatFloatQHash hash) {
int myMC = modCount(),
hashMC = hash.modCount();
super.move(hash);
if (myMC != modCount() ||
hashMC != hash.modCount())
throw new ConcurrentModificationException();
}
@Override
public float defaultValue() {
return 0.0f;
}
@Override
public boolean containsEntry(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return (int) (entry >>> 32) == Float.floatToIntBits(value);
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return (int) (entry >>> 32) == Float.floatToIntBits(value);
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return (int) (entry >>> 32) == Float.floatToIntBits(value);
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
}
@Override
public boolean containsEntry(int key, int value) {
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(key) % (capacity = tab.length)])) == key) {
// key is present
return (int) (entry >>> 32) == value;
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == key) {
// key is present
return (int) (entry >>> 32) == value;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == key) {
// key is present
return (int) (entry >>> 32) == value;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
}
@Override
public Float get(Object key) {
int k = Float.floatToIntBits((Float) key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return null;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
step += 2;
}
}
}
}
@Override
public float get(float key) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
step += 2;
}
}
}
}
@Override
public Float getOrDefault(Object key, Float defaultValue) {
int k = Float.floatToIntBits((Float) key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
}
step += 2;
}
}
}
}
@Override
public float getOrDefault(float key, float defaultValue) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue;
}
step += 2;
}
}
}
}
@Override
public void forEach(BiConsumer super Float, ? super Float> action) {
if (action == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public void forEach(FloatFloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public boolean forEachWhile(FloatFloatPredicate predicate) {
if (predicate == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return true;
boolean terminated = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (!predicate.test(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)))) {
terminated = true;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return !terminated;
}
@Nonnull
@Override
public FloatFloatCursor cursor() {
int mc = modCount();
if (!noRemoved())
return new SomeRemovedMapCursor(
mc);
return new NoRemovedMapCursor(mc);
}
@SuppressWarnings("unchecked")
@Override
public boolean containsAllEntries(Map, ?> m) {
return CommonFloatFloatMapOps.containsAllEntries(this, m);
}
@Override
public boolean allEntriesContainingIn(InternalFloatFloatMapOps m) {
if (this.isEmpty())
return true;
boolean containsAll = true;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (!m.containsEntry(key, (int) (entry >>> 32))) {
containsAll = false;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return containsAll;
}
@Override
public void reversePutAllTo(InternalFloatFloatMapOps m) {
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
m.justPut(key, (int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
@Nonnull
public HashObjSet> entrySet() {
return new EntryView();
}
@Override
@Nonnull
public FloatCollection values() {
return new ValueView();
}
@Override
public boolean equals(Object o) {
return CommonMapOps.equals(this, o);
}
@Override
public int hashCode() {
int hashCode = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
hashCode += key ^ (int) (entry >>> 32);
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return hashCode;
}
@Override
public String toString() {
if (this.isEmpty())
return "{}";
StringBuilder sb = new StringBuilder();
int elementCount = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
sb.append(' ');
sb.append(Float.intBitsToFloat(key));
sb.append('=');
sb.append(Float.intBitsToFloat((int) (entry >>> 32)));
sb.append(',');
if (++elementCount == 8) {
int expectedLength = sb.length() * (size() / 8);
sb.ensureCapacity(expectedLength + (expectedLength / 2));
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
sb.setCharAt(0, '{');
sb.setCharAt(sb.length() - 1, '}');
return sb.toString();
}
@Override
void rehash(int newCapacity) {
int mc = modCount();
long[] tab = table;
long entry;
initForRehash(newCapacity);
mc++; // modCount is incremented in initForRehash()
long[] newTab = table;
int capacity = newTab.length;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
int index;
if (U.getInt(newTab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index = ParallelKVFloatKeyMixing.mix(key) % capacity)) << LONG_SCALE_SHIFT)) != FREE_BITS) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if (U.getInt(newTab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (bIndex)) << LONG_SCALE_SHIFT)) == FREE_BITS) {
index = bIndex;
break;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if (U.getInt(newTab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (fIndex)) << LONG_SCALE_SHIFT)) == FREE_BITS) {
index = fIndex;
break;
}
step += 2;
}
}
newTab[index] = entry;
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public Float put(Float key, Float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
keyPresent:
if (cur != k) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else if (cur == k) {
index = bIndex;
break keyPresent;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else if (cur == k) {
index = fIndex;
break keyPresent;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return null;
}
} else if (cur == k) {
index = bIndex;
break keyPresent;
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return null;
}
} else if (cur == k) {
index = fIndex;
