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/*
 *******************************************************************************
 * Copyright (C) 2008-2012, International Business Machines Corporation and    *
 * others. All Rights Reserved.                                                *
 *******************************************************************************
 */

package com.ibm.icu.text;

import java.io.Serializable;
import java.util.HashMap;
import java.util.HashSet;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.Map;
import java.util.Map.Entry;
import java.util.MissingResourceException;
import java.util.Set;

import com.ibm.icu.impl.ICUCache;
import com.ibm.icu.impl.ICUResourceBundle;
import com.ibm.icu.impl.SimpleCache;
import com.ibm.icu.impl.Utility;
import com.ibm.icu.util.Calendar;
import com.ibm.icu.util.Freezable;
import com.ibm.icu.util.ULocale;
import com.ibm.icu.util.UResourceBundle;

/**
 * DateIntervalInfo is a public class for encapsulating localizable
 * date time interval patterns. It is used by DateIntervalFormat.
 *
 * 

* For most users, ordinary use of DateIntervalFormat does not need to create * DateIntervalInfo object directly. * DateIntervalFormat will take care of it when creating a date interval * formatter when user pass in skeleton and locale. * *

* For power users, who want to create their own date interval patterns, * or want to re-set date interval patterns, they could do so by * directly creating DateIntervalInfo and manupulating it. * *

* Logically, the interval patterns are mappings * from (skeleton, the_largest_different_calendar_field) * to (date_interval_pattern). * *

* A skeleton *

    *
  1. * only keeps the field pattern letter and ignores all other parts * in a pattern, such as space, punctuations, and string literals. *
  2. * hides the order of fields. *
  3. * might hide a field's pattern letter length. * * For those non-digit calendar fields, the pattern letter length is * important, such as MMM, MMMM, and MMMMM; EEE and EEEE, * and the field's pattern letter length is honored. * * For the digit calendar fields, such as M or MM, d or dd, yy or yyyy, * the field pattern length is ignored and the best match, which is defined * in date time patterns, will be returned without honor the field pattern * letter length in skeleton. *
* *

* The calendar fields we support for interval formatting are: * year, month, date, day-of-week, am-pm, hour, hour-of-day, and minute. * Those calendar fields can be defined in the following order: * year > month > date > am-pm > hour > minute * * The largest different calendar fields between 2 calendars is the * first different calendar field in above order. * * For example: the largest different calendar fields between "Jan 10, 2007" * and "Feb 20, 2008" is year. * *

* There is a set of pre-defined static skeleton strings. * There are pre-defined interval patterns for those pre-defined skeletons * in locales' resource files. * For example, for a skeleton YEAR_ABBR_MONTH_DAY, which is "yMMMd", * in en_US, if the largest different calendar field between date1 and date2 * is "year", the date interval pattern is "MMM d, yyyy - MMM d, yyyy", * such as "Jan 10, 2007 - Jan 10, 2008". * If the largest different calendar field between date1 and date2 is "month", * the date interval pattern is "MMM d - MMM d, yyyy", * such as "Jan 10 - Feb 10, 2007". * If the largest different calendar field between date1 and date2 is "day", * the date interval pattern is ""MMM d-d, yyyy", such as "Jan 10-20, 2007". * * For date skeleton, the interval patterns when year, or month, or date is * different are defined in resource files. * For time skeleton, the interval patterns when am/pm, or hour, or minute is * different are defined in resource files. * * *

* There are 2 dates in interval pattern. For most locales, the first date * in an interval pattern is the earlier date. There might be a locale in which * the first date in an interval pattern is the later date. * We use fallback format for the default order for the locale. * For example, if the fallback format is "{0} - {1}", it means * the first date in the interval pattern for this locale is earlier date. * If the fallback format is "{1} - {0}", it means the first date is the * later date. * For a particular interval pattern, the default order can be overriden * by prefixing "latestFirst:" or "earliestFirst:" to the interval pattern. * For example, if the fallback format is "{0}-{1}", * but for skeleton "yMMMd", the interval pattern when day is different is * "latestFirst:d-d MMM yy", it means by default, the first date in interval * pattern is the earlier date. But for skeleton "yMMMd", when day is different, * the first date in "d-d MMM yy" is the later date. * *

