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The Apache Commons Codec component contains encoders and decoders for various formats such as Base16, Base32, Base64, digest, and Hexadecimal. In addition to these widely used encoders and decoders, the codec package also maintains a collection of phonetic encoding utilities. This is a port for GWT, which enables program, to use Apache Commons Codec also in the frontend compiled by the gwt compiler to java-script.

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/*
 * Licensed to the Apache Software Foundation (ASF) under one or more
 * contributor license agreements.  See the NOTICE file distributed with
 * this work for additional information regarding copyright ownership.
 * The ASF licenses this file to You under the Apache License, Version 2.0
 * (the "License"); you may not use this file except in compliance with
 * the License.  You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
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 */

package org.apache.commons.codec.language;

import org.apache.commons.codec.EncoderException;
import org.apache.commons.codec.StringEncoder;
import org.apache.commons.codec.binary.StringUtils;

/**
 * Encodes a string into a double metaphone value. This Implementation is based on the algorithm by Lawrence
 * Philips.
 * 

* This class is conditionally thread-safe. The instance field for the maximum code length is mutable * {@link #setMaxCodeLen(int)} but is not volatile, and accesses are not synchronized. If an instance of the class is * shared between threads, the caller needs to ensure that suitable synchronization is used to ensure safe publication * of the value between threads, and must not invoke {@link #setMaxCodeLen(int)} after initial setup. * * @see Original Article * @see http://en.wikipedia.org/wiki/Metaphone * */ public class DoubleMetaphone implements StringEncoder { /** * "Vowels" to test for */ private static final String VOWELS = "AEIOUY"; /** * Prefixes when present which are not pronounced */ private static final String[] SILENT_START = { "GN", "KN", "PN", "WR", "PS" }; private static final String[] L_R_N_M_B_H_F_V_W_SPACE = { "L", "R", "N", "M", "B", "H", "F", "V", "W", " " }; private static final String[] ES_EP_EB_EL_EY_IB_IL_IN_IE_EI_ER = { "ES", "EP", "EB", "EL", "EY", "IB", "IL", "IN", "IE", "EI", "ER" }; private static final String[] L_T_K_S_N_M_B_Z = { "L", "T", "K", "S", "N", "M", "B", "Z" }; /** * Maximum length of an encoding, default is 4 */ private int maxCodeLen = 4; /** * Creates an instance of this DoubleMetaphone encoder */ public DoubleMetaphone() { super(); } /** * Encode a value with Double Metaphone. * * @param value String to encode * @return an encoded string */ public String doubleMetaphone(final String value) { return doubleMetaphone(value, false); } /** * Encode a value with Double Metaphone, optionally using the alternate encoding. * * @param value String to encode * @param alternate use alternate encode * @return an encoded string */ public String doubleMetaphone(String value, final boolean alternate) { value = cleanInput(value); if (value == null) { return null; } final boolean slavoGermanic = isSlavoGermanic(value); int index = isSilentStart(value) ? 