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fastutil extends the Java Collections Framework by providing type-specific maps, sets, lists, and queues with a small memory footprint and fast operations; it provides also big (64-bit) arrays, sets, and lists, sorting algorithms, fast, practical I/O classes for binary and text files, and facilities for memory mapping large files. This jar (fastutil-core.jar) contains data structures based on integers, longs, doubles, and objects, only; fastutil.jar contains all classes. If you have both jars in your dependencies, this jar should be excluded.

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/*
 * Copyright (C) 2002-2022 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
 *
 *     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 PACKAGE;

#if ! KEYS_REFERENCE
import it.unimi.dsi.fastutil.objects.ObjectBidirectionalIterable;
import it.unimi.dsi.fastutil.objects.ObjectBidirectionalIterator;
import it.unimi.dsi.fastutil.objects.ObjectSortedSet;
import it.unimi.dsi.fastutil.objects.ObjectSortedSets;
#endif

import PACKAGE.SORTED_MAP.FastSortedEntrySet;

import java.util.Comparator;
import java.util.Map;
import java.util.SortedMap;
import java.util.NoSuchElementException;

/** A class providing static methods and objects that do useful things with type-specific sorted maps.
 *
 * @see java.util.Collections
 */

public final class SORTED_MAPS {

	private SORTED_MAPS() {}

	/** Returns a comparator for entries based on a given comparator on keys.
	 *
	 * @param comparator a comparator on keys.
	 * @return the associated comparator on entries.
	 */
	public static KEY_GENERIC Comparator> entryComparator(final KEY_COMPARATOR KEY_SUPER_GENERIC comparator) {
		return (Comparator>) (x, y) -> comparator.compare(KEY_CLASS2TYPE(x.getKey()), KEY_CLASS2TYPE(y.getKey()));
	}

	/** Returns a bidirectional iterator that will be {@linkplain FastSortedEntrySet fast}, if possible, on the {@linkplain Map#entrySet() entry set} of the provided {@code map}.
	 * @param map a map from which we will try to extract a (fast) bidirectional iterator on the entry set.
	 * @return a bidirectional iterator on the entry set of the given map that will be fast, if possible.
	 * @since 8.0.0
	 */
	SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED
	public static KEY_VALUE_GENERIC ObjectBidirectionalIterator fastIterator(SORTED_MAP KEY_VALUE_GENERIC map) {
		final ObjectSortedSet entries = map.ENTRYSET();
		return entries instanceof SORTED_MAP.FastSortedEntrySet ? ((SORTED_MAP.FastSortedEntrySet KEY_VALUE_GENERIC) entries).fastIterator() : entries.iterator();
	}

	/** Returns an iterable yielding a bidirectional iterator that will be {@linkplain FastSortedEntrySet fast}, if possible, on the {@linkplain Map#entrySet() entry set} of the provided {@code map}.
	 * @param map a map from which we will try to extract an iterable yielding a (fast) bidirectional iterator on the entry set.
	 * @return an iterable yielding a bidirectional iterator on the entry set of the given map that will be fast, if possible.
	 * @since 8.0.0
	 */
	SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED
	public static KEY_VALUE_GENERIC ObjectBidirectionalIterable fastIterable(SORTED_MAP KEY_VALUE_GENERIC map) {
		final ObjectSortedSet entries = map.ENTRYSET();
		return entries instanceof SORTED_MAP.FastSortedEntrySet ? ((SORTED_MAP.FastSortedEntrySet KEY_VALUE_GENERIC)entries)::fastIterator : entries;
	}


