/*
*******************************************************************************
* Copyright (C) 2007-2016, International Business Machines Corporation and
* others. All Rights Reserved.
*******************************************************************************
*/
package androidx.core.i18n.messageformat_icu.simple;
import android.annotation.SuppressLint;
import java.io.IOException;
import java.io.NotSerializableException;
import java.io.ObjectInputStream;
import java.io.ObjectOutputStream;
import java.io.Serializable;
import java.text.ParseException;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Collections;
import java.util.HashSet;
import java.util.Iterator;
import java.util.LinkedHashSet;
import java.util.List;
import java.util.Locale;
import java.util.Set;
import java.util.TreeSet;
import java.util.regex.Pattern;
import androidx.annotation.RestrictTo;
import androidx.core.i18n.messageformat_icu.util.Output;
/**
* <p>
* Defines rules for mapping non-negative numeric values onto a small set of keywords.
* </p>
* <p>
* Rules are constructed from a text description, consisting of a series of keywords and conditions. The {@link #select}
* method examines each condition in order and returns the keyword for the first condition that matches the number. If
* none match, {@link #KEYWORD_OTHER} is returned.
* </p>
* <p>
* A PluralRules object is immutable. It contains caches for sample values, but those are synchronized.
* <p>
* PluralRules is Serializable so that it can be used in formatters, which are serializable.
* </p>
* <p>
* For more information, details, and tips for writing rules, see the <a
* href="https://www.unicode.org/reports/tr35/tr35-numbers.html#Language_Plural_Rules">LDML spec,
* Part 3.5 Language Plural Rules</a>
* </p>
* <p>
* Examples:
* </p>
*
* <pre>
* "one: n is 1; few: n in 2..4"
* </pre>
* <p>
* This defines two rules, for 'one' and 'few'. The condition for 'one' is "n is 1" which means that the number must be
* equal to 1 for this condition to pass. The condition for 'few' is "n in 2..4" which means that the number must be
* between 2 and 4 inclusive - and be an integer - for this condition to pass. All other numbers are assigned the
* keyword "other" by the default rule.
* </p>
*
* <pre>
* "zero: n is 0; one: n is 1; zero: n mod 100 in 1..19"
* </pre>
* <p>
* This illustrates that the same keyword can be defined multiple times. Each rule is examined in order, and the first
* keyword whose condition passes is the one returned. Also notes that a modulus is applied to n in the last rule. Thus
* its condition holds for 119, 219, 319...
* </p>
*
* <pre>
* "one: n is 1; few: n mod 10 in 2..4 and n mod 100 not in 12..14"
* </pre>
* <p>
* This illustrates conjunction and negation. The condition for 'few' has two parts, both of which must be met:
* "n mod 10 in 2..4" and "n mod 100 not in 12..14". The first part applies a modulus to n before the test as in the
* previous example. The second part applies a different modulus and also uses negation, thus it matches all numbers
* _not_ in 12, 13, 14, 112, 113, 114, 212, 213, 214...
* </p>
* <p>
* Syntax:
* </p>
* <pre>
* rules = rule (';' rule)*
* rule = keyword ':' condition
* keyword = <identifier>
* condition = and_condition ('or' and_condition)*
* and_condition = relation ('and' relation)*
* relation = not? expr not? rel not? range_list
* expr = ('n' | 'i' | 'f' | 'v' | 't') (mod value)?
* not = 'not' | '!'
* rel = 'in' | 'is' | '=' | '≠' | 'within'
* mod = 'mod' | '%'
* range_list = (range | value) (',' range_list)*
* value = digit+
* digit = 0|1|2|3|4|5|6|7|8|9
* range = value'..'value
* </pre>
* <p>Each <b>not</b> term inverts the meaning; however, there should not be more than one of them.</p>
* <p>
* The i, f, t, and v values are defined as follows:
* </p>
* <ul>
* <li>i to be the integer digits.</li>
* <li>f to be the visible decimal digits, as an integer.</li>
* <li>t to be the visible decimal digits—without trailing zeros—as an integer.</li>
* <li>v to be the number of visible fraction digits.</li>
* <li>j is defined to only match integers. That is j is 3 fails if v != 0 (eg for 3.1 or 3.0).</li>
* </ul>
* <p>
* Examples are in the following table:
* </p>
* <table border='1' style="border-collapse:collapse">
* <tbody>
* <tr>
* <th>n</th>
* <th>i</th>
* <th>f</th>
* <th>v</th>
* </tr>
* <tr>
* <td>1.0</td>
* <td>1</td>
* <td align="right">0</td>
* <td>1</td>
* </tr>
* <tr>
* <td>1.00</td>
* <td>1</td>
* <td align="right">0</td>
* <td>2</td>
* </tr>
* <tr>
* <td>1.3</td>
* <td>1</td>
* <td align="right">3</td>
* <td>1</td>
* </tr>
* <tr>
* <td>1.03</td>
* <td>1</td>
* <td align="right">3</td>
* <td>2</td>
* </tr>
* <tr>
* <td>1.23</td>
* <td>1</td>
* <td align="right">23</td>
* <td>2</td>
* </tr>
* </tbody>
* </table>
* <p>
* An "identifier" is a sequence of characters that do not have the Unicode Pattern_Syntax or Pattern_White_Space
* properties.
* <p>
* The difference between 'in' and 'within' is that 'in' only includes integers in the specified range, while 'within'
* includes all values. Using 'within' with a range_list consisting entirely of values is the same as using 'in' (it's
* not an error).
* </p>
*
* icu_annot::stable ICU 3.8
*/
@RestrictTo(RestrictTo.Scope.LIBRARY)
public class PluralRules implements Serializable {
// static final UnicodeSet ALLOWED_ID = new UnicodeSet("[a-z]").freeze();
// TODO Remove RulesList by moving its API and fields into PluralRules.
private static final String CATEGORY_SEPARATOR = "; ";
private static final long serialVersionUID = 1;
private final RuleList rules;
private final transient Set<String> keywords;
/**
* Provides a factory for returning plural rules
*
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public static abstract class Factory {
/**
* Provides access to the predefined <code>PluralRules</code> for a given locale and the plural type.
*
* <p>
* ICU defines plural rules for many locales based on CLDR <i>Language Plural Rules</i>. For these predefined
* rules, see CLDR page at
* https://unicode-org.github.io/cldr-staging/charts/latest/supplemental/language_plural_rules.html
*
* @param locale
* The locale for which a <code>PluralRules</code> object is returned.
* @param type
* The plural type (e.g., cardinal or ordinal).
* @return The predefined <code>PluralRules</code> object for this locale. If there's no predefined rules for
* this locale, the rules for the closest parent in the locale hierarchy that has one will be returned.
* The final fallback always returns the default rules.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public abstract PluralRules forLocale(Locale locale, PluralType type);
/**
* Utility for getting CARDINAL rules.
* @param locale the locale
* @return plural rules.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final PluralRules forLocale(Locale locale) {
return forLocale(locale, PluralType.CARDINAL);
}
/**
* Returns the locales for which there is plurals data.
*
* icu_annot::internal CLDR
* This API is ICU internal only.