break keyPresent;
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is present
float prevValue = Float.intBitsToFloat((int) (entry >>> 32));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
return prevValue;
}
}
@Override
public float put(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
keyPresent:
if (cur != k) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else if (cur == k) {
index = bIndex;
break keyPresent;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else if (cur == k) {
index = fIndex;
break keyPresent;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return defaultValue();
}
} else if (cur == k) {
index = bIndex;
break keyPresent;
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return defaultValue();
}
} else if (cur == k) {
index = fIndex;
break keyPresent;
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is present
float prevValue = Float.intBitsToFloat((int) (entry >>> 32));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
return prevValue;
}
}
@Override
public Float putIfAbsent(Float key, Float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return null;
}
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return null;
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return null;
}
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
}
}
@Override
public float putIfAbsent(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[bIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return defaultValue();
}
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == FREE_BITS) {
if (firstRemoved < 0) {
// key is absent, free slot
incrementModCount();
tab[fIndex] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return defaultValue();
} else {
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return defaultValue();
}
} else if (cur == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
}
}
@Override
public void justPut(float key, float value) {
int k = Float.floatToIntBits(key);
int index = insert(k, Float.floatToIntBits(value));
if (index < 0) {
// key was absent
return;
} else {
// key is present
U.putInt(table, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
return;
}
}
@Override
public void justPut(int key, int value) {
int index = insert(key, value);
if (index < 0) {
// key was absent
return;
} else {
// key is present
U.putInt(table, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), value);
return;
}
}
@Override
public Float compute(Float key,
BiFunction super Float, ? super Float, ? extends Float> remappingFunction) {
int k = Float.floatToIntBits(key);
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
Float newValue = remappingFunction.apply(Float.intBitsToFloat(k), null);
if (newValue != null) {
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postRemovedSlotInsertHook();
return newValue;
} else {
return null;
}
}
// key is absent, free slot
Float newValue = remappingFunction.apply(Float.intBitsToFloat(k), null);
if (newValue != null) {
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postFreeSlotInsertHook();
return newValue;
} else {
return null;
}
}
// key is present
Float newValue = remappingFunction.apply(Float.intBitsToFloat(k), Float.intBitsToFloat((int) (entry >>> 32)));
if (newValue != null) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
} else {
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return null;
}
}
@Override
public float compute(float key, FloatFloatToFloatFunction remappingFunction) {
int k = Float.floatToIntBits(key);
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
float newValue = remappingFunction.applyAsFloat(Float.intBitsToFloat(k), defaultValue());
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postRemovedSlotInsertHook();
return newValue;
}
// key is absent, free slot
float newValue = remappingFunction.applyAsFloat(Float.intBitsToFloat(k), defaultValue());
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postFreeSlotInsertHook();
return newValue;
}
// key is present
float newValue = remappingFunction.applyAsFloat(Float.intBitsToFloat(k), Float.intBitsToFloat((int) (entry >>> 32)));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
}
@Override
public Float computeIfAbsent(Float key,
Function super Float, ? extends Float> mappingFunction) {
int k = Float.floatToIntBits(key);
if (mappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
Float value = mappingFunction.apply(Float.intBitsToFloat(k));
if (value != null) {
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return value;
} else {
return null;
}
}
// key is absent, free slot
Float value = mappingFunction.apply(Float.intBitsToFloat(k));
if (value != null) {
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return value;
} else {
return null;
}
}
}
@Override
public float computeIfAbsent(float key, FloatUnaryOperator mappingFunction) {
int k = Float.floatToIntBits(key);
if (mappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
// key is present
return Float.intBitsToFloat((int) (entry >>> 32));
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
float value = mappingFunction.applyAsFloat(Float.intBitsToFloat(k));
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return value;
}
// key is absent, free slot
float value = mappingFunction.applyAsFloat(Float.intBitsToFloat(k));
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return value;
}
}
@Override
public Float computeIfPresent(Float key,
BiFunction super Float, ? super Float, ? extends Float> remappingFunction) {
int k = Float.floatToIntBits(key);
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return null;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
step += 2;
}
}
}
// key is present
Float newValue = remappingFunction.apply(Float.intBitsToFloat(k), Float.intBitsToFloat((int) (entry >>> 32)));
if (newValue != null) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
