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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists and priority queues with a small memory footprint and fast access and insertion; provides also big (64-bit) arrays, sets and lists, and fast, practical I/O classes for binary and text files.

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   You should have received a copy of the GNU Lesser General Public
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   .  */
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/*		 
 * Copyright (C) 2002-2016 Sebastiano Vigna
 *
 * 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
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 * limitations under the License. 
 */
package it.unimi.dsi.fastutil.floats;

import it.unimi.dsi.fastutil.Hash;
import it.unimi.dsi.fastutil.HashCommon;
import static it.unimi.dsi.fastutil.HashCommon.arraySize;
import static it.unimi.dsi.fastutil.HashCommon.maxFill;
import java.util.Map;
import java.util.Arrays;
import java.util.NoSuchElementException;
import it.unimi.dsi.fastutil.longs.LongCollection;
import it.unimi.dsi.fastutil.longs.AbstractLongCollection;
import it.unimi.dsi.fastutil.longs.LongIterator;
import it.unimi.dsi.fastutil.objects.AbstractObjectSet;
import it.unimi.dsi.fastutil.objects.ObjectIterator;

/**
 * A type-specific hash map with a fast, small-footprint implementation whose
 * {@linkplain it.unimi.dsi.fastutil.Hash.Strategy hashing strategy} is
 * specified at creation time.
 *
 * 

* Instances of this class use a hash table to represent a map. The table is * filled up to a specified load factor, and then doubled in size to * accommodate new entries. If the table is emptied below one fourth of * the load factor, it is halved in size. However, halving is not performed when * deleting entries from an iterator, as it would interfere with the iteration * process. * *

* Note that {@link #clear()} does not modify the hash table size. Rather, a * family of {@linkplain #trim() trimming methods} lets you control the size of * the table; this is particularly useful if you reuse instances of this class. * * @see Hash * @see HashCommon */ public class Float2LongOpenCustomHashMap extends AbstractFloat2LongMap implements java.io.Serializable, Cloneable, Hash { private static final long serialVersionUID = 0L; private static final boolean ASSERTS = false; /** The array of keys. */ protected transient float[] key; /** The array of values. */ protected transient long[] value; /** The mask for wrapping a position counter. */ protected transient int mask; /** Whether this set contains the key zero. */ protected transient boolean containsNullKey; /** The hash strategy of this custom map. */ protected it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy; /** The current table size. */ protected transient int n; /** * Threshold after which we rehash. It must be the table size times * {@link #f}. */ protected transient int maxFill; /** Number of entries in the set (including the key zero, if present). */ protected int size; /** The acceptable load factor. */ protected final float f; /** Cached set of entries. */ protected transient FastEntrySet entries; /** Cached set of keys. */ protected transient FloatSet keys; /** Cached collection of values. */ protected transient LongCollection values; /** * Creates a new hash map. * *