1 : 0; final DoubleMetaphoneResult result = new DoubleMetaphoneResult(this.getMaxCodeLen()); while (!result.isComplete() && index <= value.length() - 1) { switch (value.charAt(index)) { case 'A': case 'E': case 'I': case 'O': case 'U': case 'Y': index = handleAEIOUY(result, index); break; case 'B': result.append('P'); index = charAt(value, index + 1) == 'B' ? index + 2 : index + 1; break; case '\u00C7': // A C with a Cedilla result.append('S'); index++; break; case 'C': index = handleC(value, result, index); break; case 'D': index = handleD(value, result, index); break; case 'F': result.append('F'); index = charAt(value, index + 1) == 'F' ? index + 2 : index + 1; break; case 'G': index = handleG(value, result, index, slavoGermanic); break; case 'H': index = handleH(value, result, index); break; case 'J': index = handleJ(value, result, index, slavoGermanic); break; case 'K': result.append('K'); index = charAt(value, index + 1) == 'K' ? index + 2 : index + 1; break; case 'L': index = handleL(value, result, index); break; case 'M': result.append('M'); index = conditionM0(value, index) ? index + 2 : index + 1; break; case 'N': result.append('N'); index = charAt(value, index + 1) == 'N' ? index + 2 : index + 1; break; case '\u00D1': // N with a tilde (spanish ene) result.append('N'); index++; break; case 'P': index = handleP(value, result, index); break; case 'Q': result.append('K'); index = charAt(value, index + 1) == 'Q' ? index + 2 : index + 1; break; case 'R': index = handleR(value, result, index, slavoGermanic); break; case 'S': index = handleS(value, result, index, slavoGermanic); break; case 'T': index = handleT(value, result, index); break; case 'V': result.append('F'); index = charAt(value, index + 1) == 'V' ? index + 2 : index + 1; break; case 'W': index = handleW(value, result, index); break; case 'X': index = handleX(value, result, index); break; case 'Z': index = handleZ(value, result, index, slavoGermanic); break; default: index++; break; } } return alternate ? result.getAlternate() : result.getPrimary(); } /** * Encode the value using DoubleMetaphone. It will only work if * {@code obj} is a {@code String} (like {@code Metaphone}). * * @param obj Object to encode (should be of type String) * @return An encoded Object (will be of type String) * @throws EncoderException encode parameter is not of type String */ @Override public Object encode(final Object obj) throws EncoderException { if (!(obj instanceof String)) { throw new EncoderException("DoubleMetaphone encode parameter is not of type String"); } return doubleMetaphone((String) obj); } /** * Encode the value using DoubleMetaphone. * * @param value String to encode * @return An encoded String */ @Override public String encode(final String value) { return doubleMetaphone(value); } /** * Check if the Double Metaphone values of two {@code String} values * are equal. * * @param value1 The left-hand side of the encoded {@link String#equals(Object)}. * @param value2 The right-hand side of the encoded {@link String#equals(Object)}. * @return {@code true} if the encoded {@code String}s are equal; * {@code false} otherwise. * @see #isDoubleMetaphoneEqual(String,String,boolean) */ public boolean isDoubleMetaphoneEqual(final String value1, final String value2) { return isDoubleMetaphoneEqual(value1, value2, false); } /** * Check if the Double Metaphone values of two {@code String} values * are equal, optionally using the alternate value. * * @param value1 The left-hand side of the encoded {@link String#equals(Object)}. * @param value2 The right-hand side of the encoded {@link String#equals(Object)}. * @param alternate use the alternate value if {@code true}. * @return {@code true} if the encoded {@code String}s are equal; * {@code false} otherwise. */ public boolean isDoubleMetaphoneEqual(final String value1, final String value2, final boolean alternate) { return StringUtils.equals(doubleMetaphone(value1, alternate), doubleMetaphone(value2, alternate)); } /** * Returns the maxCodeLen. * @return int */ public int getMaxCodeLen() { return this.maxCodeLen; } /** * Sets the maxCodeLen. * @param maxCodeLen The maxCodeLen to set */ public void setMaxCodeLen(final int maxCodeLen) { this.maxCodeLen = maxCodeLen; } //-- BEGIN HANDLERS --// /** * Handles 'A', 'E', 'I', 'O', 'U', and 'Y' cases. */ private int handleAEIOUY(final