	/** An immutable class representing an empty type-specific sorted map.
	 *
	 * 

This class may be useful to implement your own in case you subclass * a type-specific sorted map. */ public static class EmptySortedMap KEY_VALUE_GENERIC extends MAPS.EmptyMap KEY_VALUE_GENERIC implements SORTED_MAP KEY_VALUE_GENERIC, java.io.Serializable, Cloneable { private static final long serialVersionUID = -7046029254386353129L; protected EmptySortedMap() {} @Override public KEY_COMPARATOR KEY_SUPER_GENERIC comparator() { return null; } @SuppressWarnings("unchecked") @Override public ObjectSortedSet ENTRYSET() { return ObjectSortedSets.EMPTY_SET; } #if KEYS_PRIMITIVE || VALUES_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated #else /** {@inheritDoc} */ #endif @Override @SuppressWarnings("unchecked") public ObjectSortedSet> entrySet() { return ObjectSortedSets.EMPTY_SET; } SUPPRESS_WARNINGS_KEY_UNCHECKED @Override public SORTED_SET KEY_GENERIC keySet() { return SORTED_SETS.EMPTY_SET; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_TYPE from, final KEY_GENERIC_TYPE to) { return EMPTY_MAP; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_TYPE to) { return EMPTY_MAP; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_TYPE from) { return EMPTY_MAP; } @Override public KEY_GENERIC_TYPE FIRST_KEY() { throw new NoSuchElementException(); } @Override public KEY_GENERIC_TYPE LAST_KEY() { throw new NoSuchElementException(); } #if KEYS_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(KEY_GENERIC_CLASS oto) { return headMap(KEY_CLASS2TYPE(oto)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(KEY_GENERIC_CLASS ofrom) { return tailMap(KEY_CLASS2TYPE(ofrom)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(KEY_GENERIC_CLASS ofrom, KEY_GENERIC_CLASS oto) { return subMap(KEY_CLASS2TYPE(ofrom), KEY_CLASS2TYPE(oto)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS firstKey() { return KEY2OBJ(FIRST_KEY()); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS lastKey() { return KEY2OBJ(LAST_KEY()); } #endif } /** An empty sorted map (immutable). It is serializable and cloneable. */ SUPPRESS_WARNINGS_KEY_VALUE_RAWTYPES public static final EmptySortedMap EMPTY_MAP = new EmptySortedMap(); #if KEYS_REFERENCE || VALUES_REFERENCE /** Returns an empty sorted map (immutable). It is serializable and cloneable. * *

This method provides a typesafe access to {@link #EMPTY_MAP}. * @return an empty sorted map (immutable). */ @SuppressWarnings("unchecked") public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC emptyMap() { return EMPTY_MAP; } #endif /** An immutable class representing a type-specific singleton sorted map. * *

This class may be useful to implement your own in case you subclass * a type-specific sorted map. */ public static class Singleton KEY_VALUE_GENERIC extends MAPS.Singleton KEY_VALUE_GENERIC implements SORTED_MAP KEY_VALUE_GENERIC, java.io.Serializable, Cloneable { private static final long serialVersionUID = -7046029254386353129L; protected final KEY_COMPARATOR KEY_SUPER_GENERIC comparator; protected Singleton(final KEY_GENERIC_TYPE key, final VALUE_GENERIC_TYPE value, KEY_COMPARATOR KEY_SUPER_GENERIC comparator) { super(key, value); this.comparator = comparator; } protected Singleton(final KEY_GENERIC_TYPE key, final VALUE_GENERIC_TYPE value) { this(key, value, null); } SUPPRESS_WARNINGS_KEY_UNCHECKED final int compare(final KEY_GENERIC_TYPE k1, final KEY_GENERIC_TYPE k2) { return comparator == null ? KEY_CMP(k1, k2) : comparator.compare(k1, k2); } @Override public KEY_COMPARATOR KEY_SUPER_GENERIC comparator() { return comparator; } SUPPRESS_WARNINGS_KEY_UNCHECKED @Override public ObjectSortedSet ENTRYSET() { if (entries == null) entries = ObjectSortedSets.singleton(new ABSTRACT_MAP.BasicEntry KEY_VALUE_GENERIC_DIAMOND(key, value), entryComparator(comparator)); return (ObjectSortedSet)entries; } #if KEYS_PRIMITIVE || VALUES_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated #else /** {@inheritDoc} */ #endif @Override @SuppressWarnings({ "rawtypes", "unchecked" }) public ObjectSortedSet> entrySet() { return (ObjectSortedSet)ENTRYSET(); } @Override public SORTED_SET KEY_GENERIC keySet() { if (keys == null) keys = SORTED_SETS.singleton(key, comparator); return (SORTED_SET KEY_GENERIC)keys; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_TYPE from, final KEY_GENERIC_TYPE to) { if (compare(from, key) <= 0 && compare(key, to) < 0) return this; return EMPTY_MAP; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_TYPE to) { if (compare(key, to) < 0) return this; return EMPTY_MAP; } SUPPRESS_WARNINGS_KEY_VALUE_UNCHECKED @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_TYPE from) { if (compare(from, key) <= 0) return this; return EMPTY_MAP; } @Override public KEY_GENERIC_TYPE FIRST_KEY() { return key; } @Override public KEY_GENERIC_TYPE LAST_KEY() { return key; } #if KEYS_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(KEY_GENERIC_CLASS oto) { return headMap(KEY_CLASS2TYPE(oto)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(KEY_GENERIC_CLASS ofrom) { return tailMap(KEY_CLASS2TYPE(ofrom)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(KEY_GENERIC_CLASS ofrom, KEY_GENERIC_CLASS oto) { return subMap(KEY_CLASS2TYPE(ofrom), KEY_CLASS2TYPE(oto)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS firstKey() { return KEY2OBJ(FIRST_KEY()); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS lastKey() { return KEY2OBJ(LAST_KEY()); } #endif } /** Returns a type-specific immutable sorted map containing only the specified pair. The returned sorted map is serializable and cloneable. * *