* The actual table size will be the least power of two greater than * expected/f. * * @param expected * the expected number of elements in the hash set. * @param f * the load factor. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final int expected, final float f, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this.strategy = strategy; if (f <= 0 || f > 1) throw new IllegalArgumentException("Load factor must be greater than 0 and smaller than or equal to 1"); if (expected < 0) throw new IllegalArgumentException("The expected number of elements must be nonnegative"); this.f = f; n = arraySize(expected, f); mask = n - 1; maxFill = maxFill(n, f); key = new float[n + 1]; value = new long[n + 1]; } /** * Creates a new hash map with {@link Hash#DEFAULT_LOAD_FACTOR} as load * factor. * * @param expected * the expected number of elements in the hash map. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final int expected, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(expected, DEFAULT_LOAD_FACTOR, strategy); } /** * Creates a new hash map with initial expected * {@link Hash#DEFAULT_INITIAL_SIZE} entries and * {@link Hash#DEFAULT_LOAD_FACTOR} as load factor. * * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(DEFAULT_INITIAL_SIZE, DEFAULT_LOAD_FACTOR, strategy); } /** * Creates a new hash map copying a given one. * * @param m * a {@link Map} to be copied into the new hash map. * @param f * the load factor. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final Map m, final float f, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(m.size(), f, strategy); putAll(m); } /** * Creates a new hash map with {@link Hash#DEFAULT_LOAD_FACTOR} as load * factor copying a given one. * * @param m * a {@link Map} to be copied into the new hash map. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final Map m, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(m, DEFAULT_LOAD_FACTOR, strategy); } /** * Creates a new hash map copying a given type-specific one. * * @param m * a type-specific map to be copied into the new hash map. * @param f * the load factor. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final Float2LongMap m, final float f, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(m.size(), f, strategy); putAll(m); } /** * Creates a new hash map with {@link Hash#DEFAULT_LOAD_FACTOR} as load * factor copying a given type-specific one. * * @param m * a type-specific map to be copied into the new hash map. * @param strategy * the strategy. */ public Float2LongOpenCustomHashMap(final Float2LongMap m, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(m, DEFAULT_LOAD_FACTOR, strategy); } /** * Creates a new hash map using the elements of two parallel arrays. * * @param k * the array of keys of the new hash map. * @param v * the array of corresponding values in the new hash map. * @param f * the load factor. * @param strategy * the strategy. * @throws IllegalArgumentException * if k and v have different lengths. */ public Float2LongOpenCustomHashMap(final float[] k, final long[] v, final float f, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(k.length, f, strategy); if (k.length != v.length) throw new IllegalArgumentException("The key array and the value array have different lengths (" + k.length + " and " + v.length + ")"); for (int i = 0; i < k.length; i++) this.put(k[i], v[i]); } /** * Creates a new hash map with {@link Hash#DEFAULT_LOAD_FACTOR} as load * factor using the elements of two parallel arrays. * * @param k * the array of keys of the new hash map. * @param v * the array of corresponding values in the new hash map. * @param strategy * the strategy. * @throws IllegalArgumentException * if k and v have different lengths. */ public Float2LongOpenCustomHashMap(final float[] k, final long[] v, final it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy) { this(k, v, DEFAULT_LOAD_FACTOR, strategy); } /** * Returns the hashing strategy. * * @return the hashing strategy of this custom hash map. */ public it.unimi.dsi.fastutil.floats.FloatHash.Strategy strategy() { return strategy; } private int realSize() { return containsNullKey ? size - 1 : size; } private void ensureCapacity(final int capacity) { final int needed = arraySize(capacity, f); if (needed > n) rehash(needed); } private void tryCapacity(final long capacity) { final int needed = (int) Math.min(1 << 30, Math.max(2, HashCommon.nextPowerOfTwo((long) Math.ceil(capacity / f)))); if (needed > n) rehash(needed); } private long removeEntry(final int pos) { final long oldValue = value[pos]; size--; shiftKeys(pos); if (size < maxFill / 4 && n > DEFAULT_INITIAL_SIZE) rehash(n / 2); return oldValue; } private long removeNullEntry() { containsNullKey = false; final long oldValue = value[n]; size--; if (size < maxFill / 4 && n > DEFAULT_INITIAL_SIZE) rehash(n / 2); return oldValue; } /** {@inheritDoc} */ public void putAll(Map m) { if (f <= .5) ensureCapacity(m.size()); // The resulting map will be // sized for m.size() elements else tryCapacity(size() + m.size()); // The resulting map will be // tentatively sized for size() // + m.size() elements super.putAll(m); } private int insert(final float k, final long v) { int pos; if ((strategy.equals((k), (0)))) { if (containsNullKey) return n; containsNullKey = true; pos = n; } else { float curr; final float[] key = this.key; // The starting point. if (!(Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) { if ((strategy.equals((curr), (k)))) return pos; while (!(Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) if ((strategy.equals((curr), (k)))) return pos; } } key[pos] = k; value[pos] = v; if (size++ >= maxFill) rehash(arraySize(size + 1, f)); if (ASSERTS) checkTable(); return -1; } public long put(final float k, final long v) { final int pos = insert(k, v); if (pos < 0) return defRetValue; final long oldValue = value[pos]; value[pos] = v; return oldValue; } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public Long put(final Float ok, final Long ov) { final long v = ((ov).longValue()); final int pos = insert(((ok).floatValue()), v); if (pos < 0) return (null); final long oldValue = value[pos]; value[pos] = v; return (Long.valueOf(oldValue)); } private long addToValue(final int pos, final long incr) { final long oldValue = value[pos]; value[pos] = oldValue + incr; return oldValue; } /** * Adds an increment to value currently associated with a key. * *

