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JDK 11 java.base.jmod - Base Module
JDK 11 java.base.jmod is the JMOD file for JDK 11 Base module.
JDK 11 Base module compiled class files are stored in \fyicenter\jdk-11.0.1\jmods\java.base.jmod.
JDK 11 Base module compiled class files are also linked and stored in the \fyicenter\jdk-11.0.1\lib\modules JImage file.
JDK 11 Base module source code files are stored in \fyicenter\jdk-11.0.1\lib\src.zip\java.base.
You can click and view the content of each source code file in the list below.
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⏎ java/text/Collator.java
/* * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved. * ORACLE PROPRIETARY/CONFIDENTIAL. Use is subject to license terms. * * * * * * * * * * * * * * * * * * * * */ /* * (C) Copyright Taligent, Inc. 1996-1998 - All Rights Reserved * (C) Copyright IBM Corp. 1996-1998 - All Rights Reserved * * The original version of this source code and documentation is copyrighted * and owned by Taligent, Inc., a wholly-owned subsidiary of IBM. These * materials are provided under terms of a License Agreement between Taligent * and Sun. This technology is protected by multiple US and International * patents. This notice and attribution to Taligent may not be removed. * Taligent is a registered trademark of Taligent, Inc. * */ package java.text; import java.lang.ref.SoftReference; import java.text.spi.CollatorProvider; import java.util.Locale; import java.util.ResourceBundle; import java.util.concurrent.ConcurrentHashMap; import java.util.concurrent.ConcurrentMap; import sun.util.locale.provider.LocaleProviderAdapter; import sun.util.locale.provider.LocaleServiceProviderPool; /** * The <code>Collator</code> class performs locale-sensitive * <code>String</code> comparison. You use this class to build * searching and sorting routines for natural language text. * * <p> * <code>Collator</code> is an abstract base class. Subclasses * implement specific collation strategies. One subclass, * <code>RuleBasedCollator</code>, is currently provided with * the Java Platform and is applicable to a wide set of languages. Other * subclasses may be created to handle more specialized needs. * * <p> * Like other locale-sensitive classes, you can use the static * factory method, <code>getInstance</code>, to obtain the appropriate * <code>Collator</code> object for a given locale. You will only need * to look at the subclasses of <code>Collator</code> if you need * to understand the details of a particular collation strategy or * if you need to modify that strategy. * * <p> * The following example shows how to compare two strings using * the <code>Collator</code> for the default locale. * <blockquote> * <pre>{@code * // Compare two strings in the default locale * Collator myCollator = Collator.getInstance(); * if( myCollator.compare("abc", "ABC") < 0 ) * System.out.println("abc is less than ABC"); * else * System.out.println("abc is greater than or equal to ABC"); * }</pre> * </blockquote> * * <p> * You can set a <code>Collator</code>'s <em>strength</em> property * to determine the level of difference considered significant in * comparisons. Four strengths are provided: <code>PRIMARY</code>, * <code>SECONDARY</code>, <code>TERTIARY</code>, and <code>IDENTICAL</code>. * The exact assignment of strengths to language features is * locale dependent. For example, in Czech, "e" and "f" are considered * primary differences, while "e" and "ě" are secondary differences, * "e" and "E" are tertiary differences and "e" and "e" are identical. * The following shows how both case and accents could be ignored for * US English. * <blockquote> * <pre> * //Get the Collator for US English and set its strength to PRIMARY * Collator usCollator = Collator.getInstance(Locale.US); * usCollator.setStrength(Collator.PRIMARY); * if( usCollator.compare("abc", "ABC") == 0 ) { * System.out.println("Strings are equivalent"); * } * </pre> * </blockquote> * <p> * For comparing <code>String</code>s exactly once, the <code>compare</code> * method provides the best performance. When sorting a list of * <code>String</code>s however, it is generally necessary to compare each * <code>String</code> multiple times. In this case, <code>CollationKey</code>s * provide better performance. The <code>CollationKey</code> class converts * a <code>String</code> to a series of bits that can be compared bitwise * against other <code>CollationKey</code>s. A <code>CollationKey</code> is * created by a <code>Collator</code> object for a given <code>String</code>. * <br> * <strong>Note:</strong> <code>CollationKey</code>s from different * <code>Collator</code>s can not be compared. See the class description * for {@link CollationKey} * for an example using <code>CollationKey</code>s. * * @see RuleBasedCollator * @see CollationKey * @see CollationElementIterator * @see Locale * @author Helena Shih, Laura Werner, Richard Gillam * @since 1.1 */ public abstract class Collator implements java.util.Comparator<Object>, Cloneable { /** * Collator strength value. When set, only PRIMARY differences are * considered significant during comparison. The assignment of strengths * to language features is locale dependent. A common example is for * different base letters ("a" vs "b") to be considered a PRIMARY difference. * @see java.text.Collator#setStrength * @see java.text.Collator#getStrength */ public static final int PRIMARY = 0; /** * Collator strength value. When set, only SECONDARY and above differences are * considered significant during comparison. The assignment of strengths * to language features is locale dependent. A common example is for * different accented forms of the same base letter ("a" vs "\u00E4") to be * considered a SECONDARY difference. * @see java.text.Collator#setStrength * @see java.text.Collator#getStrength */ public static final int SECONDARY = 1; /** * Collator strength value. When set, only TERTIARY and above differences are * considered significant during comparison. The assignment of strengths * to language features is locale dependent. A common example is for * case differences ("a" vs "A") to be considered a TERTIARY difference. * @see java.text.Collator#setStrength * @see java.text.Collator#getStrength */ public static final int TERTIARY = 2; /** * Collator strength value. When set, all differences are * considered significant during comparison. The assignment of strengths * to language features is locale dependent. A common example is for control * characters ("\u0001" vs "\u0002") to be considered equal at the * PRIMARY, SECONDARY, and TERTIARY levels but different at the IDENTICAL * level. Additionally, differences between pre-composed accents such as * "\u00C0" (A-grave) and combining accents such as "A\u0300" * (A, combining-grave) will be considered significant at the IDENTICAL * level if decomposition is set to NO_DECOMPOSITION. */ public static final int IDENTICAL = 3; /** * Decomposition mode value. With NO_DECOMPOSITION * set, accented characters will not be decomposed for collation. This * is the default setting and provides the fastest collation but * will only produce correct results for languages that do not use accents. * @see java.text.Collator#getDecomposition * @see java.text.Collator#setDecomposition */ public static final int NO_DECOMPOSITION = 0; /** * Decomposition mode value. With CANONICAL_DECOMPOSITION * set, characters that are canonical variants according to Unicode * standard will be decomposed for collation. This should be used to get * correct collation of accented characters. * <p> * CANONICAL_DECOMPOSITION corresponds to Normalization Form D as * described in * <a href="http://www.unicode.org/unicode/reports/tr15/tr15-23.html">Unicode * Technical Report #15</a>. * @see java.text.Collator#getDecomposition * @see java.text.Collator#setDecomposition */ public static final int CANONICAL_DECOMPOSITION = 1; /** * Decomposition mode value. With FULL_DECOMPOSITION * set, both Unicode canonical variants and Unicode compatibility variants * will be decomposed for collation. This causes not only accented * characters to be collated, but also characters that have special formats * to be collated with their norminal form. For example, the half-width and * full-width ASCII and Katakana characters are then collated together. * FULL_DECOMPOSITION is the most complete and therefore the slowest * decomposition mode. * <p> * FULL_DECOMPOSITION corresponds to Normalization Form KD as * described in * <a href="http://www.unicode.org/unicode/reports/tr15/tr15-23.html">Unicode * Technical Report #15</a>. * @see java.text.Collator#getDecomposition * @see java.text.Collator#setDecomposition */ public static final int FULL_DECOMPOSITION = 2; /** * Gets the Collator for the current default locale. * The default locale is determined by java.util.Locale.getDefault. * @return the Collator for the default locale.