Note that albeit the returned map is immutable, its default return value may be changed. * * @param key the only key of the returned sorted map. * @param value the only value of the returned sorted map. * @return a type-specific immutable sorted map containing just the pair {@code <key,value>}. */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC singleton(final KEY_GENERIC_CLASS key, VALUE_GENERIC_CLASS value) { return new Singleton KEY_VALUE_GENERIC_DIAMOND(KEY_CLASS2TYPE(key), VALUE_CLASS2TYPE(value));} /** Returns a type-specific immutable sorted map containing only the specified pair. The returned sorted map is serializable and cloneable. * *

Note that albeit the returned map is immutable, its default return value may be changed. * * @param key the only key of the returned sorted map. * @param value the only value of the returned sorted map. * @param comparator the comparator to use in the returned sorted map. * @return a type-specific immutable sorted map containing just the pair {@code <key,value>}. */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC singleton(final KEY_GENERIC_CLASS key, VALUE_GENERIC_CLASS value, KEY_COMPARATOR KEY_SUPER_GENERIC comparator) { return new Singleton KEY_VALUE_GENERIC_DIAMOND(KEY_CLASS2TYPE(key), VALUE_CLASS2TYPE(value), comparator); } #if KEYS_PRIMITIVE || VALUES_PRIMITIVE /** Returns a type-specific immutable sorted map containing only the specified pair. The returned sorted map is serializable and cloneable. * *

Note that albeit the returned map is immutable, its default return value may be changed. * * @param key the only key of the returned sorted map. * @param value the only value of the returned sorted map. * @return a type-specific immutable sorted map containing just the pair {@code <key,value>}. */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC singleton(final KEY_GENERIC_TYPE key, final VALUE_GENERIC_TYPE value) { return new Singleton KEY_VALUE_GENERIC_DIAMOND(key, value); } /** Returns a type-specific immutable sorted map containing only the specified pair. The returned sorted map is serializable and cloneable. * *