* Note that this method respects the {@linkplain #defaultReturnValue() * default return value} semantics: when called with a key that does not * currently appears in the map, the key will be associated with the default * return value plus the given increment. * * @param k * the key. * @param incr * the increment. * @return the old value, or the {@linkplain #defaultReturnValue() default * return value} if no value was present for the given key. */ public long addTo(final float k, final long incr) { int pos; if ((strategy.equals((k), (0)))) { if (containsNullKey) return addToValue(n, incr); pos = n; containsNullKey = true; } else { float curr; final float[] key = this.key; // The starting point. if (!(Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) { if ((strategy.equals((curr), (k)))) return addToValue(pos, incr); while (!(Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) if ((strategy.equals((curr), (k)))) return addToValue(pos, incr); } } key[pos] = k; value[pos] = defRetValue + incr; if (size++ >= maxFill) rehash(arraySize(size + 1, f)); if (ASSERTS) checkTable(); return defRetValue; } /** * Shifts left entries with the specified hash code, starting at the * specified position, and empties the resulting free entry. * * @param pos * a starting position. */ protected final void shiftKeys(int pos) { // Shift entries with the same hash. int last, slot; float curr; final float[] key = this.key; for (;;) { pos = ((last = pos) + 1) & mask; for (;;) { if ((Float.floatToIntBits(curr = key[pos]) == 0)) { key[last] = (0); return; } slot = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(curr))) & mask; if (last <= pos ? last >= slot || slot > pos : last >= slot && slot > pos) break; pos = (pos + 1) & mask; } key[last] = curr; value[last] = value[pos]; } } public long remove(final float k) { if ((strategy.equals((k), (0)))) { if (containsNullKey) return removeNullEntry(); return defRetValue; } float curr; final float[] key = this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return defRetValue; if ((strategy.equals((k), (curr)))) return removeEntry(pos); while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return defRetValue; if ((strategy.equals((k), (curr)))) return removeEntry(pos); } } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public Long remove(final Object ok) { final float k = ((((Float) (ok)).floatValue())); if ((strategy.equals((k), (0)))) { if (containsNullKey) return (Long.valueOf(removeNullEntry())); return (null); } float curr; final float[] key = this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return (null); if ((strategy.equals((curr), (k)))) return (Long.valueOf(removeEntry(pos))); while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return (null); if ((strategy.equals((curr), (k)))) return (Long.valueOf(removeEntry(pos))); } } /** * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated public Long get(final Float ok) { if (ok == null) return null; final float k = ((ok).floatValue()); if ((strategy.equals((k), (0)))) return containsNullKey ? (Long.valueOf(value[n])) : (null); float curr; final float[] key = this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return (null); if ((strategy.equals((k), (curr)))) return (Long.valueOf(value[pos])); // There's always an unused entry. while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return (null); if ((strategy.equals((k), (curr)))) return (Long.valueOf(value[pos])); } } public long get(final float k) { if ((strategy.equals((k), (0)))) return containsNullKey ? value[n] : defRetValue; float curr; final float[] key = this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return defRetValue; if ((strategy.equals((k), (curr)))) return value[pos]; // There's always an unused entry. while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return defRetValue; if ((strategy.equals((k), (curr)))) return value[pos]; } } public boolean containsKey(final float k) { if ((strategy.equals((k), (0)))) return containsNullKey; float curr; final float[] key = this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return false; if ((strategy.equals((k), (curr)))) return true; // There's always an unused entry. while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return false; if ((strategy.equals((k), (curr)))) return true; } } public boolean containsValue(final long v) { final long value[] = this.value; final float key[] = this.key; if (containsNullKey && ((value[n]) == (v))) return true; for (int i = n; i-- != 0;) if (!(Float.floatToIntBits(key[i]) == 0) && ((value[i]) == (v))) return true; return false; } /* * Removes all elements from this map. * *

