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/*
 *******************************************************************************
 * Copyright (C) 2008-2012, Google Inc, International Business Machines Corporation
 * and others. All Rights Reserved.
 *******************************************************************************
 */
package com.ibm.icu.text;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Locale;
import java.util.Map;
import java.util.Set;
import java.util.TreeSet;

import com.ibm.icu.impl.MultiComparator;
import com.ibm.icu.lang.UCharacter;
import com.ibm.icu.lang.UProperty;
import com.ibm.icu.lang.UScript;
import com.ibm.icu.text.AlphabeticIndex.Bucket;
import com.ibm.icu.text.AlphabeticIndex.Bucket.LabelType;
import com.ibm.icu.util.LocaleData;
import com.ibm.icu.util.ULocale;

/**
 * AlphabeticIndex supports the creation of a UI index appropriate for a given language. It can support either direct
 * use, or use with a client that doesn't support localized collation. The following is an example of what an index
 * might look like in a UI:
 * 
 * 
 *  ... A B C D E F G H I J K L M N O P Q R S T U V W X Y Z  ...
 *  
 *  A
 *     Addison
 *     Albertson
 *     Azensky
 *  B
 *     Baecker
 *  ...
 * 
* * The class can generate a list of labels for use as a UI "index", that is, a list of clickable characters (or * character sequences) that allow the user to see a segment (bucket) of a larger "target" list. That is, each label * corresponds to a bucket in the target list, where everything in the bucket is greater than or equal to the character * (according to the locale's collation). Strings can be added to the index; they will be in sorted order in the right * bucket.

*

* The class also supports having buckets for strings before the first (underflow), after the last (overflow), and * between scripts (inflow). For example, if the index is constructed with labels for Russian and English, Greek * characters would fall into an inflow bucket between the other two scripts.

* *

Note: If you expect to have a lot of ASCII or Latin characters as well as characters from the user's language, then it is a good idea to call addLabels(ULocale.English).

* *

Direct Use

*

The following shows an example of building an index directly. * The "show..." methods below are just to illustrate usage. * *

 * // Create a simple index where the values for the strings are Integers, and add the strings
 * 
 * AlphabeticIndex index = new AlphabeticIndex(desiredLocale).addLabels(additionalLocale);
 * int counter = 0;
 * for (String item : test) {
 *     index.addRecord(item, counter++); 
 * }
 * ...
 * // Show index at top. We could skip or gray out empty buckets
 * 
 * for (AlphabeticIndex.Bucket bucket : index) {
 *     if (showAll || bucket.size() != 0) {
 *         showLabelAtTop(UI, bucket.getLabel());
 *     }
 * }
 *  ...
 * // Show the buckets with their contents, skipping empty buckets
 * 
 * for (AlphabeticIndex.Bucket bucket : index) {
 *     if (bucket.size() != 0) {
 *         showLabelInList(UI, bucket.getLabel());
 *         for (AlphabeticIndex.Record item : bucket) {
 *             showIndexedItem(UI, item.getName(), item.getData());
 *         }
 * 
* * The caller can build different UIs using this class. For example, an index character could be omitted or grayed-out * if its bucket is empty. Small buckets could also be combined based on size, such as: * *
 * ... A-F G-N O-Z ...
 * 
* *

Client Support

*

* Callers can also use the AlphabeticIndex to support sorting on a client that doesn't support collation. *

    *
  • getLabels() can be used to get a list of the labels, such as "...", "A", "B",..., and send that list to the client. *
  • *
  • When the client has a new name, it sends that name to the server. The server needs to call the following methods, * and communicate the bucketIndex and collationKey back to the client. * *
     * int bucketIndex = alphabeticIndex.getBucketIndex(name);
     * RawCollationKey collationKey = collator.getRawCollationKey(name, null);
     * 
    * *
  • The client would put the name (and associated information) into its bucket for bucketIndex. The collationKey is a * sequence of bytes that can be compared with a binary compare, and produce the right localized result.
  • *
* *