@Deprecated
public abstract ULocale[] getAvailableULocales();
*/
/**
* Returns the 'functionally equivalent' locale with respect to plural rules. Calling PluralRules.forLocale with
* the functionally equivalent locale, and with the provided locale, returns rules that behave the same. <br/>
* All locales with the same functionally equivalent locale have plural rules that behave the same. This is not
* exhaustive; there may be other locales whose plural rules behave the same that do not have the same equivalent
* locale.
*
* @param locale
* the locale to check
* @param isAvailable
* if not null and of length > 0, this will hold 'true' at index 0 if locale is directly defined
* (without fallback) as having plural rules
* @return the functionally-equivalent locale
* icu_annot::internal CLDR
* This API is ICU internal only.
@Deprecated
public abstract ULocale getFunctionalEquivalent(ULocale locale, boolean[] isAvailable);
*/
/**
* Returns the default factory.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public static PluralRulesLoader getDefaultFactory() {
return PluralRulesLoader.loader;
}
/**
* Returns whether or not there are overrides.
* icu_annot::internal CLDR
* This API is ICU internal only.
@Deprecated
public abstract boolean hasOverride(ULocale locale);
*/
}
// Standard keywords.
/**
* Common name for the 'zero' plural form.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_ZERO = "zero";
/**
* Common name for the 'singular' plural form.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_ONE = "one";
/**
* Common name for the 'dual' plural form.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_TWO = "two";
/**
* Common name for the 'paucal' or other special plural form.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_FEW = "few";
/**
* Common name for the arabic (11 to 99) plural form.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_MANY = "many";
/**
* Common name for the default plural form. This name is returned
* for values to which no other form in the rule applies. It
* can additionally be assigned rules of its own.
* icu_annot::stable ICU 3.8
*/
public static final String KEYWORD_OTHER = "other";
/**
* Value returned by {@link #getUniqueKeywordValue} when there is no
* unique value to return.
* icu_annot::stable ICU 4.8
*/
public static final double NO_UNIQUE_VALUE = -0.00123456777;
/**
* Type of plurals and PluralRules.
* icu_annot::stable ICU 50
*/
public enum PluralType {
/**
* Plural rules for cardinal numbers: 1 file vs. 2 files.
* icu_annot::stable ICU 50
*/
CARDINAL,
/**
* Plural rules for ordinal numbers: 1st file, 2nd file, 3rd file, 4th file, etc.
* icu_annot::stable ICU 50
*/
ORDINAL
};
/*
* The default constraint that is always satisfied.
*/
private static final Constraint NO_CONSTRAINT = new Constraint() {
private static final long serialVersionUID = 9163464945387899416L;
@Override
public boolean isFulfilled(FixedDecimal n) {
return true;
}
@Override
public boolean isLimited(SampleType sampleType) {
return false;
}
@Override
public String toString() {
return "";
}
};
/**
*
*/
private static final Rule DEFAULT_RULE = new Rule("other", NO_CONSTRAINT, null, null);
/**
* Parses a plural rules description and returns a PluralRules.
* @param description the rule description.
* @throws ParseException if the description cannot be parsed.
* The exception index is typically not set, it will be -1.
* icu_annot::stable ICU 3.8
*/
public static PluralRules parseDescription(String description)
throws ParseException {
description = description.trim();
return description.length() == 0 ? DEFAULT : new PluralRules(parseRuleChain(description));
}
/**
* Creates a PluralRules from a description if it is parsable,
* otherwise returns null.
* @param description the rule description.
* @return the PluralRules
* icu_annot::stable ICU 3.8
*/
public static PluralRules createRules(String description) {
try {
return parseDescription(description);
} catch(Exception e) {
return null;
}
}
/**
* The default rules that accept any number and return
* {@link #KEYWORD_OTHER}.
* icu_annot::stable ICU 3.8
*/
public static final PluralRules DEFAULT = new PluralRules(new RuleList().addRule(DEFAULT_RULE));
private enum Operand {
n,
i,
f,
t,
v,
w,
/* deprecated */
j;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public static class FixedDecimal extends Number implements Comparable<FixedDecimal> {
private static final long serialVersionUID = -4756200506571685661L;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final double source;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final int visibleDecimalDigitCount;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final int visibleDecimalDigitCountWithoutTrailingZeros;
/**
* Whether the number has no nonzero fraction digits.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final long decimalDigits;
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final long decimalDigitsWithoutTrailingZeros;
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final long integerValue;
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final boolean hasIntegerValue;
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final boolean isNegative;
private final int baseFactor;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public double getSource() {
return source;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public int getVisibleDecimalDigitCount() {
return visibleDecimalDigitCount;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public int getVisibleDecimalDigitCountWithoutTrailingZeros() {
return visibleDecimalDigitCountWithoutTrailingZeros;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public long getDecimalDigits() {
return decimalDigits;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public long getDecimalDigitsWithoutTrailingZeros() {
return decimalDigitsWithoutTrailingZeros;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public long getIntegerValue() {
return integerValue;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public boolean isHasIntegerValue() {
return hasIntegerValue;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public boolean isNegative() {
return isNegative;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public int getBaseFactor() {
return baseFactor;
}
static final long MAX = (long)1E18;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
* @param n is the original number
* @param v number of digits to the right of the decimal place. e.g. 1.00 = 2 25. = 0
* @param f Corresponds to f in the plural rules grammar.
* The digits to the right of the decimal place as an integer. e.g. 1.10 = 10
*/
// @Deprecated: in fact internal ICU
public FixedDecimal(double n, int v, long f) {
isNegative = n < 0;
source = isNegative ? -n : n;
visibleDecimalDigitCount = v;
decimalDigits = f;
integerValue = n > MAX ? MAX : (long) n;
hasIntegerValue = source == integerValue;
// check values. TODO make into unit test.
//
// long visiblePower = (int) Math.pow(10, v);
// if (fractionalDigits > visiblePower) {
// throw new IllegalArgumentException();
// }
// double fraction = intValue + (fractionalDigits / (double) visiblePower);
// if (fraction != source) {
// double diff = Math.abs(fraction - source)/(Math.abs(fraction) + Math.abs(source));
// if (diff > 0.00000001d) {
// throw new IllegalArgumentException();
// }
// }
if (f == 0) {
decimalDigitsWithoutTrailingZeros = 0;
visibleDecimalDigitCountWithoutTrailingZeros = 0;
} else {
long fdwtz = f;
int trimmedCount = v;
while ((fdwtz%10) == 0) {
fdwtz /= 10;
--trimmedCount;
}
decimalDigitsWithoutTrailingZeros = fdwtz;
visibleDecimalDigitCountWithoutTrailingZeros = trimmedCount;
}
baseFactor = (int) Math.pow(10, v);
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimal(double n, int v) {
this(n,v,getFractionalDigits(n, v));
}
private static int getFractionalDigits(double n, int v) {
if (v == 0) {
return 0;
} else {
if (n < 0) {
n = -n;
}
int baseFactor = (int) Math.pow(10, v);
long scaled = Math.round(n * baseFactor);
return (int) (scaled % baseFactor);
}
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimal(double n) {
this(n, decimals(n));
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimal(long n) {
this(n,0);
}
private static final long MAX_INTEGER_PART = 1000000000;
/**
* Return a guess as to the number of decimals that would be displayed. This is only a guess; callers should
* always supply the decimals explicitly if possible. Currently, it is up to 6 decimals (without trailing zeros).
* Returns 0 for infinities and nans.
* icu_annot::internal CLDR
* This API is ICU internal only.