To increase object reuse, this method does not change the table size. * If you want to reduce the table size, you must use {@link #trim()}. * */ public void clear() { if (size == 0) return; size = 0; containsNullKey = false; Arrays.fill(key, (0)); } public int size() { return size; } public boolean isEmpty() { return size == 0; } /** * A no-op for backward compatibility. * * @param growthFactor * unused. * @deprecated Since fastutil 6.1.0, hash tables are doubled * when they are too full. */ @Deprecated public void growthFactor(int growthFactor) { } /** * Gets the growth factor (2). * * @return the growth factor of this set, which is fixed (2). * @see #growthFactor(int) * @deprecated Since fastutil 6.1.0, hash tables are doubled * when they are too full. */ @Deprecated public int growthFactor() { return 16; } /** * The entry class for a hash map does not record key and value, but rather * the position in the hash table of the corresponding entry. This is * necessary so that calls to {@link java.util.Map.Entry#setValue(Object)} * are reflected in the map */ final class MapEntry implements Float2LongMap.Entry, Map.Entry { // The table index this entry refers to, or -1 if this entry has been // deleted. int index; MapEntry(final int index) { this.index = index; } MapEntry() { } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method * instead. */ @Deprecated public Float getKey() { return (Float.valueOf(key[index])); } public float getFloatKey() { return key[index]; } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method * instead. */ @Deprecated public Long getValue() { return (Long.valueOf(value[index])); } public long getLongValue() { return value[index]; } public long setValue(final long v) { final long oldValue = value[index]; value[index] = v; return oldValue; } public Long setValue(final Long v) { return (Long.valueOf(setValue(((v).longValue())))); } @SuppressWarnings("unchecked") public boolean equals(final Object o) { if (!(o instanceof Map.Entry)) return false; Map.Entry e = (Map.Entry) o; return (strategy.equals((key[index]), (((e.getKey()).floatValue())))) && ((value[index]) == (((e.getValue()).longValue()))); } public int hashCode() { return (strategy.hashCode(key[index])) ^ it.unimi.dsi.fastutil.HashCommon.long2int(value[index]); } public String toString() { return key[index] + "=>" + value[index]; } } /** An iterator over a hash map. */ private class MapIterator { /** * The index of the last entry returned, if positive or zero; initially, * {@link #n}. If negative, the last entry returned was that of the key * of index {@code - pos - 1} from the {@link #wrapped} list. */ int pos = n; /** * The index of the last entry that has been returned (more precisely, * the value of {@link #pos} if {@link #pos} is positive, or * {@link Integer#MIN_VALUE} if {@link #pos} is negative). It is -1 if * either we did not return an entry yet, or the last returned entry has * been removed. */ int last = -1; /** * A downward counter measuring how many entries must still be returned. */ int c = size; /** * A boolean telling us whether we should return the entry with the null * key. */ boolean mustReturnNullKey = Float2LongOpenCustomHashMap.this.containsNullKey; /** * A lazily allocated list containing keys of entries that have wrapped * around the table because of removals. */ FloatArrayList wrapped; public boolean hasNext() { return c != 0; } public int nextEntry() { if (!hasNext()) throw new NoSuchElementException(); c--; if (mustReturnNullKey) { mustReturnNullKey = false; return last = n; } final float key[] = Float2LongOpenCustomHashMap.this.key; for (;;) { if (--pos < 0) { // We are just enumerating elements from the wrapped list. last = Integer.MIN_VALUE; final float k = wrapped.getFloat(-pos - 1); int p = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask; while (!(strategy.equals((k), (key[p])))) p = (p + 1) & mask; return p; } if (!