001/* 002 * Licensed to the Apache Software Foundation (ASF) under one or more 003 * contributor license agreements. See the NOTICE file distributed with 004 * this work for additional information regarding copyright ownership. 005 * The ASF licenses this file to You under the Apache License, Version 2.0 006 * (the "License"); you may not use this file except in compliance with 007 * the License. You may obtain a copy of the License at 008 * 009 * http://www.apache.org/licenses/LICENSE-2.0 010 * 011 * Unless required by applicable law or agreed to in writing, software 012 * distributed under the License is distributed on an "AS IS" BASIS, 013 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 014 * See the License for the specific language governing permissions and 015 * limitations under the License. 016 */ 017package org.apache.commons.lang3.text.translate; 018 019import java.io.IOException; 020import java.io.StringWriter; 021import java.io.Writer; 022import java.util.Locale; 023 024/** 025 * An API for translating text. 026 * Its core use is to escape and unescape text. Because escaping and unescaping 027 * is completely contextual, the API does not present two separate signatures. 028 * 029 * @since 3.0 030 * @version $Id: CharSequenceTranslator.java 1568612 2014-02-15 10:35:35Z britter $ 031 */ 032public abstract class CharSequenceTranslator { 033 034 /** 035 * Translate a set of codepoints, represented by an int index into a CharSequence, 036 * into another set of codepoints. The number of codepoints consumed must be returned, 037 * and the only IOExceptions thrown must be from interacting with the Writer so that 038 * the top level API may reliably ignore StringWriter IOExceptions. 039 * 040 * @param input CharSequence that is being translated 041 * @param index int representing the current point of translation 042 * @param out Writer to translate the text to 043 * @return int count of codepoints consumed 044 * @throws IOException if and only if the Writer produces an IOException 045 */ 046 public abstract int translate(CharSequence input, int index, Writer out) throws IOException; 047 048 /** 049 * Helper for non-Writer usage. 050 * @param input CharSequence to be translated 051 * @return String output of translation 052 */ 053 public final String translate(final CharSequence input) { 054 if (input == null) { 055 return null; 056 } 057 try { 058 final StringWriter writer = new StringWriter(input.length() * 2); 059 translate(input, writer); 060 return writer.toString(); 061 } catch (final IOException ioe) { 062 // this should never ever happen while writing to a StringWriter 063 throw new RuntimeException(ioe); 064 } 065 } 066 067 /** 068 * Translate an input onto a Writer. This is intentionally final as its algorithm is 069 * tightly coupled with the abstract method of this class. 070 * 071 * @param input CharSequence that is being translated 072 * @param out Writer to translate the text to 073 * @throws IOException if and only if the Writer produces an IOException 074 */ 075 public final void translate(final CharSequence input, final Writer out) throws IOException { 076 if (out == null) { 077 throw new IllegalArgumentException("The Writer must not be null"); 078 } 079 if (input == null) { 080 return; 081 } 082 int pos = 0; 083 final int len = input.length(); 084 while (pos < len) { 085 final int consumed = translate(input, pos, out); 086 if (consumed == 0) { 087 final char[] c = Character.toChars(Character.codePointAt(input, pos)); 088 out.write(c); 089 pos+= c.length; 090 continue; 091 } 092 // contract with translators is that they have to understand codepoints 093 // and they just took care of a surrogate pair 094 for (int pt = 0; pt < consumed; pt++) { 095 pos += Character.charCount(Character.codePointAt(input, pos)); 096 } 097 } 098 } 099 100 /** 101 * Helper method to create a merger of this translator with another set of 102 * translators. Useful in customizing the standard functionality. 103 * 104 * @param translators CharSequenceTranslator array of translators to merge with this one 105 * @return CharSequenceTranslator merging this translator with the others 106 */ 107 public final CharSequenceTranslator with(final CharSequenceTranslator... translators) { 108 final CharSequenceTranslator[] newArray = new CharSequenceTranslator[translators.length + 1]; 109 newArray[0] = this; 110 System.arraycopy(translators, 0, newArray, 1, translators.length); 111 return new AggregateTranslator(newArray); 112 } 113 114 /** 115 * <p>Returns an upper case hexadecimal <code>String</code> for the given 116 * character.</p> 117 * 118 * @param codepoint The codepoint to convert. 119 * @return An upper case hexadecimal <code>String</code> 120 */ 121 public static String hex(final int codepoint) { 122 return Integer.toHexString(codepoint).toUpperCase(Locale.ENGLISH); 123 } 124 125}