Note that albeit the returned map is immutable, its default return value may be changed. * * @param key the only key of the returned sorted map. * @param value the only value of the returned sorted map. * @param comparator the comparator to use in the returned sorted map. * @return a type-specific immutable sorted map containing just the pair {@code <key,value>}. */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC singleton(final KEY_GENERIC_TYPE key, final VALUE_GENERIC_TYPE value, KEY_COMPARATOR KEY_SUPER_GENERIC comparator) { return new Singleton KEY_VALUE_GENERIC_DIAMOND(key, value, comparator); } #endif /** A synchronized wrapper class for sorted maps. */ public static class SynchronizedSortedMap KEY_VALUE_GENERIC extends MAPS.SynchronizedMap KEY_VALUE_GENERIC implements SORTED_MAP KEY_VALUE_GENERIC, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final SORTED_MAP KEY_VALUE_GENERIC sortedMap; protected SynchronizedSortedMap(final SORTED_MAP KEY_VALUE_GENERIC m, final Object sync) { super(m, sync); sortedMap = m; } protected SynchronizedSortedMap(final SORTED_MAP KEY_VALUE_GENERIC m) { super(m); sortedMap = m; } @Override public KEY_COMPARATOR KEY_SUPER_GENERIC comparator() { synchronized(sync) { return sortedMap.comparator(); } } @Override public ObjectSortedSet ENTRYSET() { if (entries == null) entries = ObjectSortedSets.synchronize(sortedMap.ENTRYSET(), sync); return (ObjectSortedSet)entries; } #if KEYS_PRIMITIVE || VALUES_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated #else /** {@inheritDoc} */ #endif @Override @SuppressWarnings({ "rawtypes", "unchecked" }) public ObjectSortedSet> entrySet() { return (ObjectSortedSet)ENTRYSET(); } @Override public SORTED_SET KEY_GENERIC keySet() { if (keys == null) keys = SORTED_SETS.synchronize(sortedMap.keySet(), sync); return (SORTED_SET KEY_GENERIC)keys; } @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_TYPE from, final KEY_GENERIC_TYPE to) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.subMap(from, to), sync); } @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_TYPE to) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.headMap(to), sync); } @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_TYPE from) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.tailMap(from), sync); } @Override public KEY_GENERIC_TYPE FIRST_KEY() { synchronized(sync) { return sortedMap.FIRST_KEY(); } } @Override public KEY_GENERIC_TYPE LAST_KEY() { synchronized(sync) { return sortedMap.LAST_KEY(); } } #if KEYS_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS firstKey() { synchronized(sync) { return sortedMap.firstKey(); } } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS lastKey() { synchronized(sync) { return sortedMap.lastKey(); } } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_CLASS from, final KEY_GENERIC_CLASS to) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.subMap(from, to), sync); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_CLASS to) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.headMap(to), sync); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_CLASS from) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.tailMap(from), sync); } #endif } /** Returns a synchronized type-specific sorted map backed by the given type-specific sorted map. * * @param m the sorted map to be wrapped in a synchronized sorted map. * @return a synchronized view of the specified sorted map. * @see java.util.Collections#synchronizedSortedMap(SortedMap) */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC synchronize(final SORTED_MAP KEY_VALUE_GENERIC m) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(m); } /** Returns a synchronized type-specific sorted map backed by the given type-specific sorted map, using an assigned object to synchronize. * * @param m the sorted map to be wrapped in a synchronized sorted map. * @param sync an object that will be used to synchronize the access to the sorted sorted map. * @return a synchronized view of the specified sorted map. * @see java.util.Collections#synchronizedSortedMap(SortedMap) */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC synchronize(final SORTED_MAP KEY_VALUE_GENERIC m, final Object sync) { return new SynchronizedSortedMap KEY_VALUE_GENERIC_DIAMOND(m, sync); } /** An unmodifiable wrapper