*
*/
// @Deprecated: in fact internal ICU
public static int decimals(double n) {
// Ugly...
if (Double.isInfinite(n) || Double.isNaN(n)) {
return 0;
}
if (n < 0) {
n = -n;
}
if (n < MAX_INTEGER_PART) {
long temp = (long)(n * 1000000) % 1000000; // get 6 decimals
for (int mask = 10, digits = 6; digits > 0; mask *= 10, --digits) {
if ((temp % mask) != 0) {
return digits;
}
}
return 0;
} else {
String buf = String.format(Locale.ENGLISH, "%1.15e", n);
int ePos = buf.lastIndexOf('e');
int expNumPos = ePos + 1;
if (buf.charAt(expNumPos) == '+') {
expNumPos++;
}
String exponentStr = buf.substring(expNumPos);
int exponent = Integer.parseInt(exponentStr);
int numFractionDigits = ePos - 2 - exponent;
if (numFractionDigits < 0) {
return 0;
}
for (int i=ePos-1; numFractionDigits > 0; --i) {
if (buf.charAt(i) != '0') {
break;
}
--numFractionDigits;
}
return numFractionDigits;
}
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimal (String n) {
// Ugly, but for samples we don't care.
this(Double.parseDouble(n), getVisibleFractionCount(n));
}
private static int getVisibleFractionCount(String value) {
value = value.trim();
int decimalPos = value.indexOf('.') + 1;
if (decimalPos == 0) {
return 0;
} else {
return value.length() - decimalPos;
}
}
/**
* {@inheritDoc}
*
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public double get(@SuppressLint("HiddenTypeParameter") Operand operand) {
switch(operand) {
default: return source;
case i: return integerValue;
case f: return decimalDigits;
case t: return decimalDigitsWithoutTrailingZeros;
case v: return visibleDecimalDigitCount;
case w: return visibleDecimalDigitCountWithoutTrailingZeros;
}
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@SuppressLint("HiddenTypeParameter")
public static Operand getOperand(String t) {
return Operand.valueOf(t);
}
/**
* We're not going to care about NaN.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public int compareTo(FixedDecimal other) {
if (integerValue != other.integerValue) {
return integerValue < other.integerValue ? -1 : 1;
}
if (source != other.source) {
return source < other.source ? -1 : 1;
}
if (visibleDecimalDigitCount != other.visibleDecimalDigitCount) {
return visibleDecimalDigitCount < other.visibleDecimalDigitCount ? -1 : 1;
}
long diff = decimalDigits - other.decimalDigits;
if (diff != 0) {
return diff < 0 ? -1 : 1;
}
return 0;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public boolean equals(Object arg0) {
if (arg0 == null) {
return false;
}
if (arg0 == this) {
return true;
}
if (!(arg0 instanceof FixedDecimal)) {
return false;
}
FixedDecimal other = (FixedDecimal)arg0;
return source == other.source && visibleDecimalDigitCount == other.visibleDecimalDigitCount && decimalDigits == other.decimalDigits;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public int hashCode() {
// TODO Auto-generated method stub
return (int)(decimalDigits + 37 * (visibleDecimalDigitCount + (int)(37 * source)));
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public String toString() {
return String.format("%." + visibleDecimalDigitCount + "f", source);
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public boolean hasIntegerValue() {
return hasIntegerValue;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public int intValue() {
// TODO Auto-generated method stub
return (int) integerValue;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public long longValue() {
return integerValue;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public float floatValue() {
return (float) source;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public double doubleValue() {
return isNegative ? -source : source;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public long getShiftedValue() {
return integerValue * baseFactor + decimalDigits;
}
private void writeObject(
ObjectOutputStream out)
throws IOException {
throw new NotSerializableException();
}
private void readObject(ObjectInputStream in
) throws IOException, ClassNotFoundException {
throw new NotSerializableException();
}
}
/**
* Selection parameter for either integer-only or decimal-only.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public enum SampleType {
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
INTEGER,
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
DECIMAL
}
/**
* A range of NumberInfo that includes all values with the same visibleFractionDigitCount.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public static class FixedDecimalRange {
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final FixedDecimal start;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final FixedDecimal end;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimalRange(FixedDecimal start, FixedDecimal end) {
if (start.visibleDecimalDigitCount != end.visibleDecimalDigitCount) {
throw new IllegalArgumentException("Ranges must have the same number of visible decimals: " + start + "~" + end);
}
this.start = start;
this.end = end;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public String toString() {
return start + (end.equals(start) ? "" : "~" + end);
}
}
/**
* A list of NumberInfo that includes all values with the same visibleFractionDigitCount.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public static class FixedDecimalSamples {
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final SampleType sampleType;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final Set<FixedDecimalRange> samples;
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public final boolean bounded;
/**
* The samples must be immutable.
* @param sampleType
* @param samples
*/
private FixedDecimalSamples(SampleType sampleType, Set<FixedDecimalRange> samples, boolean bounded) {
super();
this.sampleType = sampleType;
this.samples = samples;
this.bounded = bounded;
}
/*
* Parse a list of the form described in CLDR. The source must be trimmed.
*/
static FixedDecimalSamples parse(String source) {
SampleType sampleType2;
boolean bounded2 = true;
boolean haveBound = false;
Set<FixedDecimalRange> samples2 = new LinkedHashSet<>();
if (source.startsWith("integer")) {
sampleType2 = SampleType.INTEGER;
} else if (source.startsWith("decimal")) {
sampleType2 = SampleType.DECIMAL;
} else {
throw new IllegalArgumentException("Samples must start with 'integer' or 'decimal'");
}
source = source.substring(7).trim(); // remove both
for (String range : COMMA_SEPARATED.split(source, 0)) {
if (range.equals("…") || range.equals("...")) {
bounded2 = false;
haveBound = true;
continue;
}
if (haveBound) {
throw new IllegalArgumentException("Can only have … at the end of samples: " + range);
}
String[] rangeParts = TILDE_SEPARATED.split(range, 0);
switch (rangeParts.length) {
case 1:
FixedDecimal sample = new FixedDecimal(rangeParts[0]);
checkDecimal(sampleType2, sample);
samples2.add(new FixedDecimalRange(sample, sample));
break;
case 2:
FixedDecimal start = new FixedDecimal(rangeParts[0]);
FixedDecimal end = new FixedDecimal(rangeParts[1]);
checkDecimal(sampleType2, start);
checkDecimal(sampleType2, end);
samples2.add(new FixedDecimalRange(start, end));
break;
default: throw new IllegalArgumentException("Ill-formed number range: " + range);
}
}
return new FixedDecimalSamples(sampleType2, Collections.unmodifiableSet(samples2), bounded2);
}
private static void checkDecimal(SampleType sampleType2, FixedDecimal sample) {
if ((sampleType2 == SampleType.INTEGER) != (sample.getVisibleDecimalDigitCount() == 0)) {
throw new IllegalArgumentException("Ill-formed number range: " + sample);
}
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public Set<Double> addSamples(Set<Double> result) {
for (FixedDecimalRange item : samples) {
// we have to convert to longs so we don't get strange double issues
long startDouble = item.start.getShiftedValue();
long endDouble = item.end.getShiftedValue();
for (long d = startDouble; d <= endDouble; d += 1) {
result.add(d/(double)item.start.baseFactor);
}
}
return result;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
@Override
public String toString() {
StringBuilder b = new StringBuilder("@").append(sampleType.toString().toLowerCase(Locale.ENGLISH));
boolean first = true;
for (FixedDecimalRange item : samples) {
if (first) {
first = false;
} else {
b.append(",");
}
b.append(' ').append(item);
}
if (!bounded) {
b.append(", …");
}
return b.toString();
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public Set<FixedDecimalRange> getSamples() {
return samples;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public void getStartEndSamples(Set<FixedDecimal> target) {
for (FixedDecimalRange item : samples) {
target.add(item.start);
target.add(item.end);
}
}
}
/*
* A constraint on a number.