} else {
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return null;
}
}
@Override
public float computeIfPresent(float key, FloatFloatToFloatFunction remappingFunction) {
int k = Float.floatToIntBits(key);
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
step += 2;
}
}
}
// key is present
float newValue = remappingFunction.applyAsFloat(Float.intBitsToFloat(k), Float.intBitsToFloat((int) (entry >>> 32)));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
}
@Override
public Float merge(Float key, Float value,
BiFunction super Float, ? super Float, ? extends Float> remappingFunction) {
int k = Float.floatToIntBits(key);
if (value == null)
throw new java.lang.NullPointerException();
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return value;
}
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return value;
}
// key is present
Float newValue = remappingFunction.apply(Float.intBitsToFloat((int) (entry >>> 32)), value);
if (newValue != null) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
} else {
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return null;
}
}
@Override
public float merge(float key, float value, FloatBinaryOperator remappingFunction) {
int k = Float.floatToIntBits(key);
if (remappingFunction == null)
throw new java.lang.NullPointerException();
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postRemovedSlotInsertHook();
return value;
}
// key is absent, free slot
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(value)) << 32));
postFreeSlotInsertHook();
return value;
}
// key is present
float newValue = remappingFunction.applyAsFloat(Float.intBitsToFloat((int) (entry >>> 32)), value);
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
}
@Override
public float addValue(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
float newValue = defaultValue() + value;
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postRemovedSlotInsertHook();
return newValue;
}
// key is absent, free slot
float newValue = defaultValue() + value;
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postFreeSlotInsertHook();
return newValue;
}
// key is present
float newValue = Float.intBitsToFloat((int) (entry >>> 32)) + value;
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
}
@Override
public float addValue(float key, float addition, float initialValue) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
keyAbsentFreeSlot:
if (cur != FREE_BITS) {
int firstRemoved;
if (cur <= FREE_BITS) {
if (noRemoved()) {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = bIndex;
break keyAbsentFreeSlot;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
index = fIndex;
break keyAbsentFreeSlot;
}
step += 2;
}
} else {
firstRemoved = -1;
}
} else {
firstRemoved = index;
}
keyAbsentRemovedSlot: {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = bIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = bIndex;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
if (firstRemoved < 0) {
index = fIndex;
break keyAbsentFreeSlot;
} else {
break keyAbsentRemovedSlot;
}
} else if (cur > FREE_BITS && firstRemoved < 0) {
firstRemoved = fIndex;
}
step += 2;
}
}
// key is absent, removed slot
float newValue = initialValue + addition;
incrementModCount();
tab[firstRemoved] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postRemovedSlotInsertHook();
return newValue;
}
// key is absent, free slot
float newValue = initialValue + addition;
incrementModCount();
tab[index] = ((((long) k) & FLOAT_MASK) | (((long) Float.floatToIntBits(newValue)) << 32));
postFreeSlotInsertHook();
return newValue;
}
// key is present
float newValue = Float.intBitsToFloat((int) (entry >>> 32)) + addition;
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return newValue;
}
@Override
public void putAll(@Nonnull Map extends Float, ? extends Float> m) {
CommonFloatFloatMapOps.putAll(this, m);
}
@Override
public Float replace(Float key, Float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return null;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
step += 2;
}
}
}
// key is present
float oldValue = Float.intBitsToFloat((int) (entry >>> 32));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
return oldValue;
}
@Override
public float replace(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
step += 2;
}
}
}
// key is present
float oldValue = Float.intBitsToFloat((int) (entry >>> 32));
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
return oldValue;
}
@Override
public boolean replace(Float key, Float oldValue, Float newValue) {
return replace(key.floatValue(),
oldValue.floatValue(),
newValue.floatValue());
}
@Override
public boolean replace(float key, float oldValue, float newValue) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
// key is present
if ((int) (entry >>> 32) == Float.floatToIntBits(oldValue)) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(newValue));
return true;
} else {
return false;
}
}
@Override
public void replaceAll(
BiFunction super Float, ? super Float, ? extends Float> function) {
if (function == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), Float.floatToIntBits(function.apply(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)))));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public void replaceAll(FloatFloatToFloatFunction function) {
if (function == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), Float.floatToIntBits(function.applyAsFloat(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)))));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public void clear() {
doClear();
}
private void doClear() {
int mc = modCount() + 1;
super.clear();
if (mc != modCount())
throw new ConcurrentModificationException();
}
@Override
void removeAt(int index) {
incrementModCount();
super.removeAt(index);
postRemoveHook();
