com.groupbyinc.common.apache.commons.text.AlphabetConverter Maven / Gradle / Ivy
/*
* 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 org.apache.commons.text;
import java.io.UnsupportedEncodingException;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.HashMap;
import java.util.Iterator;
import java.util.LinkedHashMap;
import java.util.LinkedHashSet;
import java.util.Map;
import java.util.Map.Entry;
import java.util.Objects;
import java.util.Set;
/**
*
* Convert from one alphabet to another, with the possibility of leaving certain
* characters unencoded.
*
*
*
* The target and do not encode languages must be in the Unicode BMP, but the
* source language does not.
*
*
*
* The encoding will all be of a fixed length, except for the 'do not encode'
* chars, which will be of length 1
*
*
* Sample usage
*
*
* Character[] originals; // a, b, c, d
* Character[] encoding; // 0, 1, d
* Character[] doNotEncode; // d
*
* AlphabetConverter ac = AlphabetConverter.createConverterFromChars(originals,
* encoding, doNotEncode);
*
* ac.encode("a"); // 00
* ac.encode("b"); // 01
* ac.encode("c"); // 0d
* ac.encode("d"); // d
* ac.encode("abcd"); // 00010dd
*
*
*
* #ThreadSafe# AlphabetConverter class methods are thread-safe as they do not
* change internal state.
*
*
* @since 1.0
*
*/
public final class AlphabetConverter {
/**
* Original string to be encoded.
*/
private final Map originalToEncoded;
/**
* Encoding alphabet.
*/
private final Map encodedToOriginal;
/**
* Length of the encoded letter.
*/
private final int encodedLetterLength;
/**
* Arrow constant, used for converting the object into a string.
*/
private static final String ARROW = " -> ";
/**
* Hidden constructor for alphabet converter. Used by static helper methods.
*
* @param originalToEncoded original string to be encoded
* @param encodedToOriginal encoding alphabet
* @param encodedLetterLength length of the encoded letter
*/
private AlphabetConverter(final Map originalToEncoded,
final Map encodedToOriginal,
final int encodedLetterLength) {
this.originalToEncoded = originalToEncoded;
this.encodedToOriginal = encodedToOriginal;
this.encodedLetterLength = encodedLetterLength;
}
/**
* Encode a given string.
*
* @param original the string to be encoded
* @return the encoded string, {@code null} if the given string is null
* @throws UnsupportedEncodingException if chars that are not supported are
* encountered
*/
public String encode(final String original)
throws UnsupportedEncodingException {
if (original == null) {
return null;
}
final StringBuilder sb = new StringBuilder();
for (int i = 0; i < original.length();) {
final int codepoint = original.codePointAt(i);
final String nextLetter = originalToEncoded.get(codepoint);
if (nextLetter == null) {
throw new UnsupportedEncodingException(
"Couldn't find encoding for '"
+ codePointToString(codepoint)
+ "' in "
+ original
);
}
sb.append(nextLetter);
i += Character.charCount(codepoint);
}
return sb.toString();
}
/**
* Decode a given string.
*
* @param encoded a string that has been encoded using this
* AlphabetConverter
* @return the decoded string, {@code null} if the given string is null
* @throws UnsupportedEncodingException if unexpected characters that
* cannot be handled are encountered
*/
public String decode(final String encoded)
throws UnsupportedEncodingException {
if (encoded == null) {
return null;
}
final StringBuilder result = new StringBuilder();
for (int j = 0; j < encoded.length();) {
final Integer i = encoded.codePointAt(j);
final String s = codePointToString(i);
if (s.equals(originalToEncoded.get(i))) {
result.append(s);
j++; // because we do not encode in Unicode extended the
// length of each encoded char is 1
} else {
if (j + encodedLetterLength > encoded.length()) {
throw new UnsupportedEncodingException("Unexpected end "
+ "of string while decoding " + encoded);
}
final String nextGroup = encoded.substring(j,
j + encodedLetterLength);
final String next = encodedToOriginal.get(nextGroup);
if (next == null) {
throw new UnsupportedEncodingException(
"Unexpected string without decoding ("
+ nextGroup + ") in " + encoded);
}
result.append(next);
j += encodedLetterLength;
}
}
return result.toString();
}
/**
* Get the length of characters in the encoded alphabet that are necessary
* for each character in the original
* alphabet.
*
* @return the length of the encoded char
*/
public int getEncodedCharLength() {
return encodedLetterLength;
}
/**
* Get the mapping from integer code point of source language to encoded
* string. Use to reconstruct converter from
* serialized map.