class for sorted maps. */ public static class UnmodifiableSortedMap KEY_VALUE_GENERIC extends MAPS.UnmodifiableMap KEY_VALUE_GENERIC implements SORTED_MAP KEY_VALUE_GENERIC, java.io.Serializable { private static final long serialVersionUID = -7046029254386353129L; protected final SORTED_MAP KEY_GENERIC_VALUE_EXTENDS_GENERIC sortedMap; protected UnmodifiableSortedMap(final SORTED_MAP KEY_GENERIC_VALUE_EXTENDS_GENERIC m) { super(m); sortedMap = m; } @Override public KEY_COMPARATOR KEY_SUPER_GENERIC comparator() { return sortedMap.comparator(); } @SuppressWarnings({ "rawtypes", "unchecked" }) @Override public ObjectSortedSet ENTRYSET() { if (entries == null) entries = ObjectSortedSets.unmodifiable((ObjectSortedSet)sortedMap.ENTRYSET()); return (ObjectSortedSet)entries; } #if KEYS_PRIMITIVE || VALUES_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated #else /** {@inheritDoc} */ #endif @Override @SuppressWarnings({ "rawtypes", "unchecked" }) public ObjectSortedSet> entrySet() { return (ObjectSortedSet)ENTRYSET(); } @Override public SORTED_SET KEY_GENERIC keySet() { if (keys == null) keys = SORTED_SETS.unmodifiable(sortedMap.keySet()); return (SORTED_SET KEY_GENERIC)keys; } @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_TYPE from, final KEY_GENERIC_TYPE to) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.subMap(from, to)); } @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_TYPE to) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.headMap(to)); } @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_TYPE from) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.tailMap(from)); } @Override public KEY_GENERIC_TYPE FIRST_KEY() { return sortedMap.FIRST_KEY(); } @Override public KEY_GENERIC_TYPE LAST_KEY() { return sortedMap.LAST_KEY(); } #if KEYS_PRIMITIVE /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS firstKey() { return sortedMap.firstKey(); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public KEY_GENERIC_CLASS lastKey() { return sortedMap.lastKey(); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC subMap(final KEY_GENERIC_CLASS from, final KEY_GENERIC_CLASS to) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.subMap(from, to)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC headMap(final KEY_GENERIC_CLASS to) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.headMap(to)); } /** {@inheritDoc} * @deprecated Please use the corresponding type-specific method instead. */ @Deprecated @Override public SORTED_MAP KEY_VALUE_GENERIC tailMap(final KEY_GENERIC_CLASS from) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(sortedMap.tailMap(from)); } #endif } /** Returns an unmodifiable type-specific sorted map backed by the given type-specific sorted map. * * @param m the sorted map to be wrapped in an unmodifiable sorted map. * @return an unmodifiable view of the specified sorted map. * @see java.util.Collections#unmodifiableSortedMap(SortedMap) */ public static KEY_VALUE_GENERIC SORTED_MAP KEY_VALUE_GENERIC unmodifiable(final SORTED_MAP KEY_GENERIC_VALUE_EXTENDS_GENERIC m) { return new UnmodifiableSortedMap KEY_VALUE_GENERIC_DIAMOND(m); } #if defined(TEST) && ! KEYS_USE_REFERENCE_EQUALITY private static long seed = System.currentTimeMillis(); private static java.util.Random r = new java.util.Random(seed); private static KEY_TYPE genKey() { #if KEY_CLASS_Byte || KEY_CLASS_Short || KEY_CLASS_Character return (KEY_TYPE)(r.nextInt()); #elif KEYS_PRIMITIVE return r.NEXT_KEY(); #else return Integer.toBinaryString(r.nextInt()); #endif } private static VALUE_TYPE genValue() { #if VALUE_CLASS_Byte || VALUE_CLASS_Short || VALUE_CLASS_Character return (VALUE_TYPE)(r.nextInt()); #elif VALUES_PRIMITIVE return r.NEXT_VALUE(); #elif !VALUES_USE_REFERENCE_EQUALITY || KEYS_USE_REFERENCE_EQUALITY return Integer.toBinaryString(r.nextInt()); #else return new java.io.Serializable() {}; #endif } private static java.text.NumberFormat format = new java.text.DecimalFormat("#,###.00"); private static java.text.FieldPosition p = new java.text.FieldPosition(0); private static String format(double d) { StringBuffer s = new StringBuffer(); return format.format(d, s, p).toString(); } private static void speedTest(int n, boolean comp) { System.out.println("There are presently no speed tests for this class."); } private static void fatal(String