*/
private interface Constraint extends Serializable {
/*
* Returns true if the number fulfills the constraint.
* @param n the number to test, >= 0.
*/
boolean isFulfilled(FixedDecimal n);
/*
* Returns false if an unlimited number of values fulfills the
* constraint.
*/
boolean isLimited(SampleType sampleType);
}
private static final boolean isBreakAndIgnore(char c) {
return c <= 0x20 && (c == 0x20 || c == 9 || c == 0xa || c == 0xc || c == 0xd);
}
private static final boolean isBreakAndKeep(char c) {
return c <= '=' && c >= '!' && (c == '!' || c == '%' || c == ',' || c == '.' || c == '=');
}
static class SimpleTokenizer {
// static final UnicodeSet BREAK_AND_IGNORE = new UnicodeSet(0x09, 0x0a, 0x0c, 0x0d, 0x20, 0x20).freeze();
// static final UnicodeSet BREAK_AND_KEEP = new UnicodeSet('!', '!', '%', '%', ',', ',', '.', '.', '=', '=').freeze();
static String[] split(String source) {
int last = -1;
List<String> result = new ArrayList<>();
for (int i = 0; i < source.length(); ++i) {
char ch = source.charAt(i);
if (isBreakAndIgnore(ch) /* BREAK_AND_IGNORE.contains(ch) */) {
if (last >= 0) {
result.add(source.substring(last,i));
last = -1;
}
} else if (isBreakAndKeep(ch) /* BREAK_AND_KEEP.contains(ch) */) {
if (last >= 0) {
result.add(source.substring(last,i));
}
result.add(source.substring(i,i+1));
last = -1;
} else if (last < 0) {
last = i;
}
}
if (last >= 0) {
result.add(source.substring(last));
}
return result.toArray(new String[result.size()]);
}
}
/*
* syntax:
* condition : or_condition
* and_condition
* or_condition : and_condition 'or' condition
* and_condition : relation
* relation 'and' relation
* relation : in_relation
* within_relation
* in_relation : not? expr not? in not? range
* within_relation : not? expr not? 'within' not? range
* not : 'not'
* '!'
* expr : 'n'
* 'n' mod value
* mod : 'mod'
* '%'
* in : 'in'
* 'is'
* '='
* '≠'
* value : digit+
* digit : 0|1|2|3|4|5|6|7|8|9
* range : value'..'value
*/
private static Constraint parseConstraint(String description)
throws ParseException {
Constraint result = null;
String[] or_together = OR_SEPARATED.split(description, 0);
for (int i = 0; i < or_together.length; ++i) {
Constraint andConstraint = null;
String[] and_together = AND_SEPARATED.split(or_together[i], 0);
for (int j = 0; j < and_together.length; ++j) {
Constraint newConstraint = NO_CONSTRAINT;
String condition = and_together[j].trim();
String[] tokens = SimpleTokenizer.split(condition);
int mod = 0;
boolean inRange = true;
boolean integersOnly = true;
double lowBound = Long.MAX_VALUE;
double highBound = Long.MIN_VALUE;
long[] vals = null;
int x = 0;
String t = tokens[x++];
boolean hackForCompatibility = false;
Operand operand;
try {
operand = FixedDecimal.getOperand(t);
} catch (Exception e) {
throw unexpected(t, condition);
}
if (x < tokens.length) {
t = tokens[x++];
if ("mod".equals(t) || "%".equals(t)) {
mod = Integer.parseInt(tokens[x++]);
t = nextToken(tokens, x++, condition);
}
if ("not".equals(t)) {
inRange = !inRange;
t = nextToken(tokens, x++, condition);
if ("=".equals(t)) {
throw unexpected(t, condition);
}
} else if ("!".equals(t)) {
inRange = !inRange;
t = nextToken(tokens, x++, condition);
if (!"=".equals(t)) {
throw unexpected(t, condition);
}
}
if ("is".equals(t) || "in".equals(t) || "=".equals(t)) {
hackForCompatibility = "is".equals(t);
if (hackForCompatibility && !inRange) {
throw unexpected(t, condition);
}
t = nextToken(tokens, x++, condition);
} else if ("within".equals(t)) {
integersOnly = false;
t = nextToken(tokens, x++, condition);
} else {
throw unexpected(t, condition);
}
if ("not".equals(t)) {
if (!hackForCompatibility && !inRange) {
throw unexpected(t, condition);
}
inRange = !inRange;
t = nextToken(tokens, x++, condition);
}
List<Long> valueList = new ArrayList<>();
// the token t is always one item ahead
while (true) {
long low = Long.parseLong(t);
long high = low;
if (x < tokens.length) {
t = nextToken(tokens, x++, condition);
if (t.equals(".")) {
t = nextToken(tokens, x++, condition);
if (!t.equals(".")) {
throw unexpected(t, condition);
}
t = nextToken(tokens, x++, condition);
high = Long.parseLong(t);
if (x < tokens.length) {
t = nextToken(tokens, x++, condition);
if (!t.equals(",")) { // adjacent number: 1 2
// no separator, fail
throw unexpected(t, condition);
}
}
} else if (!t.equals(",")) { // adjacent number: 1 2
// no separator, fail
throw unexpected(t, condition);
}
}
// at this point, either we are out of tokens, or t is ','
if (low > high) {
throw unexpected(low + "~" + high, condition);
} else if (mod != 0 && high >= mod) {
throw unexpected(high + ">mod=" + mod, condition);
}
valueList.add(low);
valueList.add(high);
lowBound = Math.min(lowBound, low);
highBound = Math.max(highBound, high);
if (x >= tokens.length) {
break;
}
t = nextToken(tokens, x++, condition);
}
if (t.equals(",")) {
throw unexpected(t, condition);
}
if (valueList.size() == 2) {
vals = null;
} else {
vals = new long[valueList.size()];
for (int k = 0; k < vals.length; ++k) {
vals[k] = valueList.get(k);
}
}
// Hack to exclude "is not 1,2"
if (lowBound != highBound && hackForCompatibility && !inRange) {
throw unexpected("is not <range>", condition);
}
newConstraint =
new RangeConstraint(mod, inRange, operand, integersOnly, lowBound, highBound, vals);
}
if (andConstraint == null) {
andConstraint = newConstraint;
} else {
andConstraint = new AndConstraint(andConstraint,
newConstraint);
}
}
if (result == null) {
result = andConstraint;
} else {
result = new OrConstraint(result, andConstraint);
}
}
return result;
}
static final Pattern AT_SEPARATED = Pattern.compile("\s*\Q\E@\s*");
static final Pattern OR_SEPARATED = Pattern.compile("\s*or\s*");
static final Pattern AND_SEPARATED = Pattern.compile("\s*and\s*");
static final Pattern COMMA_SEPARATED = Pattern.compile("\s*,\s*");
static final Pattern DOTDOT_SEPARATED = Pattern.compile("\s*\Q..\E\s*");
static final Pattern TILDE_SEPARATED = Pattern.compile("\s*~\s*");
static final Pattern SEMI_SEPARATED = Pattern.compile("\s*;\s*");
/* Returns a parse exception wrapping the token and context strings. */
private static ParseException unexpected(String token, String context) {
return new ParseException("unexpected token '" + token +
"' in '" + context + "'", -1);
}
/*
* Returns the token at x if available, else throws a parse exception.