*
* @return the original map
*/
public Map getOriginalToEncoded() {
return Collections.unmodifiableMap(originalToEncoded);
}
/**
* Recursive method used when creating encoder/decoder.
*
* @param level at which point it should add a single encoding
* @param currentEncoding current encoding
* @param encoding letters encoding
* @param originals original values
* @param doNotEncodeMap map of values that should not be encoded
*/
@SuppressWarnings("PMD")
private void addSingleEncoding(final int level,
final String currentEncoding,
final Collection encoding,
final Iterator originals,
final Map doNotEncodeMap) {
if (level > 0) {
for (final int encodingLetter : encoding) {
if (originals.hasNext()) {
// this skips the doNotEncode chars if they are in the
// leftmost place
if (level != encodedLetterLength
|| !doNotEncodeMap.containsKey(encodingLetter)) {
addSingleEncoding(level - 1,
currentEncoding
+ codePointToString(encodingLetter),
encoding,
originals,
doNotEncodeMap
);
}
} else {
return; // done encoding all the original alphabet
}
}
} else {
Integer next = originals.next();
while (doNotEncodeMap.containsKey(next)) {
final String originalLetterAsString = codePointToString(next);
originalToEncoded.put(next, originalLetterAsString);
encodedToOriginal.put(originalLetterAsString,
originalLetterAsString);
if (!originals.hasNext()) {
return;
}
next = originals.next();
}
final String originalLetterAsString = codePointToString(next);
originalToEncoded.put(next, currentEncoding);
encodedToOriginal.put(currentEncoding, originalLetterAsString);
}
}
@Override
public String toString() {
final StringBuilder sb = new StringBuilder();
for (final Entry entry
: originalToEncoded.entrySet()) {
sb.append(codePointToString(entry.getKey()))
.append(ARROW)
.append(entry.getValue()).append(System.lineSeparator());
}
return sb.toString();
}
@Override
public boolean equals(final Object obj) {
if (obj == null) {
return false;
}
if (obj == this) {
return true;
}
if (!(obj instanceof AlphabetConverter)) {
return false;
}
final AlphabetConverter other = (AlphabetConverter) obj;
return originalToEncoded.equals(other.originalToEncoded)
&& encodedToOriginal.equals(other.encodedToOriginal)
&& encodedLetterLength == other.encodedLetterLength;
}
@Override
public int hashCode() {
return Objects.hash(originalToEncoded,
encodedToOriginal,
encodedLetterLength);
}
// -- static methods
/**
* Create a new converter from a map.
*
* @param originalToEncoded a map returned from getOriginalToEncoded()
* @return the reconstructed AlphabetConverter
* @see AlphabetConverter#getOriginalToEncoded()
*/
public static AlphabetConverter createConverterFromMap(
final Map originalToEncoded) {
final Map unmodifiableOriginalToEncoded =
Collections.unmodifiableMap(originalToEncoded);
final Map encodedToOriginal = new LinkedHashMap<>();
int encodedLetterLength = 1;
for (final Entry e
: unmodifiableOriginalToEncoded.entrySet()) {
final String originalAsString = codePointToString(e.getKey());
encodedToOriginal.put(e.getValue(), originalAsString);
if (e.getValue().length() > encodedLetterLength) {
encodedLetterLength = e.getValue().length();
}
}
return new AlphabetConverter(unmodifiableOriginalToEncoded,
encodedToOriginal,
encodedLetterLength);
}
/**
* Create an alphabet converter, for converting from the original alphabet,
* to the encoded alphabet, while leaving the characters in
* doNotEncode as they are (if possible).
*
* Duplicate letters in either original or encoding will be ignored.
*
* @param original an array of chars representing the original alphabet
* @param encoding an array of chars representing the alphabet to be used
* for encoding
* @param doNotEncode an array of chars to be encoded using the original
* alphabet - every char here must appear in
* both the previous params
* @return the AlphabetConverter
* @throws IllegalArgumentException if an AlphabetConverter cannot be
* constructed
*/
public static AlphabetConverter createConverterFromChars(
final Character[] original,
final Character[] encoding,
final Character[] doNotEncode) {
return AlphabetConverter.createConverter(
convertCharsToIntegers(original),
convertCharsToIntegers(encoding),
convertCharsToIntegers(doNotEncode));
}
/**
* Convert characters to integers.