msg) { throw new AssertionError(msg); } private static void ensure(boolean cond, String msg) { if (cond) return; fatal(msg); } private static Object[] k, v, nk; private static KEY_TYPE kt[]; private static KEY_TYPE nkt[]; private static VALUE_TYPE vt[]; private static SORTED_MAP topMap; protected static void testMaps(SORTED_MAP m, SortedMap t, int n, int level) throws Exception { long ms; boolean mThrowsIllegal, tThrowsIllegal, mThrowsNoElement, tThrowsNoElement, mThrowsUnsupp, tThrowsUnsupp; Object rt = null, rm = null; if (level > 1) return; /* Now we check that both maps agree on first/last keys. */ mThrowsNoElement = mThrowsIllegal = tThrowsNoElement = tThrowsIllegal = false; try { m.firstKey(); } catch (java.util.NoSuchElementException e) { mThrowsNoElement = true; } try { t.firstKey(); } catch (java.util.NoSuchElementException e) { tThrowsNoElement = true; } ensure(mThrowsNoElement == tThrowsNoElement, "Error (" + level + ", " + seed + "): firstKey() divergence at start in java.util.NoSuchElementException (" + mThrowsNoElement + ", " + tThrowsNoElement + ")"); if (! mThrowsNoElement) ensure(t.firstKey().equals(m.firstKey()), "Error (" + level + ", " + seed + "): m and t differ at start on their first key (" + m.firstKey() + ", " + t.firstKey() +")"); mThrowsNoElement = mThrowsIllegal = tThrowsNoElement = tThrowsIllegal = false; try { m.lastKey(); } catch (java.util.NoSuchElementException e) { mThrowsNoElement = true; } try { t.lastKey(); } catch (java.util.NoSuchElementException e) { tThrowsNoElement = true; } ensure(mThrowsNoElement == tThrowsNoElement, "Error (" + level + ", " + seed + "): lastKey() divergence at start in java.util.NoSuchElementException (" + mThrowsNoElement + ", " + tThrowsNoElement + ")"); if (! mThrowsNoElement) ensure(t.lastKey().equals(m.lastKey()), "Error (" + level + ", " + seed + "): m and t differ at start on their last key (" + m.lastKey() + ", " + t.lastKey() +")"); /* Now we check that m and t are equal. */ if (!m.equals(t) || ! t.equals(m)) System.err.println("m: " + m + " t: " + t); ensure(m.equals(t), "Error (" + level + ", " + seed + "): ! m.equals(t) at start"); ensure(t.equals(m), "Error (" + level + ", " + seed + "): ! t.equals(m) at start"); /* Now we check that m actually holds that data. */ for(java.util.Iterator i=t.entrySet().iterator(); i.hasNext();) { java.util.Map.Entry e = (java.util.Map.Entry)i.next(); ensure(java.util.Objects.equals(e.getValue(), m.get(e.getKey())), "Error (" + level + ", " + seed + "): m and t differ on an entry ("+e+") after insertion (iterating on t)"); } /* Now we check that m actually holds that data, but iterating on m. */ for(java.util.Iterator i=m.entrySet().iterator(); i.hasNext();) { java.util.Map.Entry e = (java.util.Map.Entry)i.next(); ensure(java.util.Objects.equals(e.getValue(), t.get(e.getKey())), "Error (" + level + ", " + seed + "): m and t differ on an entry ("+e+") after insertion (iterating on m)"); } /* Now we check that m actually holds the same keys. */ for(java.util.Iterator i=t.keySet().iterator(); i.hasNext();) { Object o = i.next(); ensure(m.containsKey(o), "Error (" + level + ", " + seed + "): m and t differ on a key ("+o+") after insertion (iterating on t)"); ensure(m.keySet().contains(o), "Error (" + level + ", " + seed + "): m and t differ on a key ("+o+", in keySet()) after insertion (iterating on t)"); } /* Now we check that m actually holds the same keys, but iterating on m. */ for(java.util.Iterator i=m.keySet().iterator(); i.hasNext();) { Object o = i.next(); ensure(t.containsKey(o), "Error (" + level + ", " + seed + "): m and t differ on a key after insertion (iterating on m)"); ensure(t.keySet().contains(o), "Error (" + level + ", " + seed + "): m and t differ on a key (in keySet()) after insertion (iterating on m)"); } /* Now we check that m actually hold the same values. */ for(java.util.Iterator i=t.values().iterator(); i.hasNext();) { Object o = i.next(); ensure(m.containsValue(o), "Error (" + level + ", " + seed + "): m and t differ on a value after insertion (iterating on t)"); ensure(m.values().contains(o), "Error (" + level + ", " + seed + "): m and t differ on a value (in values()) after insertion (iterating on t)"); } /* Now we check that m actually hold the same values, but iterating on m. */ for(java.util.Iterator