DoubleMetaphoneResult result, final int index) { if (index == 0) { result.append('A'); } return index + 1; } /** * Handles 'C' cases. */ private int handleC(final String value, final DoubleMetaphoneResult result, int index) { if (conditionC0(value, index)) { // very confusing, moved out result.append('K'); index += 2; } else if (index == 0 && contains(value, index, 6, "CAESAR")) { result.append('S'); index += 2; } else if (contains(value, index, 2, "CH")) { index = handleCH(value, result, index); } else if (contains(value, index, 2, "CZ") && !contains(value, index - 2, 4, "WICZ")) { //-- "Czerny" --// result.append('S', 'X'); index += 2; } else if (contains(value, index + 1, 3, "CIA")) { //-- "focaccia" --// result.append('X'); index += 3; } else if (contains(value, index, 2, "CC") && !(index == 1 && charAt(value, 0) == 'M')) { //-- double "cc" but not "McClelland" --// return handleCC(value, result, index); } else if (contains(value, index, 2, "CK", "CG", "CQ")) { result.append('K'); index += 2; } else if (contains(value, index, 2, "CI", "CE", "CY")) { //-- Italian vs. English --// if (contains(value, index, 3, "CIO", "CIE", "CIA")) { result.append('S', 'X'); } else { result.append('S'); } index += 2; } else { result.append('K'); if (contains(value, index + 1, 2, " C", " Q", " G")) { //-- Mac Caffrey, Mac Gregor --// index += 3; } else if (contains(value, index + 1, 1, "C", "K", "Q") && !contains(value, index + 1, 2, "CE", "CI")) { index += 2; } else { index++; } } return index; } /** * Handles 'CC' cases. */ private int handleCC(final String value, final DoubleMetaphoneResult result, int index) { if (contains(value, index + 2, 1, "I", "E", "H") && !contains(value, index + 2, 2, "HU")) { //-- "bellocchio" but not "bacchus" --// if ((index == 1 && charAt(value, index - 1) == 'A') || contains(value, index - 1, 5, "UCCEE", "UCCES")) { //-- "accident", "accede", "succeed" --// result.append("KS"); } else { //-- "bacci", "bertucci", other Italian --// result.append('X'); } index += 3; } else { // Pierce's rule result.append('K'); index += 2; } return index; } /** * Handles 'CH' cases. */ private int handleCH(final String value, final DoubleMetaphoneResult result, final int index) { if (index > 0 && contains(value, index, 4, "CHAE")) { // Michael result.append('K', 'X'); return index + 2; } else if (conditionCH0(value, index)) { //-- Greek roots ("chemistry", "chorus", etc.) --// result.append('K'); return index + 2; } else if (conditionCH1(value, index)) { //-- Germanic, Greek, or otherwise 'ch' for 'kh' sound --// result.append('K'); return index + 2; } else { if (index > 0) { if (contains(value, 0, 2, "MC")) { result.append('K'); } else { result.append('X', 'K'); } } else { result.append('X'); } return index + 2; } } /** * Handles 'D' cases. */ private int handleD(final String value, final DoubleMetaphoneResult result, int index) { if (contains(value, index, 2, "DG")) { //-- "Edge" --// if (contains(value, index + 2, 1, "I", "E", "Y")) { result.append('J'); index += 3; //-- "Edgar" --// } else { result.append("TK"); index += 2; } } else if (contains(value, index, 2, "DT", "DD")) { result.append('T'); index += 2; } else { result.append('T'); index++; } return index; } /** * Handles 'G' cases. */ private int handleG(final String value, final DoubleMetaphoneResult result, int index, final boolean slavoGermanic) { if (charAt(value, index + 1) == 'H') { index = handleGH(value, result, index); } else if (charAt(value, index + 1) == 'N') { if (index == 1 && isVowel(charAt(value, 0)) && !slavoGermanic) { result.append("KN", "N"); } else if (!contains(value, index + 2, 2, "EY") && charAt(value, index + 1) != 'Y' && !slavoGermanic) { result.append("N", "KN"); } else { result.append("KN"); } index = index + 2; } else if (contains(value, index + 1, 2, "LI") && !slavoGermanic) { result.append("KL", "L"); index += 2; } else if (index == 0 && (charAt(value, index + 1) == 'Y' || contains(value, index + 1, 2, ES_EP_EB_EL_EY_IB_IL_IN_IE_EI_ER))) { //-- -ges-, -gep-, -gel-, -gie- at beginning --// result.append('K', 'J'); index += 2; } else if ((contains(value, index + 1, 2, "ER") || charAt(value, index + 1) == 'Y') && !contains(value, 0, 6, "DANGER", "RANGER", "MANGER") && !contains(value, index - 1, 1, "E", "I") && !contains(value, index - 1, 3, "RGY", "OGY")) { //-- -ger-, -gy- --// result.append('K', 'J'); index += 2; } else if (contains(value, index + 1, 1, "E", "I", "Y") || contains(value, index - 1, 4, "AGGI", "OGGI")) { //-- Italian "biaggi" --// if (contains(value, 0 ,4, "VAN ", "VON ") || contains(value, 0, 3, "SCH") || contains(value, index + 1, 2, "ET")) { //-- obvious germanic --// result.append('K'); } else if (contains(value, index + 1, 3, "IER")) { result.append('J'); } else { result.append('J', 'K'); } index += 2; } else if (charAt(value, index + 1) == 'G') { index += 2; result.append('K'); } else { index++; result.append('K'); } return index; } /** * Handles 'GH' cases. */ private int handleGH(final String value, final DoubleMetaphoneResult result, int index) { if (index > 0 && !isVowel(charAt(value, index - 1))) { result.append('K'); index += 2; } else if (index == 0) { if (charAt(value, index + 2) == 'I') { result.append('J'); } else { result.append('K'); } index += 2; } else if ((index > 1 && contains(value, index - 2, 1, "B", "H", "D")) || (index > 2 && contains(value, index - 3, 1, "B", "H", "D")) || (index > 3 && contains(value, index - 4, 1, "B", "H"))) { //-- Parker's rule (with some further refinements) - "hugh" index += 2; } else { if (index > 2 && charAt(value, index - 1) == 'U' && contains(value, index - 3, 1, "C", "G", "L", "R", "T")) { //-- "laugh", "McLaughlin", "cough", "gough", "rough", "tough" result.append('F'); } else if (index > 0 && charAt(value, index - 1) != 'I') { result.append('K'); } index += 2; } return index; } /** * Handles 'H' cases. */ private int handleH(final String value, final DoubleMetaphoneResult result, int index) { //-- only keep if first & before vowel or between 2 vowels --// if ((index == 0 || isVowel(charAt(value, index - 1))) && isVowel(charAt(value, index + 1))) { result.append('H'); index += 2; //-- also takes car of "HH" --// } else { index++; } return index; } /** * Handles 'J' cases. */ private int handleJ(final String value, final DoubleMetaphoneResult result, int index, final boolean slavoGermanic) { if (contains(value, index, 4, "JOSE") || contains(value, 0, 4, "SAN ")) { //-- obvious Spanish, "Jose", "San Jacinto" --// if ((index == 0 && (charAt(value, index + 4) == ' ') || value.length() == 4) || contains(value, 0, 4, "SAN ")) { result.append('H'); } else { result.append('J', 'H'); } index++; } else { if (index == 0 && !contains(value, index, 4, "JOSE")) { result.append('J', 'A'); } else if (isVowel(charAt(value, index - 1)) && !slavoGermanic && (charAt(value, index + 1) == 'A' || charAt(value, index + 1) == 'O')) { result.append('J', 'H'); } else if (index == value.length() - 1) { result.append('J', ' '); } else if (!contains(value, index + 1, 1, L_T_K_S_N_M_B_Z) && !contains(value, index - 1, 1, "S", "K", "L")) { result.append('J'); } if (charAt(value, index + 1) == 'J') { index += 2; } else { index++; } } return index; } /** * Handles 'L' cases. */ private int handleL(final String value, final DoubleMetaphoneResult result, int index) { if (charAt(value, index + 1) == 'L') { if (conditionL0(value, index)) { result.appendPrimary('L'); } else { result.append('L'); } index += 2; } else { index++; result.append('L'); } return index; } /** * Handles 'P' cases. */ private int handleP(final String value, final DoubleMetaphoneResult result, int index) { if (charAt(value, index + 1) == 'H') { result.append('F'); index += 2; } else { result.append('P'); index = contains(value, index + 1, 1, "P", "B") ? index + 2 : index + 1; } return index; } /** * Handles 'R' cases. */ private int handleR(final String value, final DoubleMetaphoneResult result, final int index, final boolean slavoGermanic) { if (index == value.length() - 1 && !slavoGermanic && contains(value, index - 2, 2, "IE") && !contains(value, index - 4, 2, "ME", "MA")) { result.appendAlternate('R'); } else { result.append('R'); } return charAt(value, index + 1) == 'R' ? index + 2 : index + 1; } /** * Handles 'S' cases. */ private int handleS(final String value, final DoubleMetaphoneResult result, int index, final boolean slavoGermanic) { if (contains(value, index - 1, 3, "ISL", "YSL")) { //-- special cases "island", "isle", "carlisle", "carlysle" --// index++; } else if (index == 0 && contains(value, index, 5, "SUGAR")) { //-- special case "sugar-" --// result.append('X', 'S'); index++; } else if (contains(value, index, 2, "SH")) { if (contains(value, index + 1, 4, "HEIM", "HOEK", "HOLM", "HOLZ")) { //-- germanic --// result.append('S'); } else { result.append('X'); } index += 2; } else if (contains(value, index, 3, "SIO", "SIA") || contains(value, index, 4, "SIAN")) { //-- Italian and Armenian --// if (slavoGermanic) { result.append('S'); } else { result.append('S', 'X'); } index += 3; } else if ((index == 0 && contains(value, index + 1, 1, "M", "N", "L", "W")) || contains(value, index + 1, 1, "Z")) { //-- german & anglicisations, e.g. "smith" match "schmidt" // // "snider" match "schneider" --// //-- also, -sz- in slavic language although in hungarian it // // is pronounced "s" --// result.append('S', 'X'); index = contains(value, index + 1, 1, "Z") ? index + 2 : index + 1; } else if (contains(value, index, 2, "SC")) { index = handleSC(value, result, index); } else { if (index == value.length() - 1 && contains(value, index - 2, 2, "AI", "OI")) { //-- french e.g. "resnais", "artois" --// result.appendAlternate('S'); } else { result.append('S'); } index = contains(value, index + 1, 1, "S", "Z") ? index + 2 : index + 1; } return index; } /** * Handles 'SC' cases. */ private int handleSC(final String value, final DoubleMetaphoneResult result, final int index) { if (charAt(value, index + 2) == 'H') { //-- Schlesinger's rule --// if (contains(value, index + 3, 2, "OO", "ER", "EN", "UY", "ED", "EM")) { //-- Dutch origin, e.g. "school", "schooner" --// if (contains(value, index + 3, 2, "ER", "EN")) { //-- "schermerhorn", "schenker" --// result.append("X", "SK"); } else { result.append("SK"); } } else { if (index == 0 && !isVowel(charAt(value, 3)) && charAt(value, 3) != 'W') { result.append('X', 'S'); } else { result.append('X'); } } } else if (contains(value, index + 2, 1, "I", "E", "Y")) { result.append('S'); } else { result.append("SK"); } return index + 3; } /** * Handles 'T' cases. */ private int handleT(final String value, final DoubleMetaphoneResult result, int index) { if (contains(value, index, 4, "TION")) { result.append('X'); index += 3; } else if (contains(value, index, 3, "TIA", "TCH")) { result.append('X'); index += 3; } else if (contains(value, index, 2, "TH") || contains(value, index, 3, "TTH")) { if (contains(value, index + 2, 2, "OM", "AM") || //-- special case "thomas", "thames" or germanic --// contains(value, 0, 4, "VAN ", "VON ") || contains(value, 0, 3, "SCH")) { result.append('T'); } else { result.append('0', 'T'); } index += 2; } else { result.append('T'); index = contains(value, index + 1, 1, "T", "D") ? index + 2 : index + 1; } return index; } /** * Handles 'W' cases. */ private int handleW(final String value, final DoubleMetaphoneResult result, int index) { if (contains(value, index, 