(for example, en_US) * @see java.util.Locale#getDefault */ public static synchronized Collator getInstance() { return getInstance(Locale.getDefault()); } /** * Gets the Collator for the desired locale. * @param desiredLocale the desired locale. * @return the Collator for the desired locale. * @see java.util.Locale * @see java.util.ResourceBundle */ public static Collator getInstance(Locale desiredLocale) { SoftReference<Collator> ref = cache.get(desiredLocale); Collator result = (ref != null) ? ref.get() : null; if (result == null) { LocaleProviderAdapter adapter; adapter = LocaleProviderAdapter.getAdapter(CollatorProvider.class, desiredLocale); CollatorProvider provider = adapter.getCollatorProvider(); result = provider.getInstance(desiredLocale); if (result == null) { result = LocaleProviderAdapter.forJRE() .getCollatorProvider().getInstance(desiredLocale); } while (true) { if (ref != null) { // Remove the empty SoftReference if any cache.remove(desiredLocale, ref); } ref = cache.putIfAbsent(desiredLocale, new SoftReference<>(result)); if (ref == null) { break; } Collator cachedColl = ref.get(); if (cachedColl != null) { result = cachedColl; break; } } } return (Collator) result.clone(); // make the world safe } /** * Compares the source string to the target string according to the * collation rules for this Collator. Returns an integer less than, * equal to or greater than zero depending on whether the source String is * less than, equal to or greater than the target string. See the Collator * class description for an example of use. * <p> * For a one time comparison, this method has the best performance. If a * given String will be involved in multiple comparisons, CollationKey.compareTo * has the best performance. See the Collator class description for an example * using CollationKeys. * @param source the source string. * @param target the target string. * @return Returns an integer value. Value is less than zero if source is less than * target, value is zero if source and target are equal, value is greater than zero * if source is greater than target. * @see java.text.CollationKey * @see java.text.Collator#getCollationKey */ public abstract int compare(String source, String target); /** * Compares its two arguments for order. Returns a negative integer, * zero, or a positive integer as the first argument is less than, equal * to, or greater than the second. * <p> * This implementation merely returns * <code> compare((String)o1, (String)o2) </code>. * * @return a negative integer, zero, or a positive integer as the * first argument is less than, equal to, or greater than the * second. * @exception ClassCastException the arguments cannot be cast to Strings. * @see java.util.Comparator * @since 1.2 */ @Override public int compare(Object o1, Object o2) { return compare((String)o1, (String)o2); } /** * Transforms the String into a series of bits that can be compared bitwise * to other CollationKeys. CollationKeys provide better performance than * Collator.compare when Strings are involved in multiple comparisons. * See the Collator class description for an example using CollationKeys. * @param source the string to be transformed into a collation key. * @return the CollationKey for the given String based on this Collator's collation * rules. If the source String is null, a null CollationKey is returned. * @see java.text.CollationKey * @see java.text.Collator#compare */ public abstract CollationKey getCollationKey(String source); /** * Convenience method for comparing the equality of two strings based on * this Collator's collation rules. * @param source the source string to be compared with. * @param target the target string to be compared with. * @return true if the strings are equal according to the collation * rules. false, otherwise. * @see java.text.Collator#compare */ public boolean equals(String source, String target) { return (compare(source, target) == Collator.EQUAL); } /** * Returns this Collator's strength property. The strength property determines * the minimum level of difference considered significant during comparison. * See the Collator class description for an example of use. * @return this Collator's current strength property. * @see java.text.Collator#setStrength * @see java.text.Collator#PRIMARY * @see java.text.Collator#SECONDARY * @see java.text.Collator#TERTIARY * @see java.text.Collator#IDENTICAL */ public synchronized int getStrength() { return strength; } /** * Sets this Collator's strength property. The strength property determines * the minimum level of difference considered significant during comparison. * See the Collator class description for an example of use. * @param newStrength the new strength value. * @see java.text.Collator#getStrength * @see