* The recommended way to create a DateIntervalFormat object is to pass in * the locale. * By using a Locale parameter, the DateIntervalFormat object is * initialized with the pre-defined interval patterns for a given or * default locale. *

* Users can also create DateIntervalFormat object * by supplying their own interval patterns. * It provides flexibility for power usage. * *

* After a DateIntervalInfo object is created, clients may modify * the interval patterns using setIntervalPattern function as so desired. * Currently, users can only set interval patterns when the following * calendar fields are different: ERA, YEAR, MONTH, DATE, DAY_OF_MONTH, * DAY_OF_WEEK, AM_PM, HOUR, HOUR_OF_DAY, and MINUTE. * Interval patterns when other calendar fields are different is not supported. *

* DateIntervalInfo objects are cloneable. * When clients obtain a DateIntervalInfo object, * they can feel free to modify it as necessary. *

* DateIntervalInfo are not expected to be subclassed. * Data for a calendar is loaded out of resource bundles. * Through ICU 4.4, date interval patterns are only supported in the Gregoria * calendar; non-Gregorian calendars are supported from ICU 4.4.1. * * @stable ICU 4.0 */ public class DateIntervalInfo implements Cloneable, Freezable, Serializable { /* Save the interval pattern information. * Interval pattern consists of 2 single date patterns and the separator. * For example, interval pattern "MMM d - MMM d, yyyy" consists * a single date pattern "MMM d", another single date pattern "MMM d, yyyy", * and a separator "-". * Also, the first date appears in an interval pattern could be * the earlier date or the later date. * And such information is saved in the interval pattern as well. */ static final int currentSerialVersion = 1; /** * PatternInfo class saves the first and second part of interval pattern, * and whether the interval pattern is earlier date first. * @stable ICU 4.0 */ public static final class PatternInfo implements Cloneable, Serializable { static final int currentSerialVersion = 1; private static final long serialVersionUID = 1; private final String fIntervalPatternFirstPart; private final String fIntervalPatternSecondPart; /* * Whether the first date in interval pattern is later date or not. * Fallback format set the default ordering. * And for a particular interval pattern, the order can be * overriden by prefixing the interval pattern with "latestFirst:" or * "earliestFirst:" * For example, given 2 date, Jan 10, 2007 to Feb 10, 2007. * if the fallback format is "{0} - {1}", * and the pattern is "d MMM - d MMM yyyy", the interval format is * "10 Jan - 10 Feb, 2007". * If the pattern is "latestFirst:d MMM - d MMM yyyy", * the interval format is "10 Feb - 10 Jan, 2007" */ private final boolean fFirstDateInPtnIsLaterDate; /** * constructor * @stable ICU 4.0 */ public PatternInfo(String firstPart, String secondPart, boolean firstDateInPtnIsLaterDate) { fIntervalPatternFirstPart = firstPart; fIntervalPatternSecondPart = secondPart; fFirstDateInPtnIsLaterDate = firstDateInPtnIsLaterDate; } /** * accessor * @stable ICU 4.0 */ public String getFirstPart() { return fIntervalPatternFirstPart; } /** * accessor * @stable ICU 4.0 */ public String getSecondPart() { return fIntervalPatternSecondPart; } /** * accessor * @stable ICU 4.0 */ public boolean firstDateInPtnIsLaterDate() { return fFirstDateInPtnIsLaterDate; } /** * Override equals * @stable ICU 4.0 */ public boolean equals(Object a) { if ( a instanceof PatternInfo ) { PatternInfo patternInfo = (PatternInfo)a; return Utility.objectEquals(fIntervalPatternFirstPart, patternInfo.fIntervalPatternFirstPart) && Utility.objectEquals(fIntervalPatternSecondPart, fIntervalPatternSecondPart) && fFirstDateInPtnIsLaterDate == patternInfo.fFirstDateInPtnIsLaterDate; } return false; } /** * Override hashcode * @stable ICU 4.0 */ public int hashCode() { int hash = fIntervalPatternFirstPart != null ? fIntervalPatternFirstPart.hashCode() : 0; if (fIntervalPatternSecondPart != null) { hash ^= fIntervalPatternSecondPart.hashCode(); } if (fFirstDateInPtnIsLaterDate) { hash ^= -1; } return hash; } } // Following is package protected since // it is shared with DateIntervalFormat. static final String[] CALENDAR_FIELD_TO_PATTERN_LETTER = { "G", "y", "M", "w", "W", "d", "D", "E", "F", "a", "h", "H", "m", }; private static final long serialVersionUID = 1; private static final int MINIMUM_SUPPORTED_CALENDAR_FIELD = Calendar.MINUTE; //private static boolean DEBUG = true; private static String FALLBACK_STRING = "fallback"; private static String LATEST_FIRST_PREFIX = "latestFirst:"; private static String EARLIEST_FIRST_PREFIX = "earliestFirst:"; // DateIntervalInfo cache private final static ICUCache DIICACHE = new SimpleCache(); // default interval pattern on the skeleton, {0} - {1} private String fFallbackIntervalPattern; // default order private boolean fFirstDateInPtnIsLaterDate = false; // HashMap( skeleton, HashMap(largest_different_field, pattern) ) private Map> fIntervalPatterns = null; private transient boolean frozen = false; /** * Create empty instance. * It does not initialize any interval patterns except * that it initialize default fall-back pattern as "{0} - {1}", * which can be reset by setFallbackIntervalPattern(). * * It should be followed by setFallbackIntervalPattern() and * setIntervalPattern(), * and is recommended to be used only for power users who * wants to create their own interval patterns and use them to create * date interval formatter. * @internal * @deprecated This API is ICU internal only. */ public DateIntervalInfo() { fIntervalPatterns = new HashMap>(); fFallbackIntervalPattern = "{0} \u2013 {1}"; } /** * Construct DateIntervalInfo for the given locale, * @param locale the interval patterns are loaded from the appropriate * calendar data (specified calendar or default calendar) * in this locale. * @stable ICU 4.0 */ public DateIntervalInfo(ULocale locale) { initializeData(locale); } /* * Initialize the DateIntervalInfo from locale * @param locale the given locale. */ private void initializeData(ULocale locale) { String key = locale.toString(); DateIntervalInfo dii = DIICACHE.get(key); if ( dii == null ) { // initialize data from scratch setup(locale); // TODO: should put a clone in cache? // or put itself in cache? // DIICACHE.put(key, this); dii = (DateIntervalInfo)this.clone(); DIICACHE.put(key, dii); } else { initializeData(dii); } } /* * Initialize DateIntervalInfo from another instance * @param dii an DateIntervalInfo instance */ private void initializeData(DateIntervalInfo dii) { fFallbackIntervalPattern = dii.fFallbackIntervalPattern; fFirstDateInPtnIsLaterDate = dii.fFirstDateInPtnIsLaterDate; fIntervalPatterns = dii.fIntervalPatterns; } /* * Initialize DateIntervalInfo from calendar data * @param calData calendar data */ private void setup(ULocale locale) { int DEFAULT_HASH_SIZE = 19; fIntervalPatterns = new HashMap>(DEFAULT_HASH_SIZE); // initialize to guard if there is no interval date format defined in // resource files fFallbackIntervalPattern = "{0} \u2013 {1}"; HashSet skeletonSet = new HashSet(); try { // loop through all locales to get all available skeletons' // interval format ULocale currentLocale = locale; // Get the correct calendar type String calendarTypeToUse = locale.getKeywordValue("calendar"); if ( calendarTypeToUse == null ) { String[] preferredCalendarTypes = Calendar.getKeywordValuesForLocale("calendar", locale, true); calendarTypeToUse = preferredCalendarTypes[0]; // the most preferred calendar } if ( calendarTypeToUse == null ) { calendarTypeToUse = "gregorian"; // fallback } do { String name = currentLocale.getName(); if ( name.length() == 0 ) { break; } ICUResourceBundle rb = (ICUResourceBundle) UResourceBundle.getBundleInstance(ICUResourceBundle.ICU_BASE_NAME,currentLocale); ICUResourceBundle calBundle = rb.getWithFallback("calendar"); ICUResourceBundle calTypeBundle = calBundle.getWithFallback(calendarTypeToUse); ICUResourceBundle