* Notes: *

    *
  • Additional collation parameters can be passed in as part of the locale name. For example, German plus numeric * sorting would be "de@kn-true". * * @author markdavis * @stable ICU 4.8 */ public final class AlphabeticIndex implements Iterable> { /** * Internals */ static final boolean HACK_CODED_FIRSTS = true; private static UnicodeSet UNIHAN = new UnicodeSet("[:script=Hani:]").freeze(); static final String BASE = "\uFDD0"; // these are generated. Later, get from CLDR data. static final UnicodeSet PINYIN_LABELS = new UnicodeSet("[A-Z{\uFDD0A}{\uFDD0B}{\uFDD0C}{\uFDD0D}{\uFDD0E}{\uFDD0F}{\uFDD0G}{\uFDD0H}{\uFDD0I}{\uFDD0J}{\uFDD0K}{\uFDD0L}{\uFDD0M}{\uFDD0N}{\uFDD0O}{\uFDD0P}{\uFDD0Q}{\uFDD0R}{\uFDD0S}{\uFDD0T}{\uFDD0U}{\uFDD0V}{\uFDD0W}{\uFDD0X}{\uFDD0Y}{\uFDD0Z}]").freeze(); static final UnicodeSet STROKE_LABELS = new UnicodeSet("[{\uFDD0\u2801}{\uFDD0\u2802}{\uFDD0\u2803}{\uFDD0\u2804}{\uFDD0\u2805}{\uFDD0\u2806}{\uFDD0\u2807}{\uFDD0\u2808}{\uFDD0\u2809}{\uFDD0\u280A}{\uFDD0\u280B}{\uFDD0\u280C}{\uFDD0\u280D}{\uFDD0\u280E}{\uFDD0\u280F}{\uFDD0\u2810}{\uFDD0\u2811}{\uFDD0\u2812}{\uFDD0\u2813}{\uFDD0\u2814}{\uFDD0\u2815}{\uFDD0\u2816}{\uFDD0\u2817}{\uFDD0\u2818}{\uFDD0\u2819}{\uFDD0\u281A}{\uFDD0\u281B}{\uFDD0\u281C}{\uFDD0\u281D}{\uFDD0\u281E}{\uFDD0\u281F}{\uFDD0\u2820}{\uFDD0\u2821}{\uFDD0\u2822}{\uFDD0\u2823}{\uFDD0\u2824}{\uFDD0\u2825}{\uFDD0\u2826}{\uFDD0\u2827}{\uFDD0\u2828}{\uFDD0\u2829}{\uFDD0\u282A}{\uFDD0\u282B}{\uFDD0\u282C}{\uFDD0\u282E}{\uFDD0\u2830}{\uFDD0\u2834}{\uFDD0\u2840}]").freeze(); static final UnicodeSet RADICAL_LABELS = new UnicodeSet("[{\uFDD0\u2E80}{\uFDD0\u2E81}{\uFDD0\u2E84}{\uFDD0\u2E85}{\uFDD0\u2E86}{\uFDD0\u2E87}{\uFDD0\u2E88}{\uFDD0\u2E8A}{\uFDD0\u2E8B}{\uFDD0\u2E8C}{\uFDD0\u2E91}{\uFDD0\u2E92}{\uFDD0\u2E93}{\uFDD0\u2E95}{\uFDD0\u2E97}{\uFDD0\u2E98}{\uFDD0\u2E99}{\uFDD0\u2E9B}{\uFDD0\u2E9D}{\uFDD0\u2E9E}{\uFDD0\u2E9F}{\uFDD0\u2EA0}{\uFDD0\u2EA2}{\uFDD0\u2EA3}{\uFDD0\u2EA4}{\uFDD0\u2EA7}{\uFDD0\u2EA8}{\uFDD0\u2EA9}{\uFDD0\u2EAA}{\uFDD0\u2EAB}{\uFDD0\u2EAC}{\uFDD0\u2EAE}{\uFDD0\u2EAF}{\uFDD0\u2EB0}{\uFDD0\u2EB4}{\uFDD0\u2EB8}{\uFDD0\u2EB9}{\uFDD0\u2EBB}{\uFDD0\u2EBC}{\uFDD0\u2EBD}{\uFDD0\u2EC0}{\uFDD0\u2EC1}{\uFDD0\u2EC2}{\uFDD0\u2EC3}{\uFDD0\u2EC5}{\uFDD0\u2EC6}{\uFDD0\u2EC8}{\uFDD0\u2EC9}{\uFDD0\u2ECA}{\uFDD0\u2ECB}{\uFDD0\u2ECF}{\uFDD0\u2ED0}{\uFDD0\u2ED1}{\uFDD0\u2ED3}{\uFDD0\u2ED4}{\uFDD0\u2ED6}{\uFDD0\u2ED7}{\uFDD0\u2ED8}{\uFDD0\u2ED9}{\uFDD0\u2EDA}{\uFDD0\u2EDB}{\uFDD0\u2EDC}{\uFDD0\u2EDD}{\uFDD0\u2EE0}{\uFDD0\u2EE1}{\uFDD0\u2EE2}{\uFDD0\u2EE3}{\uFDD0\u2EE4}{\uFDD0\u2EE5}{\uFDD0\u2EE6}{\uFDD0\u2EE7}{\uFDD0\u2EE8}{\uFDD0\u2EEA}{\uFDD0\u2EEB}{\uFDD0\u2EED}{\uFDD0\u2EEE}{\uFDD0\u2EEF}{\uFDD0\u2EF0}{\uFDD0\u2EF2}{\uFDD0\u2EF3}{\uFDD0\u2F00}{\uFDD0\u2F01}{\uFDD0\u2F02}{\uFDD0\u2F03}{\uFDD0\u2F05}{\uFDD0\u2F06}{\uFDD0\u2F07}{\uFDD0\u2F09}{\uFDD0\u2F0A}{\uFDD0\u2F0B}{\uFDD0\u2F0D}{\uFDD0\u2F0E}{\uFDD0\u2F10}{\uFDD0\u2F12}{\uFDD0\u2F13}{\uFDD0\u2F14}{\uFDD0\u2F15}{\uFDD0\u2F16}{\uFDD0\u2F17}{\uFDD0\u2F1B}{\uFDD0\u2F1D}{\uFDD0\u2F1E}{\uFDD0\u2F1F}{\uFDD0\u2F20}{\uFDD0\u2F21}{\uFDD0\u2F22}{\uFDD0\u2F23}{\uFDD0\u2F24}{\uFDD0\u2F25}{\uFDD0\u2F26}{\uFDD0\u2F27}{\uFDD0\u2F28}{\uFDD0\u2F2B}{\uFDD0\u2F2C}{\uFDD0\u2F2D}{\uFDD0\u2F2E}{\uFDD0\u2F2F}{\uFDD0\u2F31}{\uFDD0\u2F32}{\uFDD0\u2F34}{\uFDD0\u2F35}{\uFDD0\u2F36}{\uFDD0\u2F37}{\uFDD0\u2F38}{\uFDD0\u2F3A}{\uFDD0\u2F3B}{\uFDD0\u2F3D}{\uFDD0\u2F3E}{\uFDD0\u2F40}{\uFDD0\u2F42}{\uFDD0\u2F43}{\uFDD0\u2F44}{\uFDD0\u2F45}{\uFDD0\u2F46}{\uFDD0\u2F48}{\uFDD0\u2F4A}{\uFDD0\u2F4B}{\uFDD0\u2F4C}{\uFDD0\u2F4E}{\uFDD0\u2F50}{\uFDD0\u2F51}{\uFDD0\u2F53}{\uFDD0\u2F57}{\uFDD0\u2F58}{\uFDD0\u2F59}{\uFDD0\u2F5A}{\uFDD0\u2F5B}{\uFDD0\u2F5E}{\uFDD0\u2F60}{\uFDD0\u2F61}{\uFDD0\u2F62}{\uFDD0\u2F63}{\uFDD0\u2F64}{\uFDD0\u2F65}{\uFDD0\u2F67}{\uFDD0\u2F68}{\uFDD0\u2F69}{\uFDD0\u2F6A}{\uFDD0\u2F6B}{\uFDD0\u2F6D}{\uFDD0\u2F6E}{\uFDD0\u2F6F}{\uFDD0\u2F71}{\uFDD0\u2F72}{\uFDD0\u2F73}{\uFDD0\u2F74}{\uFDD0\u2F76}{\uFDD0\u2F78}{\uFDD0\u2F7B}{\uFDD0\u2F7D}{\uFDD0\u2F7E}{\uFDD0\u2F7F}{\uFDD0\u2F82}{\uFDD0\u2F83}{\uFDD0\u2F84}{\uFDD0\u2F86}{\uFDD0\u2F87}{\uFDD0\u2F88}{\uFDD0\u2F89}{\uFDD0\u2F8A}{\uFDD0\u2F8D}{\uFDD0\u2F8E}{\uFDD0\u2F8F}{\uFDD0\u2F92}{\uFDD0\u2F94}{\uFDD0\u2F95}{\uFDD0\u2F96}{\uFDD0\u2F97}{\uFDD0\u2F98}{\uFDD0\u2F99}{\uFDD0\u2F9A}{\uFDD0\u2F9B}{\uFDD0\u2F9D}{\uFDD0\u2F9E}{\uFDD0\u2F9F}{\uFDD0\u2FA0}{\uFDD0\u2FA1}{\uFDD0\u2FA3}{\uFDD0\u2FA4}{\uFDD0\u2FA5}{\uFDD0\u2FA6}{\uFDD0\u2FA8}{\uFDD0\u2FAA}{\uFDD0\u2FAB}{\uFDD0\u2FAE}{\uFDD0\u2FAF}{\uFDD0\u2FB0}{\uFDD0\u2FB1}{\uFDD0\u2FB2}{\uFDD0\u2FB3}{\uFDD0\u2FB4}{\uFDD0\u2FB5}{\uFDD0\u2FB6}{\uFDD0\u2FB9}{\uFDD0\u2FBA}{\uFDD0\u2FBC}{\uFDD0\u2FBD}{\uFDD0\u2FBE}{\uFDD0\u2FBF}{\uFDD0\u2FC0}{\uFDD0\u2FC2}{\uFDD0\u2FC3}{\uFDD0\u2FC4}{\uFDD0\u2FC5}{\uFDD0\u2FC6}{\uFDD0\u2FC7}{\uFDD0\u2FC8}{\uFDD0\u2FC9}{\uFDD0\u2FCA}{\uFDD0\u2FCB}{\uFDD0\u2FCC}{\uFDD0\u2FCD}{\uFDD0\u2FCE}{\uFDD0\u2FCF}{\uFDD0\u2FD0}{\uFDD0\u2FD1}{\uFDD0\u2FD5}]").freeze(); static final List PROBES = Arrays.asList("\u4E00", "\uFDD0A", "\uFDD0\u2801", "\uFDD0\u2E80"); static final int PINYIN_PROBE_INDEX = 1; static final UnicodeSet[] MATCHING = {null, PINYIN_LABELS, STROKE_LABELS, RADICAL_LABELS}; private static final char CGJ = '\u034F'; private static final UnicodeSet ALPHABETIC = new UnicodeSet("[[:alphabetic:]-[:mark:]]").add(BASE).freeze(); private static final