java.text.Collator#PRIMARY * @see java.text.Collator#SECONDARY * @see java.text.Collator#TERTIARY * @see java.text.Collator#IDENTICAL * @exception IllegalArgumentException If the new strength value is not one of * PRIMARY, SECONDARY, TERTIARY or IDENTICAL. */ public synchronized void setStrength(int newStrength) { if ((newStrength != PRIMARY) && (newStrength != SECONDARY) && (newStrength != TERTIARY) && (newStrength != IDENTICAL)) { throw new IllegalArgumentException("Incorrect comparison level."); } strength = newStrength; } /** * Get the decomposition mode of this Collator. Decomposition mode * determines how Unicode composed characters are handled. Adjusting * decomposition mode allows the user to select between faster and more * complete collation behavior. * <p>The three values for decomposition mode are: * <UL> * <LI>NO_DECOMPOSITION, * <LI>CANONICAL_DECOMPOSITION * <LI>FULL_DECOMPOSITION. * </UL> * See the documentation for these three constants for a description * of their meaning. * @return the decomposition mode * @see java.text.Collator#setDecomposition * @see java.text.Collator#NO_DECOMPOSITION * @see java.text.Collator#CANONICAL_DECOMPOSITION * @see java.text.Collator#FULL_DECOMPOSITION */ public synchronized int getDecomposition() { return decmp; } /** * Set the decomposition mode of this Collator. See getDecomposition * for a description of decomposition mode. * @param decompositionMode the new decomposition mode. * @see java.text.Collator#getDecomposition * @see java.text.Collator#NO_DECOMPOSITION * @see java.text.Collator#CANONICAL_DECOMPOSITION * @see java.text.Collator#FULL_DECOMPOSITION * @exception IllegalArgumentException If the given value is not a valid decomposition * mode. */ public synchronized void setDecomposition(int decompositionMode) { if ((decompositionMode != NO_DECOMPOSITION) && (decompositionMode != CANONICAL_DECOMPOSITION) && (decompositionMode != FULL_DECOMPOSITION)) { throw new IllegalArgumentException("Wrong decomposition mode."); } decmp = decompositionMode; } /** * Returns an array of all locales for which the * <code>getInstance</code> methods of this class can return * localized instances. * The returned array represents the union of locales supported * by the Java runtime and by installed * {@link java.text.spi.CollatorProvider CollatorProvider} implementations. * It must contain at least a Locale instance equal to * {@link java.util.Locale#US Locale.US}. * * @return An array of locales for which localized * <code>Collator</code> instances are available. */ public static synchronized Locale[] getAvailableLocales() { LocaleServiceProviderPool pool = LocaleServiceProviderPool.getPool(CollatorProvider.class); return pool.getAvailableLocales(); } /** * Overrides Cloneable */ @Override public Object clone() { try { return (Collator)super.clone(); } catch (CloneNotSupportedException e) { throw new InternalError(e); } } /** * Compares the equality of two Collators. * @param that the Collator to be compared with this. * @return true if this Collator is the same as that Collator; * false otherwise. */ @Override public boolean equals(Object that) { if (this == that) { return true; } if (that == null) { return false; } if (getClass() != that.getClass()) { return false; } Collator other = (Collator) that; return ((strength == other.strength) && (decmp == other.decmp)); } /** * Generates the hash code for this Collator. */ @Override public abstract int hashCode(); /** * Default constructor. This constructor is * protected so subclasses can get access to it. Users typically create * a Collator sub-class by calling the factory method getInstance. * @see java.text.Collator#getInstance */ protected Collator() { strength = TERTIARY; decmp = CANONICAL_DECOMPOSITION; } private int strength = 0; private int decmp = 0; private static final ConcurrentMap<Locale, SoftReference<Collator>> cache = new ConcurrentHashMap<>(); // // FIXME: These three constants should be removed. // /** * LESS is returned if source string is compared to be less than target * string in the compare() method. * @see java.text.Collator#compare */ static final int LESS = -1; /** * EQUAL is returned if source string is compared to be equal to target * string in the compare() method. * @see java.text.Collator#compare */ static final int EQUAL = 0; /** * GREATER is returned if source string is compared to be greater than * target string in the compare() method. * @see java.text.Collator#compare */ static final int GREATER = 1; }
⏎ java/text/Collator.java
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