(Float.floatToIntBits(key[pos]) == 0)) return last = pos; } } /** * Shifts left entries with the specified hash code, starting at the * specified position, and empties the resulting free entry. * * @param pos * a starting position. */ private final void shiftKeys(int pos) { // Shift entries with the same hash. int last, slot; float curr; final float[] key = Float2LongOpenCustomHashMap.this.key; for (;;) { pos = ((last = pos) + 1) & mask; for (;;) { if ((Float.floatToIntBits(curr = key[pos]) == 0)) { key[last] = (0); return; } slot = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(curr))) & mask; if (last <= pos ? last >= slot || slot > pos : last >= slot && slot > pos) break; pos = (pos + 1) & mask; } if (pos < last) { // Wrapped entry. if (wrapped == null) wrapped = new FloatArrayList(2); wrapped.add(key[pos]); } key[last] = curr; value[last] = value[pos]; } } public void remove() { if (last == -1) throw new IllegalStateException(); if (last == n) { containsNullKey = false; } else if (pos >= 0) shiftKeys(last); else { // We're removing wrapped entries. Float2LongOpenCustomHashMap.this.remove(wrapped.getFloat(-pos - 1)); last = -1; // Note that we must not decrement size return; } size--; last = -1; // You can no longer remove this entry. if (ASSERTS) checkTable(); } public int skip(final int n) { int i = n; while (i-- != 0 && hasNext()) nextEntry(); return n - i - 1; } } private class EntryIterator extends MapIterator implements ObjectIterator { private MapEntry entry; public Float2LongMap.Entry next() { return entry = new MapEntry(nextEntry()); } @Override public void remove() { super.remove(); entry.index = -1; // You cannot use a deleted entry. } } private class FastEntryIterator extends MapIterator implements ObjectIterator { private final MapEntry entry = new MapEntry(); public MapEntry next() { entry.index = nextEntry(); return entry; } } private final class MapEntrySet extends AbstractObjectSet implements FastEntrySet { public ObjectIterator iterator() { return new EntryIterator(); } public ObjectIterator fastIterator() { return new FastEntryIterator(); } public boolean contains(final Object o) { if (!(o instanceof Map.Entry)) return false; final Map.Entry e = (Map.Entry) o; if (e.getKey() == null || !(e.getKey() instanceof Float)) return false; if (e.getValue() == null || !(e.getValue() instanceof Long)) return false; final float k = ((((Float) (e.getKey())).floatValue())); final long v = ((((Long) (e.getValue())).longValue())); if ((strategy.equals((k), (0)))) return Float2LongOpenCustomHashMap.this.containsNullKey && ((value[n]) == (v)); float curr; final float[] key = Float2LongOpenCustomHashMap.this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return false; if ((strategy.equals((k), (curr)))) return ((value[pos]) == (v)); // There's always an unused entry. while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return false; if ((strategy.equals((k), (curr)))) return ((value[pos]) == (v)); } } @Override public boolean rem(final Object o) { if (!(o instanceof Map.Entry)) return false; final Map.Entry e = (Map.Entry) o; if (e.getKey() == null || !(e.getKey() instanceof Float)) return false; if (e.getValue() == null || !(e.getValue() instanceof Long)) return false; final float k = ((((Float) (e.getKey())).floatValue())); final long v = ((((Long) (e.getValue())).longValue())); if ((strategy.equals((k), (0)))) { if (containsNullKey && ((value[n]) == (v))) { removeNullEntry(); return true; } return false; } float curr; final float[] key = Float2LongOpenCustomHashMap.this.key; int pos; // The starting point. if ((Float.floatToIntBits(curr = key[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask]) == 0)) return false; if ((strategy.equals((curr), (k)))) { if (((value[pos]) == (v))) { removeEntry(pos); return true; } return false; } while (true) { if ((Float.floatToIntBits(curr = key[pos = (pos + 1) & mask]) == 0)) return false; if ((strategy.equals((curr), (k)))) { if (((value[pos]) == (v))) { removeEntry(pos); return true; } } } } public int size() { return size; } public void clear() { Float2LongOpenCustomHashMap.this.clear(); } } public FastEntrySet float2LongEntrySet() { if (entries == null) entries = new MapEntrySet(); return entries; } /** * An iterator on keys. * *