itvDtPtnResource =calTypeBundle.getWithFallback("intervalFormats"); // look for fallback first, since it establishes the default order String fallback = itvDtPtnResource.getStringWithFallback(FALLBACK_STRING); setFallbackIntervalPattern(fallback); int size = itvDtPtnResource.getSize(); for ( int index = 0; index < size; ++index ) { String skeleton = itvDtPtnResource.get(index).getKey(); if ( skeletonSet.contains(skeleton) ) { continue; } skeletonSet.add(skeleton); if ( skeleton.compareTo(FALLBACK_STRING) == 0 ) { continue; } ICUResourceBundle intervalPatterns =itvDtPtnResource.getWithFallback(skeleton); int ptnNum = intervalPatterns.getSize(); for ( int ptnIndex = 0; ptnIndex < ptnNum; ++ptnIndex) { String key = intervalPatterns.get(ptnIndex).getKey(); String pattern = intervalPatterns.get(ptnIndex).getString(); int calendarField = -1; // initialize with an invalid value. if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.YEAR]) == 0 ) { calendarField = Calendar.YEAR; } else if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.MONTH]) == 0 ) { calendarField = Calendar.MONTH; } else if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.DATE]) == 0 ) { calendarField = Calendar.DATE; } else if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.AM_PM]) == 0 ) { calendarField = Calendar.AM_PM; } else if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.HOUR]) == 0 ) { calendarField = Calendar.HOUR; } else if ( key.compareTo(CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.MINUTE]) == 0 ) { calendarField = Calendar.MINUTE; } if ( calendarField != -1 ) { setIntervalPatternInternally(skeleton, key, pattern); } } } try { UResourceBundle parentNameBundle = rb.get("%%Parent"); currentLocale = new ULocale(parentNameBundle.getString()); } catch (MissingResourceException e) { currentLocale = currentLocale.getFallback(); } } while (currentLocale != null && !currentLocale.getBaseName().equals("root")); } catch ( MissingResourceException e) { // ok, will fallback to {data0} - {date1} } } /* * Split interval patterns into 2 part. * @param intervalPattern interval pattern * @return the index in interval pattern which split the pattern into 2 part */ private static int splitPatternInto2Part(String intervalPattern) { boolean inQuote = false; char prevCh = 0; int count = 0; /* repeatedPattern used to record whether a pattern has already seen. It is a pattern applies to first calendar if it is first time seen, otherwise, it is a pattern applies to the second calendar */ int[] patternRepeated = new int[58]; int PATTERN_CHAR_BASE = 0x41; /* loop through the pattern string character by character looking for * the first repeated pattern letter, which breaks the interval pattern * into 2 parts. */ int i; boolean foundRepetition = false; for (i = 0; i < intervalPattern.length(); ++i) { char ch = intervalPattern.charAt(i); if (ch != prevCh && count > 0) { // check the repeativeness of pattern letter int repeated = patternRepeated[prevCh - PATTERN_CHAR_BASE]; if ( repeated == 0 ) { patternRepeated[prevCh - PATTERN_CHAR_BASE] = 1; } else { foundRepetition = true; break; } count = 0; } if (ch == '\'') { // Consecutive single quotes are a single quote literal, // either outside of quotes or between quotes if ((i+1) < intervalPattern.length() && intervalPattern.charAt(i+1) == '\'') { ++i; } else { inQuote = ! inQuote; } } else if (!inQuote && ((ch >= 0x0061 /*'a'*/ && ch <= 0x007A /*'z'*/) || (ch >= 0x0041 /*'A'*/ && ch <= 0x005A /*'Z'*/))) { // ch is a date-time pattern character prevCh = ch; ++count; } } // check last pattern char, distinguish // "dd MM" ( no repetition ), // "d-d"(last char repeated ), and // "d-d MM" ( repetition found ) if ( count > 0 && foundRepetition == false ) { if ( patternRepeated[prevCh - PATTERN_CHAR_BASE] == 0 ) { count = 0; } } return (i - count); } /** * Provides a way for client to build interval patterns. * User could construct DateIntervalInfo by providing * a list of skeletons and their patterns. *