UnicodeSet HANGUL = new UnicodeSet( "[\uAC00 \uB098 \uB2E4 \uB77C \uB9C8 \uBC14 \uC0AC \uC544 \uC790 \uCC28 \uCE74 \uD0C0 \uD30C \uD558]").freeze(); private static final UnicodeSet ETHIOPIC = new UnicodeSet("[[:Block=Ethiopic:]&[:Script=Ethiopic:]]").freeze(); private static final UnicodeSet CORE_LATIN = new UnicodeSet("[a-z]").freeze(); private final RuleBasedCollator collatorOriginal; private final RuleBasedCollator collatorPrimaryOnly; private RuleBasedCollator collatorExternal; // for testing private final LinkedHashMap> alreadyIn = new LinkedHashMap>(); private final List noDistinctSorting = new ArrayList(); private final List notAlphabetic = new ArrayList(); // We accumulate these as we build up the input parameters private final UnicodeSet initialLabels = new UnicodeSet(); private final Collection> inputList = new ArrayList>(); // Lazy evaluated: null means that we have not built yet. private BucketList buckets; private String overflowLabel = "\u2026"; private String underflowLabel = "\u2026"; private String inflowLabel = "\u2026"; private boolean hasPinyin; /** * Create the index object. * * @param locale * The locale for the index. * @stable ICU 4.8 */ public AlphabeticIndex(ULocale locale) { this(locale, null, null); } /** * Create the index object. * * @param locale * The locale for the index. * @stable ICU 4.8 */ public AlphabeticIndex(Locale locale) { this(ULocale.forLocale(locale)); } // /** // * @internal // * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. // */ // public enum LangType { // /** // * @internal // * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. // */ // NORMAL, // /** // * @internal // * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. // */ // SIMPLIFIED, // /** // * @internal // * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. // */ // TRADITIONAL; // /** // * @internal // * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. // */ // public static LangType fromLocale(ULocale locale) { // String lang = locale.getLanguage(); // if (lang.equals("zh")) { // if ("Hant".equals(locale.getScript()) || "TW".equals(locale.getCountry())) { // return TRADITIONAL; // } // return SIMPLIFIED; // } // return NORMAL; // } // } /** * @internal * @deprecated This API is ICU internal only, for testing purposes and use with CLDR. */ public AlphabeticIndex(ULocale locale, RuleBasedCollator collator, UnicodeSet exemplarChars) { // langType = LangType.fromLocale(locale); // // HACK because we have to know the type of the collation for Chinese // if (langType != LangType.NORMAL) { // locale = locale.setKeywordValue("collation", langType == LangType.TRADITIONAL ? "stroke" : "pinyin"); // } hasPinyin = false; collatorOriginal = collator != null ? collator : (RuleBasedCollator) Collator.getInstance(locale); try { collatorPrimaryOnly = (RuleBasedCollator) (collatorOriginal.clone()); } catch (Exception e) { // should never happen throw new IllegalStateException("Collator cannot be cloned", e); } collatorPrimaryOnly.setStrength(Collator.PRIMARY); if (exemplarChars == null) { exemplarChars = getIndexExemplars(locale); } addLabels(exemplarChars); } /** * Add more index characters (aside from what are in the locale) * @param additions additional characters to add to the index, such as A-Z. * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex addLabels(UnicodeSet additions) { initialLabels.addAll(additions); buckets = null; return this; } /** * Add more index characters (aside from what are in the locale) * @param additions additional characters to add to the index, such as those in Swedish. * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex addLabels(ULocale... additions) { for (ULocale addition : additions) { initialLabels.addAll(getIndexExemplars(addition)); } buckets = null; return this; } /** * Add more index characters (aside from what are in the locale) * @param additions additional characters to add to the index, such as those in Swedish. * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex addLabels(Locale... additions) { for (Locale addition : additions) { initialLabels.addAll(getIndexExemplars(ULocale.forLocale(addition))); } buckets = null; return this; } /** * Set the overflow label * @param overflowLabel see class description * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex setOverflowLabel(String overflowLabel) { this.overflowLabel = overflowLabel; return this; } /** * Get the default label used in the IndexCharacters' locale for underflow, eg the last item in: X Y Z ... * * @return underflow label * @stable ICU 4.8 */ public String getUnderflowLabel() { return underflowLabel; // TODO get localized version } /** * Set the underflowLabel label * @param underflowLabel see class description * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex setUnderflowLabel(String underflowLabel) { this.underflowLabel = underflowLabel; return this; } /** * Get the default label used in the IndexCharacters' locale for overflow, eg the first item in: ... A B C * * @return overflow label * @stable ICU 4.8 */ public String getOverflowLabel() { return overflowLabel; // TODO get localized version } /** * Set the inflowLabel label * @param inflowLabel see class description * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex setInflowLabel(String inflowLabel) { this.inflowLabel = inflowLabel; return