2, "WR")) { //-- can also be in middle of word --// result.append('R'); index += 2; } else { if (index == 0 && (isVowel(charAt(value, index + 1)) || contains(value, index, 2, "WH"))) { if (isVowel(charAt(value, index + 1))) { //-- Wasserman should match Vasserman --// result.append('A', 'F'); } else { //-- need Uomo to match Womo --// result.append('A'); } index++; } else if ((index == value.length() - 1 && isVowel(charAt(value, index - 1))) || contains(value, index - 1, 5, "EWSKI", "EWSKY", "OWSKI", "OWSKY") || contains(value, 0, 3, "SCH")) { //-- Arnow should match Arnoff --// result.appendAlternate('F'); index++; } else if (contains(value, index, 4, "WICZ", "WITZ")) { //-- Polish e.g. "filipowicz" --// result.append("TS", "FX"); index += 4; } else { index++; } } return index; } /** * Handles 'X' cases. */ private int handleX(final String value, final DoubleMetaphoneResult result, int index) { if (index == 0) { result.append('S'); index++; } else { if (!((index == value.length() - 1) && (contains(value, index - 3, 3, "IAU", "EAU") || contains(value, index - 2, 2, "AU", "OU")))) { //-- French e.g. breaux --// result.append("KS"); } index = contains(value, index + 1, 1, "C", "X") ? index + 2 : index + 1; } return index; } /** * Handles 'Z' cases. */ private int handleZ(final String value, final DoubleMetaphoneResult result, int index, final boolean slavoGermanic) { if (charAt(value, index + 1) == 'H') { //-- Chinese pinyin e.g. "zhao" or Angelina "Zhang" --// result.append('J'); index += 2; } else { if (contains(value, index + 1, 2, "ZO", "ZI", "ZA") || (slavoGermanic && (index > 0 && charAt(value, index - 1) != 'T'))) { result.append("S", "TS"); } else { result.append('S'); } index = charAt(value, index + 1) == 'Z' ? index + 2 : index + 1; } return index; } //-- BEGIN CONDITIONS --// /** * Complex condition 0 for 'C'. */ private boolean conditionC0(final String value, final int index) { if (contains(value, index, 4, "CHIA")) { return true; } else if (index <= 1) { return false; } else if (isVowel(charAt(value, index - 2))) { return false; } else if (!contains(value, index - 1, 3, "ACH")) { return false; } else { final char c = charAt(value, index + 2); return (c != 'I' && c != 'E') || contains(value, index - 2, 6, "BACHER", "MACHER"); } } /** * Complex condition 0 for 'CH'. */ private boolean conditionCH0(final String value, final int index) { if (index != 0) { return false; } else if (!contains(value, index + 1, 5, "HARAC", "HARIS") && !contains(value, index + 1, 3, "HOR", "HYM", "HIA", "HEM")) { return false; } else if (contains(value, 0, 5, "CHORE")) { return false; } else { return true; } } /** * Complex condition 1 for 'CH'. */ private boolean conditionCH1(final String value, final int index) { return ((contains(value, 0, 4, "VAN ", "VON ") || contains(value, 0, 3, "SCH")) || contains(value, index - 2, 6, "ORCHES", "ARCHIT", "ORCHID") || contains(value, index + 2, 1, "T", "S") || ((contains(value, index - 1, 1, "A", "O", "U", "E") || index == 0) && (contains(value, index + 2, 1, L_R_N_M_B_H_F_V_W_SPACE) || index + 1 == value.length() - 1))); } /** * Complex condition 0 for 'L'. */ private boolean conditionL0(final String value, final int index) { if (index == value.length() - 3 && contains(value, index - 1, 4, "ILLO", "ILLA", "ALLE")) { return true; } else if ((contains(value, value.length() - 2, 2, "AS", "OS") || contains(value, value.length() - 1, 1, "A", "O")) && contains(value, index - 1, 4, "ALLE")) { return true; } else { return false; } } /** * Complex condition 0 for 'M'. */ private boolean conditionM0(final String value, final int index) { if (charAt(value, index + 1) == 'M') { return true; } return contains(value, index - 1, 3, "UMB") && ((index + 1) == value.length() - 1 || contains(value, index + 2, 2, "ER")); } //-- BEGIN