*/
private static String nextToken(String[] tokens, int x, String context)
throws ParseException {
if (x < tokens.length) {
return tokens[x];
}
throw new ParseException("missing token at end of '" + context + "'", -1);
}
/*
* Syntax:
* rule : keyword ':' condition
* keyword: <identifier>
*/
private static Rule parseRule(String description) throws ParseException {
if (description.length() == 0) {
return DEFAULT_RULE;
}
description = description.toLowerCase(Locale.ENGLISH);
int x = description.indexOf(':');
if (x == -1) {
throw new ParseException("missing ':' in rule description '" +
description + "'", 0);
}
String keyword = description.substring(0, x).trim();
if (!isValidKeyword(keyword)) {
throw new ParseException("keyword '" + keyword +
" is not valid", 0);
}
description = description.substring(x+1).trim();
String[] constraintOrSamples = AT_SEPARATED.split(description, 0);
boolean sampleFailure = false;
FixedDecimalSamples integerSamples = null, decimalSamples = null;
switch (constraintOrSamples.length) {
case 1: break;
case 2:
integerSamples = FixedDecimalSamples.parse(constraintOrSamples[1]);
if (integerSamples.sampleType == SampleType.DECIMAL) {
decimalSamples = integerSamples;
integerSamples = null;
}
break;
case 3:
integerSamples = FixedDecimalSamples.parse(constraintOrSamples[1]);
decimalSamples = FixedDecimalSamples.parse(constraintOrSamples[2]);
if (integerSamples.sampleType != SampleType.INTEGER || decimalSamples.sampleType != SampleType.DECIMAL) {
throw new IllegalArgumentException("Must have @integer then @decimal in " + description);
}
break;
default:
throw new IllegalArgumentException("Too many samples in " + description);
}
if (sampleFailure) {
throw new IllegalArgumentException("Ill-formed samples—'@' characters.");
}
// 'other' is special, and must have no rules; all other keywords must have rules.
boolean isOther = keyword.equals("other");
if (isOther != (constraintOrSamples[0].length() == 0)) {
throw new IllegalArgumentException("The keyword 'other' must have no constraints, just samples.");
}
Constraint constraint;
if (isOther) {
constraint = NO_CONSTRAINT;
} else {
constraint = parseConstraint(constraintOrSamples[0]);
}
return new Rule(keyword, constraint, integerSamples, decimalSamples);
}
/*
* Syntax:
* rules : rule
* rule ';' rules
*/
private static RuleList parseRuleChain(String description)
throws ParseException {
RuleList result = new RuleList();
// remove trailing ;
if (description.endsWith(";")) {
description = description.substring(0,description.length()-1);
}
String[] rules = SEMI_SEPARATED.split(description, 0);
for (int i = 0; i < rules.length; ++i) {
Rule rule = parseRule(rules[i].trim());
result.hasExplicitBoundingInfo |= rule.integerSamples != null || rule.decimalSamples != null;
result.addRule(rule);
}
return result.finish();
}
/*
* An implementation of Constraint representing a modulus,
* a range of values, and include/exclude. Provides lots of
* convenience factory methods.
*/
private static class RangeConstraint implements Constraint, Serializable {
private static final long serialVersionUID = 1;
private final int mod;
private final boolean inRange;
private final boolean integersOnly;
private final double lowerBound;
private final double upperBound;
private final long[] range_list;
private final Operand operand;
RangeConstraint(int mod, boolean inRange, Operand operand, boolean integersOnly,
double lowBound, double highBound, long[] vals) {
this.mod = mod;
this.inRange = inRange;
this.integersOnly = integersOnly;
this.lowerBound = lowBound;
this.upperBound = highBound;
this.range_list = vals;
this.operand = operand;
}
@Override
public boolean isFulfilled(FixedDecimal number) {
double n = number.get(operand);
if ((integersOnly && (n - (long)n) != 0.0)
|| (operand == Operand.j && number.visibleDecimalDigitCount != 0)) {
return !inRange;
}
if (mod != 0) {
n = n % mod; // java % handles double numerator the way we want
}
boolean test = n >= lowerBound && n <= upperBound;
if (test && range_list != null) {
test = false;
for (int i = 0; !test && i < range_list.length; i += 2) {
test = n >= range_list[i] && n <= range_list[i+1];
}
}
return inRange == test;
}
@Override
public boolean isLimited(SampleType sampleType) {
boolean valueIsZero = lowerBound == upperBound && lowerBound == 0d;
boolean hasDecimals =
(operand == Operand.v || operand == Operand.w || operand == Operand.f || operand == Operand.t)
&& inRange != valueIsZero; // either NOT f = zero or f = non-zero
switch (sampleType) {
case INTEGER:
return hasDecimals // will be empty
|| ((operand == Operand.n || operand == Operand.i || operand == Operand.j)
&& mod == 0
&& inRange);
case DECIMAL:
return (!hasDecimals || operand == Operand.n || operand == Operand.j)
&& (integersOnly || lowerBound == upperBound)
&& mod == 0
&& inRange;
}
return false;
}
@Override
public String toString() {
StringBuilder result = new StringBuilder();
result.append(operand);
if (mod != 0) {
result.append(" % ").append(mod);
}
boolean isList = lowerBound != upperBound;
result.append(
!isList ? (inRange ? " = " : " != ")
: integersOnly ? (inRange ? " = " : " != ")
: (inRange ? " within " : " not within ")
);
if (range_list != null) {
for (int i = 0; i < range_list.length; i += 2) {
addRange(result, range_list[i], range_list[i+1], i != 0);
}
} else {
addRange(result, lowerBound, upperBound, false);
}
return result.toString();
}
}
private static void addRange(StringBuilder result, double lb, double ub, boolean addSeparator) {
if (addSeparator) {
result.append(",");
}
if (lb == ub) {
result.append(format(lb));
} else {
result.append(format(lb) + ".." + format(ub));
}
}
private static String format(double lb) {
long lbi = (long) lb;
return lb == lbi ? String.valueOf(lbi) : String.valueOf(lb);
}
/* Convenience base class for and/or constraints. */
private static abstract class BinaryConstraint implements Constraint,
Serializable {
private static final long serialVersionUID = 1;
protected final Constraint a;
protected final Constraint b;
protected BinaryConstraint(Constraint a, Constraint b) {
this.a = a;
this.b = b;
}
}
/* A constraint representing the logical and of two constraints. */
private static class AndConstraint extends BinaryConstraint {
private static final long serialVersionUID = 7766999779862263523L;
AndConstraint(Constraint a, Constraint b) {
super(a, b);
}
@Override
public boolean isFulfilled(FixedDecimal n) {
return a.isFulfilled(n)
&& b.isFulfilled(n);
}
@Override
public boolean isLimited(SampleType sampleType) {
// we ignore the case where both a and b are unlimited but no values
// satisfy both-- we still consider this 'unlimited'
return a.isLimited(sampleType)
|| b.isLimited(sampleType);
}
@Override
public String toString() {
return a.toString() + " and " + b.toString();
}
}
/* A constraint representing the logical or of two constraints. */
private static class OrConstraint extends BinaryConstraint {
private static final long serialVersionUID = 1405488568664762222L;
OrConstraint(Constraint a, Constraint b) {
super(a, b);
}
@Override
public boolean isFulfilled(FixedDecimal n) {
return a.isFulfilled(n)
|| b.isFulfilled(n);
}
@Override
public boolean isLimited(SampleType sampleType) {
return a.isLimited(sampleType)
&& b.isLimited(sampleType);
}
@Override
public String toString() {
return a.toString() + " or " + b.toString();
}
}
/*
* Implementation of Rule that uses a constraint.