}
@Override
public Float remove(Object key) {
int k = Float.floatToIntBits((Float) key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return null;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return null;
}
step += 2;
}
}
}
// key is present
float val = Float.intBitsToFloat((int) (entry >>> 32));
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return val;
}
@Override
public boolean justRemove(float key) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
// key is present
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return true;
}
@Override
public boolean justRemove(int key) {
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(key) % (capacity = tab.length)])) != key) {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == key) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == key) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
// key is present
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return true;
}
@Override
public float remove(float key) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return defaultValue();
}
step += 2;
}
}
}
// key is present
float val = Float.intBitsToFloat((int) (entry >>> 32));
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return val;
}
@Override
public boolean remove(Object key, Object value) {
return remove(((Float) key).floatValue(),
((Float) value).floatValue()
);
}
@Override
public boolean remove(float key, float value) {
int k = Float.floatToIntBits(key);
long[] tab = table;
int capacity, index;
int cur;
long entry;
keyPresent:
if ((cur = (int) (entry = tab[index = ParallelKVFloatKeyMixing.mix(k) % (capacity = tab.length)])) != k) {
if (cur == FREE_BITS) {
// key is absent, free slot
return false;
} else {
int bIndex = index, fIndex = index, step = 1;
while (true) {
if ((bIndex -= step) < 0) bIndex += capacity;
if ((cur = (int) (entry = tab[bIndex])) == k) {
index = bIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
int t;
if ((t = (fIndex += step) - capacity) >= 0) fIndex = t;
if ((cur = (int) (entry = tab[fIndex])) == k) {
index = fIndex;
break keyPresent;
} else if (cur == FREE_BITS) {
// key is absent, free slot
return false;
}
step += 2;
}
}
}
// key is present
if ((int) (entry >>> 32) == Float.floatToIntBits(value)) {
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
return true;
} else {
return false;
}
}
@Override
public boolean removeIf(FloatFloatPredicate filter) {
if (filter == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (filter.test(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
class EntryView extends AbstractSetView>
implements HashObjSet>,
InternalObjCollectionOps> {
@Nonnull
@Override
public Equivalence> equivalence() {
return Equivalence.entryEquivalence(
Equivalence.defaultEquality()
,
Equivalence.defaultEquality()
);
}
@Nonnull
@Override
public HashConfig hashConfig() {
return MutableQHashParallelKVFloatFloatMapGO.this.hashConfig();
}
@Override
public int size() {
// Read field instead of calling size() to avoid infinite recursive calls in Koloboke
// Compile-generated map, if it extends AbstractMap
return size;
}
@Override
public double currentLoad() {
return MutableQHashParallelKVFloatFloatMapGO.this.currentLoad();
}
@Override
@SuppressWarnings("unchecked")
public boolean contains(Object o) {
try {
Map.Entry e = (Map.Entry) o;
return containsEntry(e.getKey(), e.getValue());
} catch (NullPointerException e) {
return false;
} catch (ClassCastException e) {
return false;
}
}
@Override
@Nonnull
public final Object[] toArray() {
int size = size();
Object[] result = new Object[size];
if (size == 0)
return result;
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
result[resultIndex++] = new MutableEntry(mc, i, key, (int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return result;
}
@Override
@SuppressWarnings("unchecked")
@Nonnull
public final T[] toArray(@Nonnull T[] a) {
int size = size();
if (a.length < size) {
Class> elementType = a.getClass().getComponentType();
a = (T[]) java.lang.reflect.Array.newInstance(elementType, size);
}
if (size == 0) {
if (a.length > 0)
a[0] = null;
return a;
}
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
a[resultIndex++] = (T) new MutableEntry(mc, i, key, (int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
if (a.length > resultIndex)
a[resultIndex] = null;
return a;
}
@Override
public final void forEach(@Nonnull Consumer super Map.Entry> action) {
if (action == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public boolean forEachWhile(@Nonnull Predicate super Map.Entry> predicate) {
if (predicate == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return true;
boolean terminated = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (!predicate.test(new MutableEntry(mc, i, key, (int) (entry >>> 32)))) {
terminated = true;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return !terminated;
}
@Override
@Nonnull
public ObjIterator> iterator() {
int mc = modCount();
if (!noRemoved())
return new SomeRemovedEntryIterator(
mc);
return new NoRemovedEntryIterator(
mc);
}
@Nonnull
@Override
public ObjCursor> cursor() {
int mc = modCount();
if (!noRemoved())
return new SomeRemovedEntryCursor(
mc);
return new NoRemovedEntryCursor(
mc);
}
@Override
public final boolean containsAll(@Nonnull Collection> c) {
return CommonObjCollectionOps.containsAll(this, c);
}
@Override
public final boolean allContainingIn(ObjCollection> c) {
if (this.isEmpty())
return true;
boolean containsAll = true;
ReusableEntry e = new ReusableEntry();
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (!c.contains(e.with(key, (int) (entry >>> 32)))) {
containsAll = false;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return containsAll;
}
@Override
public boolean reverseRemoveAllFrom(ObjSet> s) {
if (this.isEmpty() || s.isEmpty())
return false;