this; } /** * Get the default label used for abbreviated buckets between other labels. For example, consider the labels * for Latin and Greek are used: X Y Z ... Α Β Γ. * * @return inflow label * @stable ICU 4.8 */ public String getInflowLabel() { return inflowLabel; // TODO get localized version } /** * Get the limit on the number of labels in the index. The number of buckets can be slightly larger: see getBucketCount(). * * @return maxLabelCount maximum number of labels. * @stable ICU 4.8 */ public int getMaxLabelCount() { return maxLabelCount; } /** * Set a limit on the number of labels in the index. The number of buckets can be slightly larger: see * getBucketCount(). * * @return maxLabelCount label Set the maximum number of labels. Currently, if the number is exceeded, then every * nth item is removed to bring the count down. A more sophisticated mechanism may be available in the * future. * @stable ICU 4.8 */ public AlphabeticIndex setMaxLabelCount(int maxLabelCount) { this.maxLabelCount = maxLabelCount; return this; } /** * Determine the best labels to use. This is based on the exemplars, but we also process to make sure that they are unique, * and sort differently, and that the overall list is small enough. */ private ArrayList initLabels() { UnicodeSet exemplars = new UnicodeSet(initialLabels); // First sort them, with an "best" ordering among items that are the same according // to the collator. // Re the warning: the JDK inexplicably didn't make Collators be Comparator! @SuppressWarnings("unchecked") Set preferenceSorting = new TreeSet(new MultiComparator(collatorPrimaryOnly, PREFERENCE_COMPARATOR)); exemplars.addAllTo(preferenceSorting); TreeSet indexCharacterSet = new TreeSet(collatorPrimaryOnly); // We nw make a sorted array of elements // Some of the input may, however, be redundant. // That is, we might have c, ch, d, where "ch" sorts just like "c", "h" // So we make a pass through, filtering out those cases. for (String item : preferenceSorting) { if (indexCharacterSet.contains(item)) { for (String itemAlreadyIn : indexCharacterSet) { if (collatorPrimaryOnly.compare(item, itemAlreadyIn) == 0) { Set targets = alreadyIn.get(itemAlreadyIn); if (targets == null) { alreadyIn.put(itemAlreadyIn, targets = new LinkedHashSet()); } targets.add(item); break; } } } else if (UTF16.countCodePoint(item) > 1 && collatorPrimaryOnly.compare(item, separated(item)) == 0) { noDistinctSorting.add(item); } else if (!ALPHABETIC.containsSome(item)) { notAlphabetic.add(item); } else { indexCharacterSet.add(item); } } // if the result is still too large, cut down to maxCount elements, by removing every nth element final int size = indexCharacterSet.size() - 1; if (size > maxLabelCount) { int count = 0; int old = -1; for (Iterator it = indexCharacterSet.iterator(); it.hasNext();) { ++count; it.next(); final int bump = count * maxLabelCount / size; if (bump == old) { it.remove(); } else { old = bump; } } } return new ArrayList(indexCharacterSet); } /** * This method is called to get the index exemplars. Normally these come from the locale directly, * but if they aren't available, we have to synthesize them. * @param locale */ private UnicodeSet getIndexExemplars(ULocale locale) { UnicodeSet exemplars; exemplars = LocaleData.getExemplarSet(locale, 0, LocaleData.ES_INDEX); if (exemplars != null) { // HACK final String language = locale.getLanguage(); if (language.equals("zh") || language.equals("ja") || language.equals("ko")) { // find out which one we are using TreeSet probeSet = new TreeSet(collatorOriginal); // UnicodeSet tailored = collatorOriginal.getTailoredSet(); // tailored.addAllTo(probeSet); // System.out.println(probeSet); // probeSet.clear(); probeSet.addAll(PROBES); String first = probeSet.iterator().next(); int location = PROBES.indexOf(first); if (location > 0) { if (location == PINYIN_PROBE_INDEX) { hasPinyin = true; } exemplars.clear().addAll(MATCHING[location]); } } // LangType langType2 = LangType.fromLocale(locale); // if (langType2 == LangType.TRADITIONAL) { // Collator collator = Collator.getInstance(locale); // if (collator.getTailoredSet().contains(probeCharInLongStroke)) { // exemplars = HACK_LONG_TRAD_EXEMPLARS; // } else { // exemplars = HACK_SHORT_TRAD_EXEMPLARS; // } // return exemplars; // } return exemplars; } // Synthesize the index exemplars exemplars = LocaleData.getExemplarSet(locale, 0, LocaleData.ES_STANDARD); // get the exemplars, and handle special cases exemplars = exemplars.cloneAsThawed(); // question: should we add auxiliary exemplars? if (exemplars.containsSome(CORE_LATIN) || exemplars.size() == 0) { exemplars.addAll(CORE_LATIN); } if (exemplars.containsSome(HANGUL)) { // cut down to small list exemplars.removeAll(new UnicodeSet("[:block=hangul_syllables:]")).addAll(HANGUL); } if (exemplars.containsSome(ETHIOPIC)) { // cut down to small list // make use of the fact that Ethiopic is allocated in 8's, where // the base is 0 mod 8. for (UnicodeSetIterator it = new UnicodeSetIterator(ETHIOPIC); it.next();) { if ((it.codepoint & 0x7) != 0) { exemplars.remove(it.codepoint); } } } UnicodeSet uppercased = new UnicodeSet(); for (String item : exemplars) { uppercased.add(UCharacter.toUpperCase(locale, item)); } return uppercased; } /** * Return the string with interspersed CGJs. Input must have more than 2 codepoints. *