*
* @param chars array of characters
* @return an equivalent array of integers
*/
private static Integer[] convertCharsToIntegers(final Character[] chars) {
if (chars == null || chars.length == 0) {
return new Integer[0];
}
final Integer[] integers = new Integer[chars.length];
for (int i = 0; i < chars.length; i++) {
integers[i] = (int) chars[i];
}
return integers;
}
/**
* Create an alphabet converter, for converting from the original alphabet,
* to the encoded alphabet, while leaving
* the characters in doNotEncode as they are (if possible).
*
* Duplicate letters in either original or encoding will be ignored.
*
* @param original an array of ints representing the original alphabet in
* codepoints
* @param encoding an array of ints representing the alphabet to be used for
* encoding, in codepoints
* @param doNotEncode an array of ints representing the chars to be encoded
* using the original alphabet - every char
* here must appear in both the previous params
* @return the AlphabetConverter
* @throws IllegalArgumentException if an AlphabetConverter cannot be
* constructed
*/
public static AlphabetConverter createConverter(
final Integer[] original,
final Integer[] encoding,
final Integer[] doNotEncode) {
final Set originalCopy = new LinkedHashSet<>(Arrays. asList(original));
final Set encodingCopy = new LinkedHashSet<>(Arrays. asList(encoding));
final Set doNotEncodeCopy = new LinkedHashSet<>(Arrays. asList(doNotEncode));
final Map originalToEncoded = new LinkedHashMap<>();
final Map encodedToOriginal = new LinkedHashMap<>();
final Map doNotEncodeMap = new HashMap<>();
int encodedLetterLength;
for (final int i : doNotEncodeCopy) {
if (!originalCopy.contains(i)) {
throw new IllegalArgumentException(
"Can not use 'do not encode' list because original "
+ "alphabet does not contain '"
+ codePointToString(i) + "'");
}
if (!encodingCopy.contains(i)) {
throw new IllegalArgumentException(
"Can not use 'do not encode' list because encoding alphabet does not contain '"
+ codePointToString(i) + "'");
}
doNotEncodeMap.put(i, codePointToString(i));
}
if (encodingCopy.size() >= originalCopy.size()) {
encodedLetterLength = 1;
final Iterator it = encodingCopy.iterator();
for (final int originalLetter : originalCopy) {
final String originalLetterAsString =
codePointToString(originalLetter);
if (doNotEncodeMap.containsKey(originalLetter)) {
originalToEncoded.put(originalLetter,
originalLetterAsString);
encodedToOriginal.put(originalLetterAsString,
originalLetterAsString);
} else {
Integer next = it.next();
while (doNotEncodeCopy.contains(next)) {
next = it.next();
}
final String encodedLetter = codePointToString(next);
originalToEncoded.put(originalLetter, encodedLetter);
encodedToOriginal.put(encodedLetter,
originalLetterAsString);
}
}
return new AlphabetConverter(originalToEncoded,
encodedToOriginal,
encodedLetterLength);
} else if (encodingCopy.size() - doNotEncodeCopy.size() < 2) {
throw new IllegalArgumentException(
"Must have at least two encoding characters (excluding "
+ "those in the 'do not encode' list), but has "
+ (encodingCopy.size() - doNotEncodeCopy.size()));
} else {
// we start with one which is our minimum, and because we do the
// first division outside the loop
int lettersSoFar = 1;
// the first division takes into account that the doNotEncode
// letters can't be in the leftmost place
int lettersLeft = (originalCopy.size() - doNotEncodeCopy.size())
/ (encodingCopy.size() - doNotEncodeCopy.size());
while (lettersLeft / encodingCopy.size() >= 1) {
lettersLeft = lettersLeft / encodingCopy.size();
lettersSoFar++;
}
encodedLetterLength = lettersSoFar + 1;
final AlphabetConverter ac =
new AlphabetConverter(originalToEncoded,
encodedToOriginal,
encodedLetterLength);
ac.addSingleEncoding(encodedLetterLength,
"",
encodingCopy,
originalCopy.iterator(),
doNotEncodeMap);
return ac;
}
}
/**
* Create new String that contains just the given code point.
*
* @param i code point
* @return a new string with the new code point
* @see "http://www.oracle.com/us/technologies/java/supplementary-142654.html"
*/
private static String codePointToString(final int i) {
if (Character.charCount(i) == 1) {
return String.valueOf((char) i);
}
return new String(Character.toChars(i));
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy