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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
* limitations under the License.
*/
package com.signalfx.shaded.apache.commons.codec.language;
import java.util.Arrays;
import java.util.Locale;
import com.signalfx.shaded.apache.commons.codec.EncoderException;
import com.signalfx.shaded.apache.commons.codec.StringEncoder;
/**
* Encodes a string into a Cologne Phonetic value.
*
* Implements the Kölner Phonetik (Cologne
* Phonetic) algorithm issued by Hans Joachim Postel in 1969.
*
*
* The Kölner Phonetik is a phonetic algorithm which is optimized for the German language. It is related to
* the well-known soundex algorithm.
*
*
* Algorithm
*
*
*
* -
*
Step 1:
* After preprocessing (conversion to upper case, transcription of germanic umlauts, removal of non alphabetical characters) the
* letters of the supplied text are replaced by their phonetic code according to the following table.
*
* (Source: Wikipedia (de): Kölner Phonetik --
* Buchstabencodes)
*
* Letter
* Context
* Code
*
*
* A, E, I, J, O, U, Y
*
* 0
*
*
*
* H
*
* -
*
*
* B
*
* 1
*
*
* P
* not before H
*
*
*
* D, T
* not before C, S, Z
* 2
*
*
* F, V, W
*
* 3
*
*
*
* P
* before H
*
*
* G, K, Q
*
* 4
*
*
* C
* at onset before A, H, K, L, O, Q, R, U, X
*
*
*
* before A, H, K, O, Q, U, X except after S, Z
*
*
* X
* not after C, K, Q
* 48
*
*
* L
*
*
* 5
*
*
* M, N
*
* 6
*
*
* R
*
* 7
*
*
*
* S, Z
*
* 8
*
*
* C
* after S, Z
*
*
* at onset except before A, H, K, L, O, Q, R, U, X
*
*
*
* not before A, H, K, O, Q, U, X
*
*
* D, T
* before C, S, Z
*
*
* X
* after C, K, Q
*
*
*
*
* Example:
*
* {@code "M}ü{@code ller-L}üdenscheidt"
* => "MULLERLUDENSCHEIDT" => "6005507500206880022"
*
*
*
* -
*
Step 2:
* Collapse of all multiple consecutive code digits.
* Example:
* {@code "6005507500206880022" => "6050750206802"}
*
* -
*
Step 3:
* Removal of all codes "0" except at the beginning. This means that two or more identical consecutive digits can occur
* if they occur after removing the "0" digits.
*
* Example:
* {@code "6050750206802" => "65752682"}
*
*
*
*
* This class is thread-safe.
*
*
* @see Wikipedia (de): Kölner Phonetik (in German)
* @since 1.5
*/
public class ColognePhonetic implements StringEncoder {
/**
* This class is not thread-safe; the field {@link #length} is mutable.
* However, it is not shared between threads, as it is constructed on demand
* by the method {@link ColognePhonetic#colognePhonetic(String)}
*/
abstract static class CologneBuffer {
protected final char[] data;
protected int length;
public CologneBuffer(final char[] data) {
this.data = data;
this.length = data.length;
}
public CologneBuffer(final int buffSize) {
this.data = new char[buffSize];
this.length = 0;
}
protected abstract char[] copyData(int start, int length);
public boolean isEmpty() {
return length() == 0;
}
public int length() {
return length;
}
@Override
public String toString() {
return new String(copyData(0, length));
}
}
private final class CologneInputBuffer extends CologneBuffer {
public CologneInputBuffer(final char[] data) {
super(data);
}
@Override
protected char[] copyData(final int start, final int length) {
final char[] newData = new char[length];
System.arraycopy(data, data.length - this.length + start, newData, 0, length);
return newData;
}
public char getNextChar() {
return data[getNextPos()];
}
protected int getNextPos() {
return data.length - length;
}
public char removeNext() {
final char ch = getNextChar();
length--;
return ch;
}
}
private final class CologneOutputBuffer extends CologneBuffer {
private char lastCode;
public CologneOutputBuffer(final int buffSize) {
super(buffSize);
lastCode = '/'; // impossible value
}
@Override
protected char[] copyData(final int start, final int length) {
return Arrays.copyOfRange(data, start, length);
}
/**
* Stores the next code in the output buffer, keeping track of the previous code.
* '0' is only stored if it is the first entry.
* Ignored chars are never stored.
* If the code is the same as the last code (whether stored or not) it is not stored.
*
* @param code the code to store.