    This is used to test whether contractions sort differently from their components. */ private String separated(String item) { StringBuilder result = new StringBuilder(); // add a CGJ except within surrogates char last = item.charAt(0); result.append(last); for (int i = 1; i < item.length(); ++i) { char ch = item.charAt(i); if (!UCharacter.isHighSurrogate(last) || !UCharacter.isLowSurrogate(ch)) { result.append(CGJ); } result.append(ch); last = ch; } return result.toString(); } /** * Get the labels. * * @return A collection listing the labels, after processing. * @stable ICU 4.8 */ public List getBucketLabels() { if (buckets == null) { initBuckets(); } ArrayList result = new ArrayList(); for (Bucket bucket : buckets) { result.add(bucket.getLabel()); } return result; } /** * Get a clone of the collator used internally. Note that for performance reasons, the clone is only done once, and * then stored. The next time it is accessed, the same instance is returned. *

    * Don't use this method across threads if you are changing the settings on the collator, at least not without * synchronizing. * * @return a clone of the collator used internally * @stable ICU 4.8 */ public RuleBasedCollator getCollator() { if (collatorExternal == null) { try { collatorExternal = (RuleBasedCollator) (collatorOriginal.clone()); } catch (Exception e) { // should never happen throw new IllegalStateException("Collator cannot be cloned", e); } } return collatorExternal; } /** * Add a record (name and data) to the index. The name will be used to sort the items into buckets, and to sort * within the bucket. Two records may have the same name. When they do, the sort order is according to the order added: * the first added comes first. * * @param name * Name, such as a name * @param data * Data, such as an address or link * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex addRecord(CharSequence name, V data) { // TODO instead of invalidating, just add to unprocessed list. buckets = null; // invalidate old bucketlist inputList.add(new Record(name, data, inputList.size())); return this; } /** * Get the bucket number for the given name. This routine permits callers to implement their own bucket handling * mechanisms, including client-server handling. For example, when a new name is created on the client, it can ask * the server for the bucket for that name, and the sortkey (using getCollator). Once the client has that * information, it can put the name into the right bucket, and sort it within that bucket, without having access to * the index or collator. *

    * Note that the bucket number (and sort key) are only valid for the settings of the current AlphabeticIndex; if * those are changed, then the bucket number and sort key must be regenerated. * * @param name * Name, such as a name * @return this, for chaining * @stable ICU 4.8 */ public int getBucketIndex(CharSequence name) { if (buckets == null) { initBuckets(); } // if (langType == LangType.SIMPLIFIED) { // String hackPrefix = hackName(name, collatorPrimaryOnly); // if (hackPrefix != null) { // name = hackPrefix + name; // } // } return rawGetBucketIndex(name); } private int rawGetBucketIndex(CharSequence name) { // TODO use a binary search int result = 0; Bucket lastBucket = null; Bucket bucket = null; for (Iterator> it = buckets.fullIterator(); it.hasNext();) { bucket = it.next(); if (bucket.lowerBoundary == null) { // last bucket bucket = lastBucket; // back up the bucket --result; break; } int bucketLower2name = collatorPrimaryOnly.compare(bucket.lowerBoundary, name); if (bucketLower2name > 0) { // the first boundary is always "", and so -1 will never be returned bucket = lastBucket; // back up the bucket --result; break; } else if (bucketLower2name == 0) { break; } result++; lastBucket = bucket; } // we will always have at least one bucket // see if we need to remap if (buckets.rebucket != null) { Bucket temp = buckets.rebucket.get(bucket); if (temp != null) { bucket = temp; } result = 0; for (Bucket bucket2 : buckets) { if (bucket2 == bucket) { break; } ++result; } } return result; } /** * Clear the index. * * @return this, for chaining * @stable ICU 4.8 */ public AlphabeticIndex clearRecords() { buckets = null; inputList.clear(); return this; } /** * Return the number of buckets in the index. This will be the same as the number of labels, plus buckets for the underflow, overflow, and inflow(s). * * @return number of buckets * @stable ICU 4.8 */ public int getBucketCount() { if (buckets == null) { initBuckets(); } return buckets.bucketList.size(); } /** * Return the number of records in the index: that is, the total number of distinct pairs added with addRecord(...), over all the buckets. * * @return total number of records in buckets * @stable ICU 4.8 */ public int getRecordCount() { return inputList.size(); } /** * Return an iterator over the buckets. * * @return iterator over buckets. * @stable ICU 4.8 */ public Iterator> iterator() { if (buckets == null) { initBuckets(); } return buckets.iterator(); } /** * Convenience routine to bucket a list of input strings according to the index.
    * Warning: if a UI suppresses buckets that are empty, this may result in the special buckets (underflow, overflow, * inflow) being adjacent. In that case, the application may want to combine them. * * @param inputList * List of strings to be sorted and bucketed according to the labels. * @stable ICU 4.8 */ private void initBuckets() { buckets = new BucketList(); // Make a collator for records. Do this so that the Records can be static classes, and not know about the collators. // TODO make this a member of the class. Comparator> fullComparator = new Comparator>() { public int compare(Record o1, Record o2) { int result = collatorOriginal.compare(o1.name, o2.name); if (result != 0) { return result; } return o1.counter - o2.counter; } }; // // If we have Pinyin, then we have a special hack to bucket items with ASCII. // if (hasPinyin) { // Map> rebucketMap = new HashMap>(); // for (Record name : inputList) { // String key = hackName(name.name, collatorOriginal); // if (key == null) continue; // Bucket bucket = rebucketMap.get(key); // if (bucket == null) { // int index = rawGetBucketIndex(key); // bucket = buckets.bucketList.get(index); // } // rebucketMap.put(key, bucket); // name.rebucket = bucket; // } // } // Set up a sorted list of the input TreeSet> sortedInput = new TreeSet>(fullComparator); sortedInput.addAll(inputList); // Now, we traverse all of the input, which is now sorted. // If the item doesn't go in the current bucket, we find the next bucket that contains it. // This makes the process order n*log(n), since we just sort the list and then do a linear process. // However, if the user adds item at a time and then gets the buckets, this isn't efficient, so // we need to improve it for that case. Iterator> bucketIterator = buckets.fullIterator(); Bucket currentBucket = bucketIterator.next(); Bucket nextBucket = bucketIterator.next(); String upperBoundary = nextBucket.lowerBoundary; // there is always at least one bucket, so this is safe boolean atEnd = false; for (Record s : sortedInput) { // // special hack for pinyin // if (s.rebucket != null) { // s.rebucket.records.add(s); // continue; // } // if the current bucket isn't the right one, find the one that is // We have a special flag for the last bucket so that we don't look any further while (!atEnd && collatorPrimaryOnly.compare(s.name, upperBoundary) >= 0) { currentBucket = nextBucket; // now reset the boundary that we compare against if (bucketIterator.hasNext()) { nextBucket = bucketIterator.next(); upperBoundary = nextBucket.lowerBoundary; if (upperBoundary == null) { atEnd = true; } } else { atEnd = true; } } // now put the record into the bucket. buckets.addTo(s, currentBucket); } } /** * Get the Unicode character (or tailored string) that defines an overflow bucket; that is anything greater than or * equal to that string should go in that bucket, instead of with the last character. Normally that is the first * character of the script after lowerLimit. Thus in X Y Z ... Devanagari-ka, the overflow character for Z * would be the Greek-alpha. * * @param lowerLimit * The character below the overflow (or inflow) bucket * @return string that defines top of the overflow buck for lowerLimit, or null if there is none * @internal * @deprecated This API is ICU internal only. */ public String getOverflowComparisonString(String lowerLimit) { // TODO Use collator method instead of this hack for (String s : HACK_FIRST_CHARS_IN_SCRIPTS) { if (collatorPrimaryOnly.compare(s, lowerLimit) > 0) { return s; } } return null; } /** * Return a list of the first character in each script, in collation order. Only exposed for testing. * * @return list of first characters in each script * @internal * @deprecated This API is ICU internal only. */ public List getFirstScriptCharacters() { return HACK_FIRST_CHARS_IN_SCRIPTS; } /** * As the index is built, strings may be discarded from the exemplars. This contains some of the discards, and is * intended for debugging. * * @internal * @deprecated This API is ICU internal only. */ public Map> getAlreadyIn() { return alreadyIn; } /** * As the index is built, strings may be discarded from the exemplars. This contains some of the discards, and is * intended for debugging. * * @internal * @deprecated This API is ICU internal only. */ public List getNoDistinctSorting() { return noDistinctSorting; } /** * As the index is built, strings may be discarded from the exemplars. This contains some of the discards, and is * intended for debugging. * * @internal * @deprecated This API is ICU internal only. */ public List getNotAlphabetic() { return notAlphabetic; } private static UnicodeSet getScriptSet(String codePoint) { if (codePoint.startsWith(BASE)) { return new UnicodeSet(UNIHAN); } return new UnicodeSet().applyIntPropertyValue(UProperty.SCRIPT, UScript.getScript(codePoint.codePointAt(0))); } private static final UnicodeSet IGNORE_SCRIPTS = new UnicodeSet( "[[:sc=Common:][:sc=inherited:][:script=Unknown:][:script=braille:]]").freeze(); private static final PreferenceComparator PREFERENCE_COMPARATOR = new PreferenceComparator(); private int maxLabelCount = 99; /** * Comparator that returns "better" strings first, where shorter NFKD is better, and otherwise NFKD binary order is * better, and otherwise binary order is better. */ private static