* Provides 'and' and 'or' to combine constraints. Immutable.
*/
private static class Rule implements Serializable {
private static final long serialVersionUID = 1;
private final String keyword;
private final Constraint constraint;
private final FixedDecimalSamples integerSamples;
private final FixedDecimalSamples decimalSamples;
public Rule(String keyword, Constraint constraint, FixedDecimalSamples integerSamples, FixedDecimalSamples decimalSamples) {
this.keyword = keyword;
this.constraint = constraint;
this.integerSamples = integerSamples;
this.decimalSamples = decimalSamples;
}
@SuppressWarnings("unused")
public Rule and(Constraint c) {
return new Rule(keyword, new AndConstraint(constraint, c), integerSamples, decimalSamples);
}
@SuppressWarnings("unused")
public Rule or(Constraint c) {
return new Rule(keyword, new OrConstraint(constraint, c), integerSamples, decimalSamples);
}
public String getKeyword() {
return keyword;
}
public boolean appliesTo(FixedDecimal n) {
return constraint.isFulfilled(n);
}
public boolean isLimited(SampleType sampleType) {
return constraint.isLimited(sampleType);
}
@Override
public String toString() {
return keyword + ": " + constraint.toString()
+ (integerSamples == null ? "" : " " + integerSamples.toString())
+ (decimalSamples == null ? "" : " " + decimalSamples.toString());
}
/**
* {@inheritDoc}
* icu_annot::stable ICU 3.8
*/
@Override
public int hashCode() {
return keyword.hashCode() ^ constraint.hashCode();
}
public String getConstraint() {
return constraint.toString();
}
}
private static class RuleList implements Serializable {
private boolean hasExplicitBoundingInfo = false;
private static final long serialVersionUID = 1;
private final List<Rule> rules = new ArrayList<>();
public RuleList addRule(Rule nextRule) {
String keyword = nextRule.getKeyword();
for (Rule rule : rules) {
if (keyword.equals(rule.getKeyword())) {
throw new IllegalArgumentException("Duplicate keyword: " + keyword);
}
}
rules.add(nextRule);
return this;
}
public RuleList finish() throws ParseException {
// make sure that 'other' is present, and at the end.
Rule otherRule = null;
for (Iterator<Rule> it = rules.iterator(); it.hasNext();) {
Rule rule = it.next();
if ("other".equals(rule.getKeyword())) {
otherRule = rule;
it.remove();
}
}
if (otherRule == null) {
otherRule = parseRule("other:"); // make sure we have always have an 'other' a rule
}
rules.add(otherRule);
return this;
}
private Rule selectRule(FixedDecimal n) {
for (Rule rule : rules) {
if (rule.appliesTo(n)) {
return rule;
}
}
return null;
}
public String select(FixedDecimal n) {
if (Double.isInfinite(n.source) || Double.isNaN(n.source)) {
return KEYWORD_OTHER;
}
Rule r = selectRule(n);
return r.getKeyword();
}
public Set<String> getKeywords() {
Set<String> result = new LinkedHashSet<>();
for (Rule rule : rules) {
result.add(rule.getKeyword());
}
// since we have explicit 'other', we don't need this.
//result.add(KEYWORD_OTHER);
return result;
}
public boolean isLimited(String keyword, SampleType sampleType) {
if (hasExplicitBoundingInfo) {
FixedDecimalSamples mySamples = getDecimalSamples(keyword, sampleType);
return mySamples == null ? true : mySamples.bounded;
}
return computeLimited(keyword, sampleType);
}
public boolean computeLimited(String keyword, SampleType sampleType) {
// if all rules with this keyword are limited, it's limited,
// and if there's no rule with this keyword, it's unlimited
boolean result = false;
for (Rule rule : rules) {
if (keyword.equals(rule.getKeyword())) {
if (!rule.isLimited(sampleType)) {
return false;
}
result = true;
}
}
return result;
}
@Override
public String toString() {
StringBuilder builder = new StringBuilder();
for (Rule rule : rules) {
if (builder.length() != 0) {
builder.append(CATEGORY_SEPARATOR);
}
builder.append(rule);
}
return builder.toString();
}
public String getRules(String keyword) {
for (Rule rule : rules) {
if (rule.getKeyword().equals(keyword)) {
return rule.getConstraint();
}
}
return null;
}
public boolean select(FixedDecimal sample, String keyword) {
for (Rule rule : rules) {
if (rule.getKeyword().equals(keyword) && rule.appliesTo(sample)) {
return true;
}
}
return false;
}
public FixedDecimalSamples getDecimalSamples(String keyword, SampleType sampleType) {
for (Rule rule : rules) {
if (rule.getKeyword().equals(keyword)) {
return sampleType == SampleType.INTEGER ? rule.integerSamples : rule.decimalSamples;
}
}
return null;
}
}
/**
* This API is ICU internal only.
* icu_annot::internal
*/
// @Deprecated: in fact internal ICU
public enum StandardPluralCategories {
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
zero,
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
one,
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
two,
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
few,
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
many,
/**
* icu_annot::internal
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
other;
static StandardPluralCategories forString(String s) {
StandardPluralCategories a;
try {
a = valueOf(s);
} catch (Exception e) {
return null;
}
return a;
}
}
@SuppressWarnings("unused")
private boolean addConditional(Set<FixedDecimal> toAddTo, Set<FixedDecimal> others, double trial) {
boolean added;
FixedDecimal toAdd = new FixedDecimal(trial);
if (!toAddTo.contains(toAdd) && !others.contains(toAdd)) {
others.add(toAdd);
added = true;
} else {
added = false;
}
return added;
}
// -------------------------------------------------------------------------
// Static class methods.
// -------------------------------------------------------------------------
/**
* Provides access to the predefined cardinal-number <code>PluralRules</code> for a given
* {@link java.util.Locale}.
* Same as forLocale(locale, PluralType.CARDINAL).
*
* <p>ICU defines plural rules for many locales based on CLDR <i>Language Plural Rules</i>.
* For these predefined rules, see CLDR page at
* https://unicode-org.github.io/cldr-staging/charts/latest/supplemental/language_plural_rules.html
*
* @param locale The locale for which a <code>PluralRules</code> object is
* returned.
* @return The predefined <code>PluralRules</code> object for this locale.
* If there's no predefined rules for this locale, the rules
* for the closest parent in the locale hierarchy that has one will
* be returned. The final fallback always returns the default
* rules.