HELPER FUNCTIONS --// /** * Determines whether or not a value is of slavo-germanic origin. A value is * of slavo-germanic origin if it contians any of 'W', 'K', 'CZ', or 'WITZ'. */ private boolean isSlavoGermanic(final String value) { return value.indexOf('W') > -1 || value.indexOf('K') > -1 || value.indexOf("CZ") > -1 || value.indexOf("WITZ") > -1; } /** * Determines whether or not a character is a vowel or not */ private boolean isVowel(final char ch) { return VOWELS.indexOf(ch) != -1; } /** * Determines whether or not the value starts with a silent letter. It will * return {@code true} if the value starts with any of 'GN', 'KN', * 'PN', 'WR' or 'PS'. */ private boolean isSilentStart(final String value) { boolean result = false; for (final String element : SILENT_START) { if (value.startsWith(element)) { result = true; break; } } return result; } /** * Cleans the input. */ private String cleanInput(String input) { if (input == null) { return null; } input = input.trim(); if (input.length() == 0) { return null; } return input.toUpperCase(java.util.Locale.ENGLISH); } /* * Gets the character at index {@code index} if available, otherwise * it returns {@code Character.MIN_VALUE} so that there is some sort * of a default. */ protected char charAt(final String value, final int index) { if (index < 0 || index >= value.length()) { return Character.MIN_VALUE; } return value.charAt(index); } /* * Determines whether {@code value} contains any of the criteria starting at index {@code start} and * matching up to length {@code length}. */ protected static boolean contains(final String value, final int start, final int length, final String... criteria) { boolean result = false; if (start >= 0 && start + length <= value.length()) { final String target = value.substring(start, start + length); for (final String element : criteria) { if (target.equals(element)) { result = true; break; } } } return result; } //-- BEGIN INNER CLASSES --// /** * Inner class for storing results, since there is the optional alternate encoding. */ public class DoubleMetaphoneResult { private final StringBuilder primary = new StringBuilder(getMaxCodeLen()); private final StringBuilder alternate = new StringBuilder(getMaxCodeLen()); private final int maxLength; public DoubleMetaphoneResult(final int maxLength) { this.maxLength = maxLength; } public void append(final char value) { appendPrimary(value); appendAlternate(value); } public void append(final char primary, final char alternate) { appendPrimary(primary); appendAlternate(alternate); } public void appendPrimary(final char value) { if (this.primary.length() < this.maxLength) { this.primary.append(value); } } public void appendAlternate(final char value) { if (this.alternate.length() < this.maxLength) { this.alternate.append(value); } } public void append(final String value) { appendPrimary(value); appendAlternate(value); } public void append(final String primary, final String alternate) { appendPrimary(primary); appendAlternate(alternate); } public void appendPrimary(final String value) { final int addChars = this.maxLength - this.primary.length(); if (value.length() <= addChars) { this.primary.append(value); } else { this.primary.append(value.substring(0, addChars)); } } public void appendAlternate(final String value) { final int addChars = this.maxLength - this.alternate.length(); if (value.length() <= addChars) { this.alternate.append(value); } else { this.alternate.append(value.substring(0, addChars)); } } public String getPrimary() { return this.primary.toString(); } public String getAlternate() { return this.alternate.toString(); } public boolean isComplete() { return this.primary.length() >= this.maxLength && this.alternate.length() >= this.maxLength; } } }





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