class PreferenceComparator implements Comparator { static final Comparator binary = new UTF16.StringComparator(true, false, 0); public int compare(Object o1, Object o2) { return compare((String) o1, (String) o2); } public int compare(String s1, String s2) { if (s1 == s2) { return 0; } String n1 = Normalizer.decompose(s1, true); String n2 = Normalizer.decompose(s2, true); int result = n1.length() - n2.length(); if (result != 0) { return result; } result = binary.compare(n1, n2); if (result != 0) { return result; } return binary.compare(s1, s2); } } /** * A record to be sorted into buckets with getIndexBucketCharacters. * * @stable ICU 4.8 */ public static class Record { //private Bucket rebucket = null; // special hack for Pinyin private CharSequence name; private V data; private int counter; private Record(CharSequence name, V data, int counter) { this.name = name; this.data = data; this.counter = counter; } /** * Get the name * * @return the name * @stable ICU 4.8 */ public CharSequence getName() { return name; } /** * Get the data * * @return the data * @stable ICU 4.8 */ public V getData() { return data; } /** * Standard toString() * @stable ICU 4.8 */ public String toString() { return name + "=" + data //+ (rebucket == null ? "" : "{" + rebucket.label + "}") ; } } /** * A "bucket", containing records sorted under an index string by getIndexBucketCharacters. Is created by the * addBucket method in BucketList. A typical implementation will provide methods getLabel(), getSpecial(), and * getValues().
    * See com.ibm.icu.dev.test.collator.IndexCharactersTest for an example. * * @param * Data type * @stable ICU 4.8 */ public static class Bucket implements Iterable> { private final String label; private final String lowerBoundary; private final LabelType labelType; private final List> records = new ArrayList>(); /** * Type of the label * * @stable ICU 4.8 */ public enum LabelType { NORMAL, UNDERFLOW, INFLOW, OVERFLOW } /** * Set up the bucket. * * @param label * label for the bucket * @param labelType * is an underflow, overflow, or inflow bucket * @stable ICU 4.8 */ private Bucket(String label, String lowerBoundary, LabelType labelType) { // String hackLabel = HACK_TRADITIONAL.get(label); // if (hackLabel != null) { // label = hackLabel; // } this.label = label; this.lowerBoundary = lowerBoundary; this.labelType = labelType; } String getLowerBoundary() { return lowerBoundary; } /** * Get the label * * @return label for the bucket * @stable ICU 4.8 */ public String getLabel() { return label; } /** * Is a normal, underflow, overflow, or inflow bucket * * @return is an underflow, overflow, or inflow bucket * @stable ICU 4.8 */ public LabelType getLabelType() { return labelType; } /** * Get the number of records in the bucket. * * @return number of records in bucket * @stable ICU 4.8 */ public int size() { return records.size(); } /** * Iterator over the records in the bucket * @stable ICU 4.8 */ public Iterator> iterator() { return records.iterator(); } /** * Standard toString() * @stable ICU 4.8 */ @Override public String toString() { return "{" + "labelType=" + labelType + ", " + "lowerBoundary=" + lowerBoundary + ", " + "label=" + label + "}" ; } } private class BucketList implements Iterable> { private final ArrayList> bucketList = new ArrayList>(); private final HashMap,Bucket> rebucket; private final List> immutableVisibleList; private BucketList() { // initialize indexCharacters; List indexCharacters = initLabels(); // underflow bucket bucketList.add(new Bucket(getUnderflowLabel(), "", Bucket.LabelType.UNDERFLOW)); // fix up the list, adding underflow, additions, overflow // insert infix labels as needed, using \uFFFF. String last = indexCharacters.get(0); bucketList.add(new Bucket(fixLabel(last), last, Bucket.LabelType.NORMAL)); UnicodeSet lastSet = getScriptSet(last).removeAll(IGNORE_SCRIPTS); for (int i = 1; i < indexCharacters.size(); ++i) { String current = indexCharacters.get(i); UnicodeSet set = getScriptSet(current).removeAll(IGNORE_SCRIPTS); if (lastSet.containsNone(set)) { // check for adjacent String overflowComparisonString = getOverflowComparisonString(last); if (collatorPrimaryOnly.compare(overflowComparisonString, current) < 0) { bucketList.add(new Bucket(getInflowLabel(), overflowComparisonString, Bucket.LabelType.INFLOW)); //i++; lastSet = set; } } bucketList.add(new Bucket(fixLabel(current), current, Bucket.LabelType.NORMAL)); last = current; lastSet = set; } // overflow bucket String limitString = getOverflowComparisonString(last); bucketList.add(new Bucket(getOverflowLabel(), limitString, Bucket.LabelType.OVERFLOW)); // final // add some redirects for Pinyin ArrayList> publicBucketList; if (hasPinyin) { rebucket = new HashMap,Bucket>(); publicBucketList = new ArrayList>(); HashMap> rebucketLabel = new HashMap>(); Bucket flowBefore = null; // special handling for flow bucket before pinyin boolean flowRedirect = false; boolean havePinyin = false; for (Bucket bucket : bucketList) { String label = bucket.getLabel(); String lowerBound = bucket.getLowerBoundary(); if (lowerBound != null && lowerBound.startsWith(BASE)) { // pinyin rebucket.put(bucket, rebucketLabel.get(label)); havePinyin = true; } else { // not pinyin if (bucket.labelType != LabelType.NORMAL) { // special handling for flows if (flowRedirect == false) { if (havePinyin) { // do a redirect from the last before pinyin to the first before; // we do it this way so that the buckets are joined, and any between stuff goes to the end // eg a b c alpha chinese gorp // we want to show as ... a b c ... with the alpha and gorp both in the final bucket. rebucket.put(flowBefore, bucket); publicBucketList.remove(flowBefore); flowRedirect = true; } else { flowBefore = bucket; } } } else { // is NORMAL rebucketLabel.put(label, bucket); } publicBucketList.add(bucket); } } } else { rebucket = null; publicBucketList = bucketList; } immutableVisibleList = Collections.unmodifiableList(publicBucketList); } /** * @param s * @param currentBucket */ private void addTo(Record s, Bucket currentBucket) { if (rebucket != null) { Bucket newBucket = rebucket.get(currentBucket); if (newBucket != null) { currentBucket = newBucket; } } currentBucket.records.add(s); } /** * @param current * @return */ private String fixLabel(String current) { if (!current.startsWith(BASE)) { return current; } int rest = current.charAt(1); if (0x2800 < rest && rest <= 0x28FF) { // stroke count return (rest-0x2800) + "\u5283"; // HACK } return current.substring(1); } /** * Private iterator over all the buckets, visible and invisible */ private Iterator> fullIterator() { return bucketList.iterator(); } /** * Iterator over just the visible buckets. */ public Iterator> iterator() { return immutableVisibleList.iterator(); // use immutable list to prevent remove(). } } /* * HACKS */ // /** // * Only gets called for simplified Chinese. Uses further hack to distinguish long from short pinyin table. // */ // private String hackName(CharSequence name, RuleBasedCollator comparator) { // if (!UNIHAN.contains(Character.codePointAt(name, 0))) { // return null; // } // synchronized (PINYIN_LOWER_BOUNDS_LONG) { // if (PINYIN_LOWER_BOUNDS == null) { // if (comparator.getTailoredSet().contains(probeCharInLong)) { // PINYIN_LOWER_BOUNDS = PINYIN_LOWER_BOUNDS_LONG; // HACK_PINYIN_LOOKUP = HACK_PINYIN_LOOKUP_LONG; // } else { // PINYIN_LOWER_BOUNDS = PINYIN_LOWER_BOUNDS_SHORT; // HACK_PINYIN_LOOKUP = HACK_PINYIN_LOOKUP_SHORT; // } // } // } // int index = Arrays.binarySearch(HACK_PINYIN_LOOKUP, name, comparator); // if (index < 0) { // index = -index - 2; // } // return PINYIN_LOWER_BOUNDS.substring(index, index + 1); // } // // private static String PINYIN_LOWER_BOUNDS; // // private static String[] HACK_PINYIN_LOOKUP; // // // /** // * HACKS // * Generated with org.unicode.draft.GenerateUnihanCollator. // */ // // private static final int probeCharInLong = 0x28EAD; // private static final int probeCharInLongStroke = 0x2A6A5; // // private static final String PINYIN_LOWER_BOUNDS_LONG = "\u0101bcd\u0113fghjkl\u1E3F\u0144\u014Dpqrstwxyz"; // // private static final String[] HACK_PINYIN_LOOKUP_LONG = { // "", // A // "\u516B", // b : \u516B [b\u0101] // "\uD863\uDEAD", // c : \U00028EAD [c\u0101] // "\uD844\uDE51", // d : \U00021251 [d\u0101] // "\u59B8", // e : \u59B8 [\u0113] // "\u53D1", // f : \u53D1 [f\u0101] // "\uD844\uDE45", // g : \U00021245 [g\u0101] // "\u54C8", // h : \u54C8 [h\u0101] // "\u4E0C", // j : \u4E0C [j\u012B] // "\u5494", // k : \u5494 [k\u0101] // "\u3547", // l : \u3547 [l\u0101] // "\u5452", // m : \u5452 [\u1E3F] // "\u5514", // n : \u5514 [\u0144] // "\u5594", // o : \u5594 [\u014D] // "\uD84F\uDC7A", // p : \U00023C7A [p\u0101] // "\u4E03", // q : \u4E03 [q\u012B] // "\u513F", // r : \u513F [r] // "\u4EE8", // s : \u4EE8 [s\u0101] // "\u4ED6", // t : \u4ED6 [t\u0101] // "\u7A75", // w : \u7A75 [w\u0101] // "\u5915", // x : \u5915 [x\u012B] // "\u4E2B", // y : \u4E2B [y\u0101] // "\u5E00", // z : \u5E00 [z\u0101] // }; // // private static String PINYIN_LOWER_BOUNDS_SHORT = "\u0101bcd\u0113fghjkl\u1E3F\u0144\u014Dpqrstwxyz"; // // private static String[] HACK_PINYIN_LOOKUP_SHORT = { // "", // A // "\u516B", // b : \u516B [b\u0101] // "\u5693", // c : \u5693 [c\u0101] // "\u5491", // d : \u5491 [d\u0101] // "\u59B8", // e : \u59B8 [\u0113] // "\u53D1", // f : \u53D1 [f\u0101] // "\u65EE", // g : \u65EE [g\u0101] // "\u54C8", // h : \u54C8 [h\u0101] // "\u4E0C", // j : \u4E0C [j\u012B] // "\u5494", // k : \u5494 [k\u0101] // "\u3547", // l : \u3547 [l\u0101] // "\u5452", // m : \u5452 [\u1E3F] // "\u5514", // n : \u5514 [\u0144] // "\u5594", // o : \u5594 [\u014D] // "\u5991", // p : \u5991 [p\u0101] // "\u4E03", // q : \u4E03 [q\u012B] // "\u513F", // r : \u513F [r] // "\u4EE8", // s : \u4EE8 [s\u0101] // "\u4ED6", // t : \u4ED6 [t\u0101] // "\u7A75", // w : \u7A75 [w\u0101] // "\u5915", // x : \u5915 [x\u012B] // "\u4E2B", // y : \u4E2B [y\u0101] // "\u5E00", // z : \u5E00 [z\u0101] // }; // // private static final Map HACK_TRADITIONAL; // static { // Map temp = new HashMap(); // temp.put("\u4E00", "1\u5283"); // temp.put("\u4E01", "2\u5283"); // temp.put("\u4E07", "3\u5283"); // temp.put("\u4E0D", "4\u5283"); // temp.put("\u4E17", "5\u5283"); // temp.put("\u3401", "6\u5283"); // temp.put("\u4E23", "7\u5283"); // temp.put("\u4E26", "8\u5283"); // temp.put("\u4E34", "9\u5283"); // temp.put("\uD840\uDC35", "9\u5283"); // temp.put("\uD840\uDC3E", "10\u5283"); // temp.put("\uD840\uDC3D", "10\u5283"); // temp.put("\u3422", "11\u5283"); // temp.put("\uD840\uDC41", "11\u5283"); // temp.put("\uD840\uDC46", "12\u5283"); // temp.put("\u4E82", "13\u5283"); // temp.put("\uD840\uDC4C", "13\u5283"); // temp.put("\uD840\uDC4E", "14\u5283"); // temp.put("\u3493", "15\u5283"); // temp.put("\uD840\uDC53", "15\u5283"); // temp.put("\u4EB8", "16\u5283"); // temp.put("\uD840\uDC55", "16\u5283"); // temp.put("\u511F", "17\u5283"); // temp.put("\uD840\uDC56", "17\u5283"); // temp.put("\u512D", "18\u5283"); // temp.put("\uD840\uDC5F", "18\u5283"); // temp.put("\u3426", "19\u5283"); // temp.put("\uD840\uDC7A", "19\u5283"); // temp.put("\u34A5", "20\u5283"); // temp.put("\uD840\uDC60", "20\u5283"); // temp.put("\u34A7", "21\u5283"); // temp.put("\uD840\uDD9E", "21\u5283"); // temp.put("\u4EB9", "22\u5283"); // temp.put("\uD840\uDC7B", "22\u5283"); // temp.put("\u513D", "23\u5283"); // temp.put("\uD840\uDCC8", "23\u5283"); // temp.put("\u513E", "24\u5283"); // temp.put("\uD840\uDD9F", "24\u5283"); // temp.put("\u56D4", "25\u5283"); // temp.put("\uD842\uDCCA", "25\u5283"); // temp.put("\u3536", "26\u5283"); // temp.put("\u34AA", "26\u5283"); // temp.put("\u7065", "27\u5283"); // temp.put("\uD842\uDE0B", "27\u5283"); // temp.put("\u56D6", "28\u5283"); // temp.put("\uD840\uDDA0", "28\u5283"); // temp.put("\u7E9E", "29\u5283"); // temp.put("\uD840\uDDA1", "29\u5283"); // temp.put("\u53B5", "30\u5283"); // temp.put("\uD842\uDD6C", "30\u5283"); // temp.put("\u7069", "31\u5283"); // temp.put("\uD844\uDD9F", "31\u5283"); // temp.put("\u706A", "32\u5283"); // temp.put("\uD842\uDED1", "32\u5283"); // temp.put("\uD846\uDD3B", "33\u5283"); // temp.put("\uD842\uDE0C", "33\u5283"); // temp.put("\uD842\uDCCB", "34\u5283"); // temp.put("\u9F7E", "35\u5283"); // temp.put("\uD84C\uDF5C", "35\u5283"); // temp.put("\u9F49", "36\u5283"); // temp.put("\uD845\uDD19", "36\u5283"); // temp.put("\uD86B\uDE9A", "37\u5283"); // temp.put("\uD861\uDC04", "38\u5283"); // temp.put("\u9750", "39\u5283"); // temp.put("\uD845\uDD1A", "39\u5283"); // temp.put("\uD864\uDDD3", "40\u5283"); // temp.put("\uD869\uDCCA", "41\u5283"); // temp.put("\uD85A\uDDC4", "42\u5283"); // temp.put("\uD85C\uDD98", "43\u5283"); // temp.put("\uD85E\uDCB1", "44\u5283"); // temp.put("\uD865\uDE63", "46\u5283"); // temp.put("\u9F98", "48\u5283"); // temp.put("\uD85A\uDDC5", "48\u5283"); // temp.put("\u4A3B", "52\u5283"); // temp.put("\uD841\uDD3B", "64\u5283"); // HACK_TRADITIONAL = Collections.unmodifiableMap(temp); // } /** * HACKS */ private static final List HACK_FIRST_CHARS_IN_SCRIPTS = Arrays.asList(new String[] { "a", "\u03B1", "\u2C81", "\u0430", "\u2C30", "\u10D0", "\u0561", "\u05D0", "\uD802\uDD00", "\u0800", "\u0621", "\u0710", // Syriac "\u0840", // Mandaic "\u0780", "\u07CA", "\u2D30", "\u1200", "\u0950", "\u0985", "\u0A74", "\u0AD0", "\u0B05", "\u0BD0", "\u0C05", "\u0C85", "\u0D05", "\u0D85", "\uAAF2", // Meetei Mayek "\uA800", "\uA882", "\uD804\uDC83", UCharacter.toString(0x111C4), // Sharada UCharacter.toString(0x11680), // Takri "\u1B83", // Sundanese "\uD804\uDC05", // Brahmi (U+11005) "\uD802\uDE00", "\u0E01", "\u0EDE", // Lao "\uAA80", "\u0F40", "\u1C00", "\uA840", "\u1900", "\u1700", "\u1720", "\u1740", "\u1760", "\u1A00", // Buginese "\u1BC0", // Batak "\uA930", "\uA90A", "\u1000", UCharacter.toString(0x11103), // Chakma "\u1780", "\u1950", "\u1980", "\u1A20", "\uAA00", "\u1B05", "\uA984", "\u1880", "\u1C5A", "\u13A0", "\u1401", "\u1681", "\u16A0", "\uD803\uDC00", "\uA500", "\uA6A0", "\u1100", "\u3041", "\u30A1", "\u3105", "\uA000", "\uA4F8", UCharacter.toString(0x16F00), // Miao "\uD800\uDE80", "\uD800\uDEA0", "\uD802\uDD20", "\uD800\uDF00", "\uD800\uDF30", "\uD801\uDC28", "\uD801\uDC50", "\uD801\uDC80", UCharacter.toString(0x110D0), // Sora Sompeng "\uD800\uDC00", "\uD802\uDC00", "\uD802\uDE60", "\uD802\uDF00", "\uD802\uDC40", "\uD802\uDF40", "\uD802\uDF60", "\uD800\uDF80", "\uD800\uDFA0", "\uD808\uDC00", "\uD80C\uDC00", UCharacter.toString(0x109A0), // Meroitic Cursive UCharacter.toString(0x10980), // Meroitic Hieroglyphs "\u4E00" }); // private static final UnicodeSet HACK_SHORT_TRAD_EXEMPLARS = new UnicodeSet( // "[\u3401 \u3422 \u3426 \u3493 \u34A5 \u34A7 \u3536 \u4E00 \u4E01 \u4E07 \u4E0D \u4E17 \u4E23 \u4E26 \u4E34 \u4E82 \u4EB8 \u4EB9 \u511F \u512D \u513D" + // " \u513E \u53B5 \u56D4 \u56D6 \u7065 \u7069 \u706A \u7E9E \u9750 \u9F49 \u9F7E \u9F98 \\U0002003E \\U00020046 \\U0002004E \\U0002193B]").freeze(); // private static final UnicodeSet HACK_LONG_TRAD_EXEMPLARS = new UnicodeSet( // "[\u3401\u34AA\u4A3B\u4E00\u4E01\u4E07\u4E0D\u4E17\u4E23\u4E26" + // "\\U00020035\\U0002003D\\U00020041\\U00020046\\U0002004C\\U0002004E\\U00020053\\U00020055\\U00020056\\U0002005F\\U00020060\\U0002007A\\U0002007B\\U000200C8" + // "\\U0002019E-\\U000201A1\\U0002053B\\U000208CA\\U000208CB\\U0002096C\\U00020A0B\\U00020A0C\\U00020AD1\\U0002119F\\U00021519\\U0002151A\\U0002335C\\U000269C4" + // "\\U000269C5\\U00027198\\U000278B1\\U00028404\\U000291D3\\U00029663\\U0002A4CA\\U0002AE9A]").freeze(); /** * Only for testing... * @internal * @deprecated only for internal testing */ public static List getFirstCharactersInScripts() { return HACK_FIRST_CHARS_IN_SCRIPTS; } }