i=m.values().iterator(); i.hasNext();) { Object o = i.next(); ensure(t.containsValue(o), "Error (" + level + ", " + seed + "): m and t differ on a value after insertion (iterating on m)"); ensure(t.values().contains(o), "Error (" + level + ", " + seed + "): m and t differ on a value (in values()) after insertion (iterating on m)"); } /* Now we check that inquiries about random data give the same answer in m and t. For m we use the polymorphic method. */ for(int i=0; i 0) { badPrevious = true; j.previous(); break; } previous = k; } i = (it.unimi.dsi.fastutil.BidirectionalIterator)((SORTED_SET)m.keySet()).iterator(from); for(int k = 0; k < 2*n; k++) { ensure(i.hasNext() == j.hasNext(), "Error (" + level + ", " + seed + "): divergence in hasNext() (iterator with starting point " + from + ")"); ensure(i.hasPrevious() == j.hasPrevious() || badPrevious && (i.hasPrevious() == (previous != null)), "Error (" + level + ", " + seed + "): divergence in hasPrevious() (iterator with starting point " + from + ")" + badPrevious); if (r.nextFloat() < .8 && i.hasNext()) { ensure((I = i.next()).equals(J = j.next()), "Error (" + level + ", " + seed + "): divergence in next() (" + I + ", " + J + ", iterator with starting point " + from + ")"); //System.err.println("Done next " + I + " " + J + " " + badPrevious); badPrevious = false; if (r.nextFloat() < 0.5) { } } else if (!badPrevious && r.nextFloat() < .2 && i.hasPrevious()) { ensure((I = i.previous()).equals(J = j.previous()), "Error (" + level + ", " + seed + "): divergence in previous() (" + I + ", " + J + ", iterator with starting point " + from + ")"); if (r.nextFloat() < 0.5) { } } } } /* Now we check that m actually holds that data. */ ensure(m.equals(t), "Error (" + level + ", " + seed + "): ! m.equals(t) after iteration"); ensure(t.equals(m), "Error (" + level + ", " + seed + "): ! t.equals(m) after iteration"); /* Now we select a pair of keys and create a submap. */ if (! m.isEmpty()) { java.util.ListIterator i; Object start = m.firstKey(), end = m.firstKey(); for(i = (java.util.ListIterator)m.keySet().iterator(); i.hasNext() && r.nextFloat() < .3; start = end = i.next()); for(; i.hasNext() && r.nextFloat() < .95; end = i.next()); //System.err.println("Checking subMap from " + start + " to " + end + " (level=" + (level+1) + ")..."); testMaps((SORTED_MAP)m.subMap((KEY_CLASS)start, (KEY_CLASS)end), t.subMap(start, end), n, level + 1); ensure(m.equals(t), "Error (" + level + ", " + seed + "): ! m.equals(t) after subMap"); ensure(t.equals(m), "Error (" + level + ", " + seed + "): ! t.equals(m) after subMap"); //System.err.println("Checking headMap to " + end + " (level=" + (level+1) + ")..."); testMaps((SORTED_MAP)m.headMap((KEY_CLASS)end), t.headMap(end), n, level + 1); ensure(m.equals(t), "Error (" + level + ", " + seed + "): ! m.equals(t) after headMap"); ensure(t.equals(m), "Error (" + level + ", " + seed + "): ! t.equals(m) after headMap"); //System.err.println("Checking tailMap from " + start + " (level=" + (level+1) + ")..."); testMaps((SORTED_MAP)m.tailMap((KEY_CLASS)start), t.tailMap(start), n, level + 1); ensure(m.equals(t), "Error (" + level + ", " + seed + "): ! m.equals(t) after tailMap"); ensure(t.equals(m), "Error (" + level + ", " + seed + "): ! t.equals(m) after tailMap"); } } private static void test() throws Exception { int n = 1; k = new Object[n]; v = new Object[n]; nk = new Object[n]; kt = new KEY_TYPE[n]; nkt = new KEY_TYPE[n]; vt = new VALUE_TYPE[n]; for(int i = 0; i < n; i++) { #if KEY_CLASS_Object k[i] = kt[i] = genKey(); nk[i] = nkt[i] = genKey(); #else k[i] = new KEY_CLASS(kt[i] = genKey()); nk[i] = new KEY_CLASS(nkt[i] = genKey()); #endif #if VALUES_REFERENCE v[i] = vt[i] = genValue(); #else v[i] = new VALUE_CLASS(vt[i] = genValue()); #endif } SORTED_MAP m = new Singleton(kt[0], vt[0]); topMap = m; SortedMap t1 = new java.util.TreeMap(); t1.put(k[0], v[0]); SortedMap t = java.util.Collections.unmodifiableSortedMap(t1); testMaps(m, t, n, 0); System.out.println("Test OK"); return; } public static void main(String args[]) throws Exception { if (args.length > 1) r = new java.util.Random(seed = Long.parseLong(args[1])); try { test(); } catch(Throwable e) { e.printStackTrace(System.err); System.err.println("seed: " + seed); throw e; } } #endif }





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