* For example: *

     * DateIntervalInfo dIntervalInfo = new DateIntervalInfo();
     * dIntervalInfo.setIntervalPattern("yMd", Calendar.YEAR, "'from' yyyy-M-d 'to' yyyy-M-d"); 
     * dIntervalInfo.setIntervalPattern("yMMMd", Calendar.MONTH, "'from' yyyy MMM d 'to' MMM d");
     * dIntervalInfo.setIntervalPattern("yMMMd", Calendar.DAY, "yyyy MMM d-d");
     * dIntervalInfo.setFallbackIntervalPattern("{0} ~ {1}");
     * 
* * Restriction: * Currently, users can only set interval patterns when the following * calendar fields are different: ERA, YEAR, MONTH, DATE, DAY_OF_MONTH, * DAY_OF_WEEK, AM_PM, HOUR, HOUR_OF_DAY, and MINUTE. * Interval patterns when other calendar fields are different are * not supported. * * @param skeleton the skeleton on which interval pattern based * @param lrgDiffCalUnit the largest different calendar unit. * @param intervalPattern the interval pattern on the largest different * calendar unit. * For example, if lrgDiffCalUnit is * "year", the interval pattern for en_US when year * is different could be "'from' yyyy 'to' yyyy". * @throws IllegalArgumentException if setting interval pattern on * a calendar field that is smaller * than the MINIMUM_SUPPORTED_CALENDAR_FIELD * @throws UnsupportedOperationException if the object is frozen * @stable ICU 4.0 */ public void setIntervalPattern(String skeleton, int lrgDiffCalUnit, String intervalPattern) { if ( frozen ) { throw new UnsupportedOperationException("no modification is allowed after DII is frozen"); } if ( lrgDiffCalUnit > MINIMUM_SUPPORTED_CALENDAR_FIELD ) { throw new IllegalArgumentException("calendar field is larger than MINIMUM_SUPPORTED_CALENDAR_FIELD"); } PatternInfo ptnInfo = setIntervalPatternInternally(skeleton, CALENDAR_FIELD_TO_PATTERN_LETTER[lrgDiffCalUnit], intervalPattern); if ( lrgDiffCalUnit == Calendar.HOUR_OF_DAY ) { setIntervalPattern(skeleton, CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.AM_PM], ptnInfo); setIntervalPattern(skeleton, CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.HOUR], ptnInfo); } else if ( lrgDiffCalUnit == Calendar.DAY_OF_MONTH || lrgDiffCalUnit == Calendar.DAY_OF_WEEK ) { setIntervalPattern(skeleton, CALENDAR_FIELD_TO_PATTERN_LETTER[Calendar.DATE], ptnInfo); } } /* Set Interval pattern. * * It generates the interval pattern info, * afer which, not only sets the interval pattern info into the hash map, * but also returns the interval pattern info to the caller * so that caller can re-use it. * * @param skeleton skeleton on which the interval pattern based * @param lrgDiffCalUnit the largest different calendar unit. * @param intervalPattern the interval pattern on the largest different * calendar unit. * @return the interval pattern pattern information */ private PatternInfo setIntervalPatternInternally(String skeleton, String lrgDiffCalUnit, String intervalPattern) { Map patternsOfOneSkeleton = fIntervalPatterns.get(skeleton); boolean emptyHash = false; if (patternsOfOneSkeleton == null) { patternsOfOneSkeleton = new HashMap(); emptyHash = true; } boolean order = fFirstDateInPtnIsLaterDate; // check for "latestFirst:" or "earliestFirst:" prefix if ( intervalPattern.startsWith(LATEST_FIRST_PREFIX) ) { order = true; int prefixLength = LATEST_FIRST_PREFIX.length(); intervalPattern = intervalPattern.substring(prefixLength, intervalPattern.length()); } else if ( intervalPattern.startsWith(EARLIEST_FIRST_PREFIX) ) { order = false; int earliestFirstLength = EARLIEST_FIRST_PREFIX.length(); intervalPattern = intervalPattern.substring(earliestFirstLength, intervalPattern.length()); } PatternInfo itvPtnInfo = genPatternInfo(intervalPattern, order); patternsOfOneSkeleton.put(lrgDiffCalUnit, itvPtnInfo); if ( emptyHash == true ) { fIntervalPatterns.put(skeleton, patternsOfOneSkeleton); } return itvPtnInfo; } /* Set Interval pattern. * * @param skeleton skeleton on which the interval pattern based * @param lrgDiffCalUnit the largest different calendar unit. * @param ptnInfo interval pattern infomration */ private void setIntervalPattern(String skeleton, String lrgDiffCalUnit, PatternInfo ptnInfo) { Map patternsOfOneSkeleton = fIntervalPatterns.get(skeleton); patternsOfOneSkeleton.put(lrgDiffCalUnit, ptnInfo); } /** * Break interval patterns as 2 part and save them into pattern info. * @param intervalPattern interval pattern * @param laterDateFirst whether the first date in intervalPattern * is earlier date or later date * @return pattern info object */ static PatternInfo genPatternInfo(String intervalPattern, boolean laterDateFirst) { int splitPoint = splitPatternInto2Part(intervalPattern); String firstPart = intervalPattern.substring(0, splitPoint); String secondPart = null; if ( splitPoint < intervalPattern.length() ) { secondPart = intervalPattern.substring(splitPoint, intervalPattern.length()); } return new PatternInfo(firstPart, secondPart, laterDateFirst); } /** * Get the interval pattern given the largest different calendar field. * @param skeleton the skeleton * @param field the largest different calendar field * @return interval pattern return null if interval pattern is not found. * @throws IllegalArgumentException if getting interval pattern on * a calendar field that is smaller * than the MINIMUM_SUPPORTED_CALENDAR_FIELD * @stable ICU 4.0 */ public PatternInfo getIntervalPattern(String skeleton, int field) { if ( field > MINIMUM_SUPPORTED_CALENDAR_FIELD ) { throw new IllegalArgumentException("no support for field less than MINUTE"); } Map patternsOfOneSkeleton = fIntervalPatterns.get(skeleton); if ( patternsOfOneSkeleton != null ) { PatternInfo intervalPattern = patternsOfOneSkeleton. get(CALENDAR_FIELD_TO_PATTERN_LETTER[field]); if ( intervalPattern != null ) { return intervalPattern; } } return null; } /** * Get the fallback interval pattern. * @return fallback interval pattern * @stable ICU 4.0 */ public String getFallbackIntervalPattern() { return fFallbackIntervalPattern; } /** * Re-set the fallback interval pattern. * * In construction, default fallback pattern is set as "{0} - {1}". * And constructor taking locale as parameter will set the * fallback pattern as what defined in the locale resource file. * * This method provides a way for user to replace the fallback pattern. * * @param fallbackPattern fall-back interval pattern. * @throws UnsupportedOperationException if the object is frozen * @throws IllegalArgumentException if there is no pattern {0} or * pattern {1} in fallbakckPattern * * @stable ICU 4.0 */ public void setFallbackIntervalPattern(String fallbackPattern) { if ( frozen ) { throw new