* We simply override the * {@link java.util.ListIterator#next()}/{@link java.util.ListIterator#previous()} * methods (and possibly their type-specific counterparts) so that they * return keys instead of entries. */ private final class KeyIterator extends MapIterator implements FloatIterator { public KeyIterator() { super(); } public float nextFloat() { return key[nextEntry()]; } public Float next() { return (Float.valueOf(key[nextEntry()])); } } private final class KeySet extends AbstractFloatSet { public FloatIterator iterator() { return new KeyIterator(); } public int size() { return size; } public boolean contains(float k) { return containsKey(k); } public boolean rem(float k) { final int oldSize = size; Float2LongOpenCustomHashMap.this.remove(k); return size != oldSize; } public void clear() { Float2LongOpenCustomHashMap.this.clear(); } } public FloatSet keySet() { if (keys == null) keys = new KeySet(); return keys; } /** * An iterator on values. * *

* We simply override the * {@link java.util.ListIterator#next()}/{@link java.util.ListIterator#previous()} * methods (and possibly their type-specific counterparts) so that they * return values instead of entries. */ private final class ValueIterator extends MapIterator implements LongIterator { public ValueIterator() { super(); } public long nextLong() { return value[nextEntry()]; } /** * {@inheritDoc} * * @deprecated Please use the corresponding type-specific method * instead. */ @Deprecated @Override public Long next() { return (Long.valueOf(value[nextEntry()])); } } public LongCollection values() { if (values == null) values = new AbstractLongCollection() { public LongIterator iterator() { return new ValueIterator(); } public int size() { return size; } public boolean contains(long v) { return containsValue(v); } public void clear() { Float2LongOpenCustomHashMap.this.clear(); } }; return values; } /** * A no-op for backward compatibility. The kind of tables implemented by * this class never need rehashing. * *

* If you need to reduce the table size to fit exactly this set, use * {@link #trim()}. * * @return true. * @see #trim() * @deprecated A no-op. */ @Deprecated public boolean rehash() { return true; } /** * Rehashes the map, making the table as small as possible. * *

* This method rehashes the table to the smallest size satisfying the load * factor. It can be used when the set will not be changed anymore, so to * optimize access speed and size. * *

* If the table size is already the minimum possible, this method does * nothing. * * @return true if there was enough memory to trim the map. * @see #trim(int) */ public boolean trim() { final int l = arraySize(size, f); if (l >= n || size > maxFill(l, f)) return true; try { rehash(l); } catch (OutOfMemoryError cantDoIt) { return false; } return true; } /** * Rehashes this map if the table is too large. * *

* Let N be the smallest table size that can hold * max(n,{@link #size()}) entries, still satisfying the load * factor. If the current table size is smaller than or equal to * N, this method does nothing. Otherwise, it rehashes this map * in a table of size N. * *