boolean changed = false;
ReusableEntry e = new ReusableEntry();
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
changed |= s.remove(e.with(key, (int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public final boolean reverseAddAllTo(ObjCollection super Map.Entry> c) {
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
changed |= c.add(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
public int hashCode() {
return MutableQHashParallelKVFloatFloatMapGO.this.hashCode();
}
@Override
public String toString() {
if (this.isEmpty())
return "[]";
StringBuilder sb = new StringBuilder();
int elementCount = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
sb.append(' ');
sb.append(Float.intBitsToFloat(key));
sb.append('=');
sb.append(Float.intBitsToFloat((int) (entry >>> 32)));
sb.append(',');
if (++elementCount == 8) {
int expectedLength = sb.length() * (size() / 8);
sb.ensureCapacity(expectedLength + (expectedLength / 2));
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
sb.setCharAt(0, '[');
sb.setCharAt(sb.length() - 1, ']');
return sb.toString();
}
@Override
public boolean shrink() {
return MutableQHashParallelKVFloatFloatMapGO.this.shrink();
}
@Override
@SuppressWarnings("unchecked")
public boolean remove(Object o) {
try {
Map.Entry e = (Map.Entry) o;
float key = e.getKey();
float value = e.getValue();
return MutableQHashParallelKVFloatFloatMapGO.this.remove(key, value);
} catch (NullPointerException e) {
return false;
} catch (ClassCastException e) {
return false;
}
}
@Override
public final boolean removeIf(@Nonnull Predicate super Map.Entry> filter) {
if (filter == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (filter.test(new MutableEntry(mc, i, key, (int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@SuppressWarnings("unchecked")
@Override
public final boolean removeAll(@Nonnull Collection> c) {
if (c instanceof InternalObjCollectionOps) {
InternalObjCollectionOps c2 = (InternalObjCollectionOps) c;
if (equivalence().equals(c2.equivalence()) && c2.size() < this.size()) {
c2.reverseRemoveAllFrom(this);
}
}
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty() || c.isEmpty())
return false;
boolean changed = false;
ReusableEntry e = new ReusableEntry();
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (c.contains(e.with(key, (int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public final boolean retainAll(@Nonnull Collection> c) {
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty())
return false;
if (c.isEmpty()) {
clear();
return true;
}
boolean changed = false;
ReusableEntry e = new ReusableEntry();
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
if (!c.contains(e.with(key, (int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public void clear() {
// Don't call map.clear() directly to avoid infinite recursive calls in Koloboke
// Compile-generated map, if it extends AbstractMap
MutableQHashParallelKVFloatFloatMapGO.this.doClear();
}
}
abstract class FloatFloatEntry extends AbstractEntry {
abstract int key();
@Override
public final Float getKey() {
return Float.intBitsToFloat(key());
}
abstract int value();
@Override
public final Float getValue() {
return Float.intBitsToFloat(value());
}
@SuppressWarnings("unchecked")
@Override
public boolean equals(Object o) {
Map.Entry e2;
int k2;
int v2;
try {
e2 = (Map.Entry) o;
k2 = Float.floatToIntBits((Float) e2.getKey());
v2 = Float.floatToIntBits((Float) e2.getValue());
return key() == k2
&&
value() == v2
;
} catch (ClassCastException e) {
return false;
} catch (NullPointerException e) {
return false;
}
}
@Override
public int hashCode() {
return Primitives.hashCode(key())
^
Primitives.hashCode(value())
;
}
}
class MutableEntry extends FloatFloatEntry {
final int modCount;
private final int index;
final int key;
private int value;
MutableEntry(int modCount,
int index, int key, int value) {
this.modCount = modCount;
this.index = index;
this.key = key;
this.value = value;
}
@Override
public int key() {
return key;
}
@Override
public int value() {
return value;
}
@Override
public Float setValue(Float newValue) {
if (modCount != modCount())
throw new IllegalStateException();
float oldValue = Float.intBitsToFloat(value);
int unwrappedNewValue = Float.floatToIntBits(newValue);
value = unwrappedNewValue;
updateValueInTable(unwrappedNewValue);
return oldValue;
}
void updateValueInTable(int newValue) {
U.putInt(
table, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) index) << LONG_SCALE_SHIFT),
newValue);
}
}
class ReusableEntry extends FloatFloatEntry {
private int key;
private int value;
ReusableEntry with(int key, int value) {
this.key = key;
this.value = value;
return this;
}
@Override
public int key() {
return key;
}
@Override
public int value() {
return value;
}
}
class ValueView extends AbstractFloatValueView {
@Override
public int size() {
return MutableQHashParallelKVFloatFloatMapGO.this.size();
}
@Override
public boolean shrink() {
return MutableQHashParallelKVFloatFloatMapGO.this.shrink();
}
@Override
public boolean contains(Object o) {
return MutableQHashParallelKVFloatFloatMapGO.this.containsValue(o);
}
@Override
public boolean contains(float v) {
return MutableQHashParallelKVFloatFloatMapGO.this.containsValue(v);
}
@Override
public boolean contains(int bits) {
return MutableQHashParallelKVFloatFloatMapGO.this.containsValue(bits);
}
@Override
public void forEach(Consumer super Float> action) {
if (action == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public void forEach(FloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
}
@Override
public boolean forEachWhile(FloatPredicate predicate) {
if (predicate == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return true;
boolean terminated = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!predicate.test(Float.intBitsToFloat((int) (entry >>> 32)))) {