* icu_annot::stable ICU 54
*/
public static PluralRules forLocale(Locale locale) {
return forLocale(locale, PluralType.CARDINAL);
}
/**
* Provides access to the predefined <code>PluralRules</code> for a given
* locale and the plural type.
*
* <p>ICU defines plural rules for many locales based on CLDR <i>Language Plural Rules</i>.
* For these predefined rules, see CLDR page at
* https://unicode-org.github.io/cldr-staging/charts/latest/supplemental/language_plural_rules.html
*
* @param locale The locale for which a <code>PluralRules</code> object is
* returned.
* @param type The plural type (e.g., cardinal or ordinal).
* @return The predefined <code>PluralRules</code> object for this locale.
* If there's no predefined rules for this locale, the rules
* for the closest parent in the locale hierarchy that has one will
* be returned. The final fallback always returns the default
* rules.
* icu_annot::stable ICU 50
*/
public static PluralRules forLocale(Locale locale, PluralType type) {
return Factory.getDefaultFactory().forLocale(locale, type);
}
/*
* Checks whether a token is a valid keyword.
*
* @param token the token to be checked
* @return true if the token is a valid keyword.
*/
private static boolean isValidKeyword(String token) {
// return ALLOWED_ID.containsAll(token);
for (int i = 0; i < token.length(); ++i) {
char c = token.charAt(i);
if (!('a' <= c && c <= 'z')) {
return false;
}
}
return true;
}
/*
* Creates a new <code>PluralRules</code> object. Immutable.
*/
private PluralRules(RuleList rules) {
this.rules = rules;
this.keywords = Collections.unmodifiableSet(rules.getKeywords());
}
/**
* {@inheritDoc}
* icu_annot::stable ICU 3.8
*/
@Override
public int hashCode() {
return rules.hashCode();
}
/**
* Given a floating-point number, returns the keyword of the first rule
* that applies to the number.
*
* @param number The number for which the rule has to be determined.
* @return The keyword of the selected rule.
* icu_annot::stable ICU 4.0
*/
public String select(double number) {
return rules.select(new FixedDecimal(number));
}
/**
* Given a number, returns the keyword of the first rule that applies to
* the number.
*
* @param number The number for which the rule has to be determined.
* @return The keyword of the selected rule.
* icu_annot::internal Visible For Testing
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public String select(double number, int countVisibleFractionDigits, long fractionaldigits) {
return rules.select(new FixedDecimal(number, countVisibleFractionDigits, fractionaldigits));
}
/**
* Given a number information, returns the keyword of the first rule that applies to
* the number.
*
* @param number The number information for which the rule has to be determined.
* @return The keyword of the selected rule.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public String select(FixedDecimal number) {
return rules.select(number);
}
/**
* Given a number information, and keyword, return whether the keyword would match the number.
*
* @param sample The number information for which the rule has to be determined.
* @param keyword The keyword to filter on
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public boolean matches(FixedDecimal sample, String keyword) {
return rules.select(sample, keyword);
}
/**
* Returns a set of all rule keywords used in this <code>PluralRules</code>
* object. The rule "other" is always present by default.
*
* @return The set of keywords.
* icu_annot::stable ICU 3.8
*/
public Set<String> getKeywords() {
return keywords;
}
/**
* Returns the unique value that this keyword matches, or {@link #NO_UNIQUE_VALUE}
* if the keyword matches multiple values or is not defined for this PluralRules.
*
* @param keyword the keyword to check for a unique value
* @return The unique value for the keyword, or NO_UNIQUE_VALUE.
* icu_annot::stable ICU 4.8
*/
public double getUniqueKeywordValue(String keyword) {
Collection<Double> values = getAllKeywordValues(keyword);
if (values != null && values.size() == 1) {
return values.iterator().next();
}
return NO_UNIQUE_VALUE;
}
/**
* Returns all the values that trigger this keyword, or null if the number of such
* values is unlimited.
*
* @param keyword the keyword
* @return the values that trigger this keyword, or null. The returned collection
* is immutable. It will be empty if the keyword is not defined.
* icu_annot::stable ICU 4.8
*/
public Collection<Double> getAllKeywordValues(String keyword) {
return getAllKeywordValues(keyword, SampleType.INTEGER);
}
/**
* Returns all the values that trigger this keyword, or null if the number of such
* values is unlimited.
*
* @param keyword the keyword
* @param type the type of samples requested, INTEGER or DECIMAL
* @return the values that trigger this keyword, or null. The returned collection
* is immutable. It will be empty if the keyword is not defined.
*
* icu_annot::internal Visible For Testing
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public Collection<Double> getAllKeywordValues(String keyword, SampleType type) {
if (!isLimited(keyword, type)) {
return null;
}
Collection<Double> samples = getSamples(keyword, type);
return samples == null ? null : Collections.unmodifiableCollection(samples);
}
/**
* Returns a list of integer values for which select() would return that keyword,
* or null if the keyword is not defined. The returned collection is unmodifiable.
* The returned list is not complete, and there might be additional values that
* would return the keyword.
*
* @param keyword the keyword to test
* @return a list of values matching the keyword.
* icu_annot::stable ICU 4.8
*/
public Collection<Double> getSamples(String keyword) {
return getSamples(keyword, SampleType.INTEGER);
}
/**
* Returns a list of values for which select() would return that keyword,
* or null if the keyword is not defined.
* The returned collection is unmodifiable.
* The returned list is not complete, and there might be additional values that
* would return the keyword. The keyword might be defined, and yet have an empty set of samples,
* IF there are samples for the other sampleType.
*
* @param keyword the keyword to test
* @param sampleType the type of samples requested, INTEGER or DECIMAL
* @return a list of values matching the keyword.
* icu_annot::internal CLDR
* @deprecated ICU internal only
*/
// @Deprecated: in fact internal ICU
public Collection<Double> getSamples(String keyword, SampleType sampleType) {
if (!keywords.contains(keyword)) {
return null;
}
Set<Double> result = new TreeSet<>();
if (rules.hasExplicitBoundingInfo) {
FixedDecimalSamples samples = rules.getDecimalSamples(keyword, sampleType);
return samples == null ? Collections.unmodifiableSet(result)
: Collections.unmodifiableSet(samples.addSamples(result));
}
// hack in case the rule is created without explicit samples
int maxCount = isLimited(keyword, sampleType) ? Integer.MAX_VALUE : 20;
switch (sampleType) {
case INTEGER:
for (int i = 0; i < 200; ++i) {
if (!addSample(keyword, i, maxCount, result)) {
break;
}
}
addSample(keyword, 1000000, maxCount, result); // hack for Welsh
break;
case DECIMAL:
for (int i = 0; i < 2000; ++i) {
if (!addSample(keyword, new FixedDecimal(i/10d, 1), maxCount, result)) {
break;
}
}
addSample(keyword, new FixedDecimal(1000000d, 1), maxCount, result); // hack for Welsh
break;
}
return result.size() == 0 ? null : Collections.unmodifiableSet(result);
}
private boolean addSample(String keyword, Number sample, int maxCount, Set<Double> result) {
String selectedKeyword = sample instanceof FixedDecimal ? select((FixedDecimal)sample) : select(sample.doubleValue());
if (selectedKeyword.equals(keyword)) {
result.add(sample.doubleValue());
if (--maxCount < 0) {
return false;
}
}
return true;
}
/**
* Returns a list of values for which select() would return that keyword,
* or null if the keyword is not defined or no samples are available.