* This method is useful when reusing maps. {@linkplain #clear() Clearing a * map} leaves the table size untouched. If you are reusing a map many * times, you can call this method with a typical size to avoid keeping * around a very large table just because of a few large transient maps. * * @param n * the threshold for the trimming. * @return true if there was enough memory to trim the map. * @see #trim() */ public boolean trim(final int n) { final int l = HashCommon.nextPowerOfTwo((int) Math.ceil(n / f)); if (l >= n || size > maxFill(l, f)) return true; try { rehash(l); } catch (OutOfMemoryError cantDoIt) { return false; } return true; } /** * Rehashes the map. * *

* This method implements the basic rehashing strategy, and may be overriden * by subclasses implementing different rehashing strategies (e.g., * disk-based rehashing). However, you should not override this method * unless you understand the internal workings of this class. * * @param newN * the new size */ protected void rehash(final int newN) { final float key[] = this.key; final long value[] = this.value; final int mask = newN - 1; // Note that this is used by the hashing // macro final float newKey[] = new float[newN + 1]; final long newValue[] = new long[newN + 1]; int i = n, pos; for (int j = realSize(); j-- != 0;) { while ((Float.floatToIntBits(key[--i]) == 0)) ; if (!(Float.floatToIntBits(newKey[pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(key[i]))) & mask]) == 0)) while (!(Float.floatToIntBits(newKey[pos = (pos + 1) & mask]) == 0)) ; newKey[pos] = key[i]; newValue[pos] = value[i]; } newValue[newN] = value[n]; n = newN; this.mask = mask; maxFill = maxFill(n, f); this.key = newKey; this.value = newValue; } /** * Returns a deep copy of this map. * *

* This method performs a deep copy of this hash map; the data stored in the * map, however, is not cloned. Note that this makes a difference only for * object keys. * * @return a deep copy of this map. */ public Float2LongOpenCustomHashMap clone() { Float2LongOpenCustomHashMap c; try { c = (Float2LongOpenCustomHashMap) super.clone(); } catch (CloneNotSupportedException cantHappen) { throw new InternalError(); } c.keys = null; c.values = null; c.entries = null; c.containsNullKey = containsNullKey; c.key = key.clone(); c.value = value.clone(); c.strategy = strategy; return c; } /** * Returns a hash code for this map. * * This method overrides the generic method provided by the superclass. * Since equals() is not overriden, it is important that the * value returned by this method is the same value as the one returned by * the overriden method. * * @return a hash code for this map. */ public int hashCode() { int h = 0; for (int j = realSize(), i = 0, t = 0; j-- != 0;) { while ((Float.floatToIntBits(key[i]) == 0)) i++; t = (strategy.hashCode(key[i])); t ^= it.unimi.dsi.fastutil.HashCommon.long2int(value[i]); h += t; i++; } // Zero / null keys have hash zero. if (containsNullKey) h += it.unimi.dsi.fastutil.HashCommon.long2int(value[n]); return h; } private void writeObject(java.io.ObjectOutputStream s) throws java.io.IOException { final float key[] = this.key; final long value[] = this.value; final MapIterator i = new MapIterator(); s.defaultWriteObject(); for (int j = size, e; j-- != 0;) { e = i.nextEntry(); s.writeFloat(key[e]); s.writeLong(value[e]); } } private void readObject(java.io.ObjectInputStream s) throws java.io.IOException, ClassNotFoundException { s.defaultReadObject(); n = arraySize(size, f); maxFill = maxFill(n, f); mask = n - 1; final float key[] = this.key = new float[n + 1]; final long value[] = this.value = new long[n + 1]; float k; long v; for (int i = size, pos; i-- != 0;) { k = s.readFloat(); v = s.readLong(); if ((strategy.equals((k), (0)))) { pos = n; containsNullKey = true; } else { pos = (it.unimi.dsi.fastutil.HashCommon.mix(strategy.hashCode(k))) & mask; while (!(Float.floatToIntBits(key[pos]) == 0)) pos = (pos + 1) & mask; } key[pos] = k; value[pos] = v; } if (ASSERTS) checkTable(); } private void checkTable() { } }





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