terminated = true;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return !terminated;
}
@Override
public boolean allContainingIn(FloatCollection c) {
if (c instanceof InternalFloatCollectionOps)
return allContainingIn((InternalFloatCollectionOps) c);
if (this.isEmpty())
return true;
boolean containsAll = true;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!c.contains(Float.intBitsToFloat((int) (entry >>> 32)))) {
containsAll = false;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return containsAll;
}
private boolean allContainingIn(InternalFloatCollectionOps c) {
if (this.isEmpty())
return true;
boolean containsAll = true;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!c.contains((int) (entry >>> 32))) {
containsAll = false;
break;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return containsAll;
}
@Override
public boolean reverseAddAllTo(FloatCollection c) {
if (c instanceof InternalFloatCollectionOps)
return reverseAddAllTo((InternalFloatCollectionOps) c);
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
changed |= c.add(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean reverseAddAllTo(InternalFloatCollectionOps c) {
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
changed |= c.add((int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public boolean reverseRemoveAllFrom(FloatSet s) {
if (s instanceof InternalFloatCollectionOps)
return reverseRemoveAllFrom((InternalFloatCollectionOps) s);
if (this.isEmpty() || s.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
changed |= s.removeFloat(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean reverseRemoveAllFrom(InternalFloatCollectionOps s) {
if (this.isEmpty() || s.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
changed |= s.removeFloat((int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
@Nonnull
public FloatIterator iterator() {
int mc = modCount();
if (!noRemoved())
return new SomeRemovedValueIterator(
mc);
return new NoRemovedValueIterator(
mc);
}
@Nonnull
@Override
public FloatCursor cursor() {
int mc = modCount();
if (!noRemoved())
return new SomeRemovedValueCursor(
mc);
return new NoRemovedValueCursor(
mc);
}
@Override
@Nonnull
public Object[] toArray() {
int size = size();
Object[] result = new Object[size];
if (size == 0)
return result;
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
result[resultIndex++] = Float.intBitsToFloat((int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return result;
}
@Override
@SuppressWarnings("unchecked")
@Nonnull
public T[] toArray(@Nonnull T[] a) {
int size = size();
if (a.length < size) {
Class> elementType = a.getClass().getComponentType();
a = (T[]) java.lang.reflect.Array.newInstance(elementType, size);
}
if (size == 0) {
if (a.length > 0)
a[0] = null;
return a;
}
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
a[resultIndex++] = (T) Float.valueOf(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
if (a.length > resultIndex)
a[resultIndex] = null;
return a;
}
@Override
public float[] toFloatArray() {
int size = size();
float[] result = new float[size];
if (size == 0)
return result;
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
result[resultIndex++] = Float.intBitsToFloat((int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return result;
}
@Override
public float[] toArray(float[] a) {
int size = size();
if (a.length < size)
a = new float[size];
if (size == 0) {
if (a.length > 0)
a[0] = 0.0f;
return a;
}
int resultIndex = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
a[resultIndex++] = Float.intBitsToFloat((int) (entry >>> 32));
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
if (a.length > resultIndex)
a[resultIndex] = 0.0f;
return a;
}
@Override
public String toString() {
if (this.isEmpty())
return "[]";
StringBuilder sb = new StringBuilder();
int elementCount = 0;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
sb.append(' ').append(Float.intBitsToFloat((int) (entry >>> 32))).append(',');
if (++elementCount == 8) {
int expectedLength = sb.length() * (size() / 8);
sb.ensureCapacity(expectedLength + (expectedLength / 2));
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
sb.setCharAt(0, '[');
sb.setCharAt(sb.length() - 1, ']');
return sb.toString();
}
@Override
public boolean remove(Object o) {
return removeFloat(( Float ) o);
}
@Override
public boolean removeFloat(float v) {
return removeValue(v);
}
@Override
public boolean removeFloat(int bits) {
return removeValue(bits);
}
@Override
public void clear() {
MutableQHashParallelKVFloatFloatMapGO.this.clear();
}
public boolean removeIf(Predicate super Float> filter) {
if (filter == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (filter.test(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public boolean removeIf(FloatPredicate filter) {
if (filter == null)
throw new java.lang.NullPointerException();
if (this.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (filter.test(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public boolean removeAll(@Nonnull Collection> c) {
if (c instanceof FloatCollection)
return removeAll((FloatCollection) c);
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty() || c.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (c.contains(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean removeAll(FloatCollection c) {
if (c instanceof InternalFloatCollectionOps)
return removeAll((InternalFloatCollectionOps) c);
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty() || c.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (c.contains(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean removeAll(InternalFloatCollectionOps c) {
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty() || c.isEmpty())
return false;
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (c.contains((int) (entry >>> 32))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