* The returned collection is unmodifiable.
* The returned list is not complete, and there might be additional values that
* would return the keyword.
*
* @param keyword the keyword to test
* @param sampleType the type of samples requested, INTEGER or DECIMAL
* @return a list of values matching the keyword.
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public FixedDecimalSamples getDecimalSamples(String keyword, SampleType sampleType) {
return rules.getDecimalSamples(keyword, sampleType);
}
/**
* Returns the set of locales for which PluralRules are known.
* @return the set of locales for which PluralRules are known, as a list
* icu_annot::draft ICU 4.2 (retain)
public static ULocale[] getAvailableULocales() {
return Factory.getDefaultFactory().getAvailableULocales();
}
*/
/**
* Returns the 'functionally equivalent' locale with respect to
* plural rules. Calling PluralRules.forLocale with the functionally equivalent
* locale, and with the provided locale, returns rules that behave the same.
* <br/>
* All locales with the same functionally equivalent locale have
* plural rules that behave the same. This is not exhaustive;
* there may be other locales whose plural rules behave the same
* that do not have the same equivalent locale.
*
* @param locale the locale to check
* @param isAvailable if not null and of length > 0, this will hold 'true' at
* index 0 if locale is directly defined (without fallback) as having plural rules
* @return the functionally-equivalent locale
* icu_annot::draft ICU 4.2 (retain)
public static ULocale getFunctionalEquivalent(ULocale locale, boolean[] isAvailable) {
return Factory.getDefaultFactory().getFunctionalEquivalent(locale, isAvailable);
}
*/
/**
* {@inheritDoc}
* icu_annot::stable ICU 3.8
*/
@Override
public String toString() {
return rules.toString();
}
/**
* {@inheritDoc}
* icu_annot::stable ICU 3.8
*/
@Override
public boolean equals(Object rhs) {
// return rhs instanceof PluralRules && equals((PluralRules)rhs);
return rhs instanceof PluralRules && toString().equals(rhs.toString());
}
/**
* Returns true if rhs is equal to this.
* @param rhs the PluralRules to compare to.
* @return true if this and rhs are equal.
* icu_annot::stable ICU 3.8
*/
// TODO Optimize this
// public boolean equals(PluralRules rhs) {
// return rhs != null && toString().equals(rhs.toString());
// }
/**
* Status of the keyword for the rules, given a set of explicit values.
*
* icu_annot::draft ICU 50
*/
public enum KeywordStatus {
/**
* The keyword is not valid for the rules.
*
* icu_annot::draft ICU 50
*/
INVALID,
/**
* The keyword is valid, but unused (it is covered by the explicit values, OR has no values for the given {@link SampleType}).
*
* icu_annot::draft ICU 50
*/
SUPPRESSED,
/**
* The keyword is valid, used, and has a single possible value (before considering explicit values).
*
* icu_annot::draft ICU 50
*/
UNIQUE,
/**
* The keyword is valid, used, not unique, and has a finite set of values.
*
* icu_annot::draft ICU 50
*/
BOUNDED,
/**
* The keyword is valid but not bounded; there indefinitely many matching values.
*
* icu_annot::draft ICU 50
*/
UNBOUNDED
}
/**
* Find the status for the keyword, given a certain set of explicit values.
*
* @param keyword
* the particular keyword (call rules.getKeywords() to get the valid ones)
* @param offset
* the offset used, or 0.0d if not. Internally, the offset is subtracted from each explicit value before
* checking against the keyword values.
* @param explicits
* a set of Doubles that are used explicitly (eg [=0], "[=1]"). May be empty or null.
* @param uniqueValue
* If non null, set to the unique value.
* @return the KeywordStatus
* icu_annot::draft ICU 50
*/
public KeywordStatus getKeywordStatus(String keyword, int offset, Set<Double> explicits,
Output<Double> uniqueValue) {
return getKeywordStatus(keyword, offset, explicits, uniqueValue, SampleType.INTEGER);
}
/**
* Find the status for the keyword, given a certain set of explicit values.
*
* @param keyword
* the particular keyword (call rules.getKeywords() to get the valid ones)
* @param offset
* the offset used, or 0.0d if not. Internally, the offset is subtracted from each explicit value before
* checking against the keyword values.
* @param explicits
* a set of Doubles that are used explicitly (eg [=0], "[=1]"). May be empty or null.
* @param sampleType
* request KeywordStatus relative to INTEGER or DECIMAL values
* @param uniqueValue
* If non null, set to the unique value.
* @return the KeywordStatus
* icu_annot::internal Visible For Testing
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public KeywordStatus getKeywordStatus(String keyword, int offset, Set<Double> explicits,
Output<Double> uniqueValue, SampleType sampleType) {
if (uniqueValue != null) {
uniqueValue.value = null;
}
if (!keywords.contains(keyword)) {
return KeywordStatus.INVALID;
}
if (!isLimited(keyword, sampleType)) {
return KeywordStatus.UNBOUNDED;
}
Collection<Double> values = getSamples(keyword, sampleType);
int originalSize = values.size();
if (explicits == null) {
explicits = Collections.emptySet();
}
// Quick check on whether there are multiple elements
if (originalSize > explicits.size()) {
if (originalSize == 1) {
if (uniqueValue != null) {
uniqueValue.value = values.iterator().next();
}
return KeywordStatus.UNIQUE;
}
return KeywordStatus.BOUNDED;
}
// Compute if the quick test is insufficient.
HashSet<Double> subtractedSet = new HashSet<>(values);
for (Double explicit : explicits) {
subtractedSet.remove(explicit - offset);
}
if (subtractedSet.size() == 0) {
return KeywordStatus.SUPPRESSED;
}
if (uniqueValue != null && subtractedSet.size() == 1) {
uniqueValue.value = subtractedSet.iterator().next();
}
return originalSize == 1 ? KeywordStatus.UNIQUE : KeywordStatus.BOUNDED;
}
/**
* icu_annot::internal CLDR
* This API is ICU internal only.
*/
// @Deprecated: in fact internal ICU
public String getRules(String keyword) {
return rules.getRules(keyword);
}
/*
private void writeObject(
ObjectOutputStream out)
throws IOException {
throw new NotSerializableException();
}
private void readObject(ObjectInputStream in
) throws IOException, ClassNotFoundException {
throw new NotSerializableException();
}
private Object writeReplace() throws ObjectStreamException {
return new PluralRulesSerialProxy(toString());
}
*/
/**
* icu_annot::internal CLDR
* @deprecated internal
*/
// @Deprecated: in fact internal ICU
public int compareTo(PluralRules other) {
return toString().compareTo(other.toString());
}
Boolean isLimited(String keyword) {
return rules.isLimited(keyword, SampleType.INTEGER);
}
/**
* icu_annot::internal Visible For Testing
* @deprecated internal
*/
// @Deprecated: in fact internal ICU
public boolean isLimited(String keyword, SampleType sampleType) {
return rules.isLimited(keyword, sampleType);
}
/**
* icu_annot::internal CLDR
* @deprecated internal
*/
// @Deprecated: in fact internal ICU
public boolean computeLimited(String keyword, SampleType sampleType) {
return rules.computeLimited(keyword, sampleType);
}
}