*/
public void put(final char code) {
if (code != CHAR_IGNORE && lastCode != code && (code != '0' || length == 0)) {
data[length] = code;
length++;
}
lastCode = code;
}
}
// Predefined char arrays for better performance and less GC load
private static final char[] AEIJOUY = { 'A', 'E', 'I', 'J', 'O', 'U', 'Y' };
private static final char[] CSZ = { 'C', 'S', 'Z' };
private static final char[] FPVW = { 'F', 'P', 'V', 'W' };
private static final char[] GKQ = { 'G', 'K', 'Q' };
private static final char[] CKQ = { 'C', 'K', 'Q' };
private static final char[] AHKLOQRUX = { 'A', 'H', 'K', 'L', 'O', 'Q', 'R', 'U', 'X' };
private static final char[] SZ = { 'S', 'Z' };
private static final char[] AHKOQUX = { 'A', 'H', 'K', 'O', 'Q', 'U', 'X' };
private static final char[] DTX = { 'D', 'T', 'X' };
private static final char CHAR_IGNORE = '-'; // is this character to be ignored?
/*
* Returns whether the array contains the key, or not.
*/
private static boolean arrayContains(final char[] arr, final char key) {
for (final char element : arr) {
if (element == key) {
return true;
}
}
return false;
}
/**
*
* Implements the Kölner Phonetik algorithm.
*
*
* In contrast to the initial description of the algorithm, this implementation does the encoding in one pass.
*
*
* @param text The source text to encode
* @return the corresponding encoding according to the Kölner Phonetik algorithm
*/
public String colognePhonetic(final String text) {
if (text == null) {
return null;
}
final CologneInputBuffer input = new CologneInputBuffer(preprocess(text));
final CologneOutputBuffer output = new CologneOutputBuffer(input.length() * 2);
char nextChar;
char lastChar = CHAR_IGNORE;
char chr;
while (!input.isEmpty()) {
chr = input.removeNext();
if (!input.isEmpty()) {
nextChar = input.getNextChar();
} else {
nextChar = CHAR_IGNORE;
}
if (chr < 'A' || chr > 'Z') {
continue; // ignore unwanted characters
}
if (arrayContains(AEIJOUY, chr)) {
output.put('0');
} else if (chr == 'B' || chr == 'P' && nextChar != 'H') {
output.put('1');
} else if ((chr == 'D' || chr == 'T') && !arrayContains(CSZ, nextChar)) {
output.put('2');
} else if (arrayContains(FPVW, chr)) {
output.put('3');
} else if (arrayContains(GKQ, chr)) {
output.put('4');
} else if (chr == 'X' && !arrayContains(CKQ, lastChar)) {
output.put('4');
output.put('8');
} else if (chr == 'S' || chr == 'Z') {
output.put('8');
} else if (chr == 'C') {
if (output.isEmpty()) {
if (arrayContains(AHKLOQRUX, nextChar)) {
output.put('4');
} else {
output.put('8');
}
} else if (arrayContains(SZ, lastChar) || !arrayContains(AHKOQUX, nextChar)) {
output.put('8');
} else {
output.put('4');
}
} else if (arrayContains(DTX, chr)) {
output.put('8');
} else {
switch (chr) {
case 'R':
output.put('7');
break;
case 'L':
output.put('5');
break;
case 'M':
case 'N':
output.put('6');
break;
case 'H':
output.put(CHAR_IGNORE); // needed by put
break;
default:
break;
}
}
lastChar = chr;
}
return output.toString();
}
@Override
public Object encode(final Object object) throws EncoderException {
if (!(object instanceof String)) {
throw new EncoderException("This method's parameter was expected to be of the type " +
String.class.getName() +
". But actually it was of the type " +
object.getClass().getName() +
".");
}
return encode((String) object);
}
@Override
public String encode(final String text) {
return colognePhonetic(text);
}
/**
* Compares the first encoded string to the second encoded string.
*
* @param text1 source text to encode before testing for equality.
* @param text2 source text to encode before testing for equality.
* @return {@code true} if the encoding the first string equals the encoding of the second string, {@code false}
* otherwise
*/
public boolean isEncodeEqual(final String text1, final String text2) {
return colognePhonetic(text1).equals(colognePhonetic(text2));
}
/**
* Converts the string to upper case and replaces Germanic umlaut characters
* The following characters are mapped:
*
* - capital A, umlaut mark
* - capital U, umlaut mark
* - capital O, umlaut mark
* - small sharp s, German
*
*/
private char[] preprocess(final String text) {
// This converts German small sharp s (Eszett) to SS
final char[] chrs = text.toUpperCase(Locale.GERMAN).toCharArray();
for (int index = 0; index < chrs.length; index++) {
switch (chrs[index]) {
case '\u00C4': // capital A, umlaut mark
chrs[index] = 'A';
break;
case '\u00DC': // capital U, umlaut mark
chrs[index] = 'U';
break;
case '\u00D6': // capital O, umlaut mark
chrs[index] = 'O';
break;
default:
break;
}
}
return chrs;
}
}
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