@Override
public boolean retainAll(@Nonnull Collection> c) {
if (c instanceof FloatCollection)
return retainAll((FloatCollection) c);
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty())
return false;
if (c.isEmpty()) {
clear();
return true;
}
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!c.contains(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean retainAll(FloatCollection c) {
if (c instanceof InternalFloatCollectionOps)
return retainAll((InternalFloatCollectionOps) c);
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty())
return false;
if (c.isEmpty()) {
clear();
return true;
}
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!c.contains(Float.intBitsToFloat((int) (entry >>> 32)))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
private boolean retainAll(InternalFloatCollectionOps c) {
if (this == (Object) c)
throw new IllegalArgumentException();
if (this.isEmpty())
return false;
if (c.isEmpty()) {
clear();
return true;
}
boolean changed = false;
int mc = modCount();
long[] tab = table;
long entry;
for (int i = tab.length - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
if (!c.contains((int) (entry >>> 32))) {
incrementModCount();
mc++;
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (i)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
changed = true;
}
}
}
if (mc != modCount())
throw new java.util.ConcurrentModificationException();
return changed;
}
}
class NoRemovedEntryIterator implements ObjIterator> {
final long[] tab;
int expectedModCount;
int index = -1;
int nextIndex;
MutableEntry next;
NoRemovedEntryIterator(int mc) {
expectedModCount = mc;
long[] tab = this.tab = table;
int nextI = tab.length;
long entry;
while (--nextI >= 0) {
int key;
if ((key = (int) (entry = tab[nextI])) < FREE_BITS) {
next = new MutableEntry(mc, nextI, key, (int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
}
@Override
public void forEachRemaining(@Nonnull Consumer super Map.Entry> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public boolean hasNext() {
return nextIndex >= 0;
}
@Override
public Map.Entry next() {
int mc;
if ((mc = expectedModCount) == modCount()) {
int nextI;
if ((nextI = nextIndex) >= 0) {
index = nextI;
long[] tab = this.tab;
MutableEntry prev = next;
long entry;
while (--nextI >= 0) {
int key;
if ((key = (int) (entry = tab[nextI])) < FREE_BITS) {
next = new MutableEntry(mc, nextI, key, (int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
return prev;
} else {
throw new java.util.NoSuchElementException();
}
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
int index;
if ((index = this.index) >= 0) {
if (expectedModCount++ == modCount()) {
this.index = -1;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class NoRemovedEntryCursor implements ObjCursor> {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
NoRemovedEntryCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(Consumer super Map.Entry> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public Map.Entry elem() {
int curKey;
if ((curKey = this.curKey) != FREE_BITS) {
return new MutableEntry(expectedModCount, index, curKey, curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class SomeRemovedEntryIterator implements ObjIterator> {
final long[] tab;
int expectedModCount;
int index = -1;
int nextIndex;
MutableEntry next;
SomeRemovedEntryIterator(int mc) {
expectedModCount = mc;
long[] tab = this.tab = table;
int nextI = tab.length;
long entry;
while (--nextI >= 0) {
int key;
if ((key = (int) (entry = tab[nextI])) < FREE_BITS) {
next = new MutableEntry(mc, nextI, key, (int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
}
@Override
public void forEachRemaining(@Nonnull Consumer super Map.Entry> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public boolean hasNext() {
return nextIndex >= 0;
}
@Override
public Map.Entry next() {
int mc;
if ((mc = expectedModCount) == modCount()) {
int nextI;
if ((nextI = nextIndex) >= 0) {
index = nextI;
long[] tab = this.tab;
MutableEntry prev = next;
long entry;
while (--nextI >= 0) {
int key;
if ((key = (int) (entry = tab[nextI])) < FREE_BITS) {
next = new MutableEntry(mc, nextI, key, (int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
return prev;
} else {
throw new java.util.NoSuchElementException();
}
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
int index;
if ((index = this.index) >= 0) {
if (expectedModCount++ == modCount()) {
this.index = -1;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class SomeRemovedEntryCursor implements ObjCursor> {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
SomeRemovedEntryCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(Consumer super Map.Entry> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(new MutableEntry(mc, i, key, (int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public Map.Entry elem() {
int curKey;
if ((curKey = this.curKey) != FREE_BITS) {
return new MutableEntry(expectedModCount, index, curKey, curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class NoRemovedValueIterator implements FloatIterator {
final long[] tab;
int expectedModCount;
int index = -1;
int nextIndex;
float next;
NoRemovedValueIterator(int mc) {
expectedModCount = mc;
long[] tab = this.tab = table;
int nextI = tab.length;
long entry;
while (--nextI >= 0) {
if ((int) (entry = tab[nextI]) < FREE_BITS) {
next = Float.intBitsToFloat((int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
}
@Override
public float nextFloat() {
if (expectedModCount == modCount()) {
int nextI;
if ((nextI = nextIndex) >= 0) {
index = nextI;
long[] tab = this.tab;
float prev = next;
long entry;
while (--nextI >= 0) {
if ((int) (entry = tab[nextI]) < FREE_BITS) {
next = Float.intBitsToFloat((int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