UnsupportedOperationException("no modification is allowed after DII is frozen"); } int firstPatternIndex = fallbackPattern.indexOf("{0}"); int secondPatternIndex = fallbackPattern.indexOf("{1}"); if ( firstPatternIndex == -1 || secondPatternIndex == -1 ) { throw new IllegalArgumentException("no pattern {0} or pattern {1} in fallbackPattern"); } if ( firstPatternIndex > secondPatternIndex ) { fFirstDateInPtnIsLaterDate = true; } fFallbackIntervalPattern = fallbackPattern; } /** * Get default order -- whether the first date in pattern is later date * or not. * * return default date ordering in interval pattern. TRUE if the first date * in pattern is later date, FALSE otherwise. * @stable ICU 4.0 */ public boolean getDefaultOrder() { return fFirstDateInPtnIsLaterDate; } /** * Boilerplate. Clone this object. * @return a copy of the object * @stable ICU4.0 */ public Object clone() { if ( frozen ) { return this; } return cloneUnfrozenDII(); } /* * Clone an unfrozen DateIntervalInfo object. * @return a copy of the object */ private Object cloneUnfrozenDII() //throws IllegalStateException { try { DateIntervalInfo other = (DateIntervalInfo) super.clone(); other.fFallbackIntervalPattern=fFallbackIntervalPattern; other.fFirstDateInPtnIsLaterDate = fFirstDateInPtnIsLaterDate; other.fIntervalPatterns = new HashMap>(); for (String skeleton : fIntervalPatterns.keySet()) { Map patternsOfOneSkeleton = fIntervalPatterns.get(skeleton); Map oneSetPtn = new HashMap(); for (Entry calEntry : patternsOfOneSkeleton.entrySet()) { String calField = calEntry.getKey(); PatternInfo value = calEntry.getValue(); oneSetPtn.put(calField, value); } other.fIntervalPatterns.put(skeleton, oneSetPtn); } other.frozen = false; return other; } catch ( CloneNotSupportedException e ) { ///CLOVER:OFF throw new IllegalStateException("clone is not supported"); ///CLOVER:ON } } /** * Boilerplate for Freezable * @stable ICU 4.0 */ public boolean isFrozen() { return frozen; } /** * Boilerplate for Freezable * @stable ICU 4.4 */ public DateIntervalInfo freeze() { frozen = true; return this; } /** * Boilerplate for Freezable * @stable ICU 4.4 */ public DateIntervalInfo cloneAsThawed() { DateIntervalInfo result = (DateIntervalInfo) (this.cloneUnfrozenDII()); return result; } /** * Parse skeleton, save each field's width. * It is used for looking for best match skeleton, * and adjust pattern field width. * @param skeleton skeleton to be parsed * @param skeletonFieldWidth parsed skeleton field width */ static void parseSkeleton(String skeleton, int[] skeletonFieldWidth) { int PATTERN_CHAR_BASE = 0x41; for ( int i = 0; i < skeleton.length(); ++i ) { ++skeletonFieldWidth[skeleton.charAt(i) - PATTERN_CHAR_BASE]; } } /* * Check whether one field width is numeric while the other is string. * * TODO (xji): make it general * * @param fieldWidth one field width * @param anotherFieldWidth another field width * @param patternLetter pattern letter char * @return true if one field width is numeric and the other is string, * false otherwise. */ private static boolean stringNumeric(int fieldWidth, int anotherFieldWidth, char patternLetter) { if ( patternLetter == 'M' ) { if ( fieldWidth <= 2 && anotherFieldWidth > 2 || fieldWidth > 2 && anotherFieldWidth <= 2 ) { return true; } } return false; } /* * given an