return prev;
} else {
throw new java.util.NoSuchElementException();
}
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void forEachRemaining(Consumer super Float> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public void forEachRemaining(FloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public boolean hasNext() {
return nextIndex >= 0;
}
@Override
public Float next() {
return nextFloat();
}
@Override
public void remove() {
int index;
if ((index = this.index) >= 0) {
if (expectedModCount++ == modCount()) {
this.index = -1;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class NoRemovedValueCursor implements FloatCursor {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
NoRemovedValueCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(FloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public float elem() {
if (curKey != FREE_BITS) {
return Float.intBitsToFloat(curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class SomeRemovedValueIterator implements FloatIterator {
final long[] tab;
int expectedModCount;
int index = -1;
int nextIndex;
float next;
SomeRemovedValueIterator(int mc) {
expectedModCount = mc;
long[] tab = this.tab = table;
int nextI = tab.length;
long entry;
while (--nextI >= 0) {
if ((int) (entry = tab[nextI]) < FREE_BITS) {
next = Float.intBitsToFloat((int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
}
@Override
public float nextFloat() {
if (expectedModCount == modCount()) {
int nextI;
if ((nextI = nextIndex) >= 0) {
index = nextI;
long[] tab = this.tab;
float prev = next;
long entry;
while (--nextI >= 0) {
if ((int) (entry = tab[nextI]) < FREE_BITS) {
next = Float.intBitsToFloat((int) (entry >>> 32));
break;
}
}
nextIndex = nextI;
return prev;
} else {
throw new java.util.NoSuchElementException();
}
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void forEachRemaining(Consumer super Float> action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public void forEachRemaining(FloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int nextI = nextIndex;
for (int i = nextI; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (nextI != nextIndex || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
index = nextIndex = -1;
}
@Override
public boolean hasNext() {
return nextIndex >= 0;
}
@Override
public Float next() {
return nextFloat();
}
@Override
public void remove() {
int index;
if ((index = this.index) >= 0) {
if (expectedModCount++ == modCount()) {
this.index = -1;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class SomeRemovedValueCursor implements FloatCursor {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
SomeRemovedValueCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(FloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
if ((int) (entry = tab[i]) < FREE_BITS) {
action.accept(Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public float elem() {
if (curKey != FREE_BITS) {
return Float.intBitsToFloat(curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class NoRemovedMapCursor implements FloatFloatCursor {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
NoRemovedMapCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(FloatFloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public float key() {
int curKey;
if ((curKey = this.curKey) != FREE_BITS) {
return Float.intBitsToFloat(curKey);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public float value() {
if (curKey != FREE_BITS) {
return Float.intBitsToFloat(curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public void setValue(float value) {
if (curKey != FREE_BITS) {
if (expectedModCount == modCount()) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
class SomeRemovedMapCursor implements FloatFloatCursor {
final long[] tab;
int expectedModCount;
int index;
int curKey;
int curValue;
SomeRemovedMapCursor(int mc) {
expectedModCount = mc;
this.tab = table;
index = tab.length;
curKey = FREE_BITS;
}
@Override
public void forEachForward(FloatFloatConsumer action) {
if (action == null)
throw new java.lang.NullPointerException();
int mc = expectedModCount;
long[] tab = this.tab;
long entry;
int index = this.index;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
action.accept(Float.intBitsToFloat(key), Float.intBitsToFloat((int) (entry >>> 32)));
}
}
if (index != this.index || mc != modCount()) {
throw new java.util.ConcurrentModificationException();
}
this.index = -1;
curKey = FREE_BITS;
}
@Override
public float key() {
int curKey;
if ((curKey = this.curKey) != FREE_BITS) {
return Float.intBitsToFloat(curKey);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public float value() {
if (curKey != FREE_BITS) {
return Float.intBitsToFloat(curValue);
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public void setValue(float value) {
if (curKey != FREE_BITS) {
if (expectedModCount == modCount()) {
U.putInt(tab, LONG_BASE + FLOAT_VALUE_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), Float.floatToIntBits(value));
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
@Override
public boolean moveNext() {
if (expectedModCount == modCount()) {
long[] tab = this.tab;
long entry;
for (int i = index - 1; i >= 0; i--) {
int key;
if ((key = (int) (entry = tab[i])) < FREE_BITS) {
index = i;
curKey = key;
curValue = (int) (entry >>> 32);
return true;
}
}
curKey = FREE_BITS;
index = -1;
return false;
} else {
throw new java.util.ConcurrentModificationException();
}
}
@Override
public void remove() {
if (curKey != FREE_BITS) {
if (expectedModCount++ == modCount()) {
this.curKey = FREE_BITS;
incrementModCount();
U.putInt(tab, LONG_BASE + FLOAT_KEY_OFFSET + (((long) (index)) << LONG_SCALE_SHIFT), REMOVED_BITS);
postRemoveHook();
} else {
throw new java.util.ConcurrentModificationException();
}
} else {
throw new java.lang.IllegalStateException();
}
}
}
}