input skeleton, get the best match skeleton * which has pre-defined interval pattern in resource file. * * TODO (xji): set field weight or * isolate the funtionality in DateTimePatternGenerator * @param inputSkeleton input skeleton * @return 0, if there is exact match for input skeleton * 1, if there is only field width difference between * the best match and the input skeleton * 2, the only field difference is 'v' and 'z' * -1, if there is calendar field difference between * the best match and the input skeleton */ DateIntervalFormat.BestMatchInfo getBestSkeleton(String inputSkeleton) { String bestSkeleton = inputSkeleton; int[] inputSkeletonFieldWidth = new int[58]; int[] skeletonFieldWidth = new int[58]; final int DIFFERENT_FIELD = 0x1000; final int STRING_NUMERIC_DIFFERENCE = 0x100; final int BASE = 0x41; // TODO: this is a hack for 'v' and 'z' // resource bundle only have time skeletons ending with 'v', // but not for time skeletons ending with 'z'. boolean replaceZWithV = false; if ( inputSkeleton.indexOf('z') != -1 ) { inputSkeleton = inputSkeleton.replace('z', 'v'); replaceZWithV = true; } parseSkeleton(inputSkeleton, inputSkeletonFieldWidth); int bestDistance = Integer.MAX_VALUE; // 0 means exact the same skeletons; // 1 means having the same field, but with different length, // 2 means only z/v differs // -1 means having different field. int bestFieldDifference = 0; for (String skeleton : fIntervalPatterns.keySet()) { // clear skeleton field width for ( int i = 0; i < skeletonFieldWidth.length; ++i ) { skeletonFieldWidth[i] = 0; } parseSkeleton(skeleton, skeletonFieldWidth); // calculate distance int distance = 0; int fieldDifference = 1; for ( int i = 0; i < inputSkeletonFieldWidth.length; ++i ) { int inputFieldWidth = inputSkeletonFieldWidth[i]; int fieldWidth = skeletonFieldWidth[i]; if ( inputFieldWidth == fieldWidth ) { continue; } if ( inputFieldWidth == 0 ) { fieldDifference = -1; distance += DIFFERENT_FIELD; } else if ( fieldWidth == 0 ) { fieldDifference = -1; distance += DIFFERENT_FIELD; } else if (stringNumeric(inputFieldWidth, fieldWidth, (char)(i+BASE) ) ) { distance += STRING_NUMERIC_DIFFERENCE; } else { distance += Math.abs(inputFieldWidth - fieldWidth); } } if ( distance < bestDistance ) { bestSkeleton = skeleton; bestDistance = distance; bestFieldDifference = fieldDifference; } if ( distance == 0 ) { bestFieldDifference = 0; break; } } if ( replaceZWithV && bestFieldDifference != -1 ) { bestFieldDifference = 2; } return new DateIntervalFormat.BestMatchInfo(bestSkeleton, bestFieldDifference); } /** * Override equals * @stable ICU 4.0 */ public boolean equals(Object a) { if ( a instanceof DateIntervalInfo ) { DateIntervalInfo dtInfo = (DateIntervalInfo)a; return fIntervalPatterns.equals(dtInfo.fIntervalPatterns); } return false; } /** * Override hashcode * @stable ICU 4.0 */ public int hashCode() { return fIntervalPatterns.hashCode(); } /** * @internal CLDR * @deprecated This API is ICU internal only. */ public Map> getPatterns() { LinkedHashMap> result = new LinkedHashMap>(); for (Entry> entry : fIntervalPatterns.entrySet()) { result.put(entry.getKey(), new LinkedHashSet(entry.getValue().keySet())); } return result; } }// end class DateIntervalInfo




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