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// =================================================================================================
// ADOBE SYSTEMS INCORPORATED
// Copyright 2006 Adobe Systems Incorporated
// All Rights Reserved
//
// NOTICE:  Adobe permits you to use, modify, and distribute this file in accordance with the terms
// of the Adobe license agreement accompanying it.
// =================================================================================================



package com.adobe.internal.xmp.impl;

import java.io.UnsupportedEncodingException;


/**
 * @author  Stefan Makswit
 * @version $Revision$
 * @since   12.10.2006
 */
public class Latin1Converter
{
	/** */
	private static final int STATE_START = 0;
	/** */
	private static final int STATE_UTF8CHAR = 11;


	/**
	 * Private constructor
	 */
	private Latin1Converter()
	{
		// EMPTY
	}


	/**
	 * A converter that processes a byte buffer containing a mix of UTF8 and Latin-1/Cp1252 chars.
	 * The result is a buffer where those chars have been converted to UTF-8;
	 * that means it contains only valid UTF-8 chars.
	 * 

* Explanation of the processing: First the encoding of the buffer is detected looking * at the first four bytes (that works only if the buffer starts with an ASCII-char, * like xmls '<'). UTF-16/32 flavours do not require further proccessing. *

* In the case, UTF-8 is detected, it assumes wrong UTF8 chars to be a sequence of * Latin-1/Cp1252 encoded bytes and converts the chars to their corresponding UTF-8 byte * sequence. *

* The 0x80..0x9F range is undefined in Latin-1, but is defined in Windows code * page 1252. The bytes 0x81, 0x8D, 0x8F, 0x90, and 0x9D are formally undefined * by Windows 1252. These are in XML's RestrictedChar set, so we map them to a * space. *

* The official Latin-1 characters in the range 0xA0..0xFF are converted into * the Unicode Latin Supplement range U+00A0 - U+00FF. *

* Example: If an Euro-symbol (€) appears in the byte buffer (0xE2, 0x82, 0xAC), * it will be left as is. But if only the first two bytes are appearing, * followed by an ASCII char a (0xE2 - 0x82 - 0x41), it will be converted to * 0xC3, 0xA2 (â) - 0xE2, 0x80, 0x9A (‚) - 0x41 (a). * * @param buffer a byte buffer contain * @return Returns a new buffer containing valid UTF-8 */ public static ByteBuffer convert(ByteBuffer buffer) { if ("UTF-8".equals(buffer.getEncoding())) { // the buffer containing one UTF-8 char (up to 8 bytes) byte[] readAheadBuffer = new byte[8]; // the number of bytes read ahead. int readAhead = 0; // expected UTF8 bytesto come int expectedBytes = 0; // output buffer with estimated length ByteBuffer out = new ByteBuffer(buffer.length() * 4 / 3); int state = STATE_START; for (int i = 0; i < buffer.length(); i++) { int b = buffer.charAt(i); switch (state) { default: case STATE_START: if (b < 0x7F) { out.append((byte) b); } else if (b >= 0xC0) { // start of UTF8 sequence expectedBytes = -1; int test = b; for (; expectedBytes < 8 && (test & 0x80) == 0x80; test = test << 1) { expectedBytes++; } readAheadBuffer[readAhead++] = (byte) b; state = STATE_UTF8CHAR; } else // implicitly: b >= 0x80 && b < 0xC0 { // invalid UTF8 start char, assume to be Latin-1 byte[] utf8 = convertToUTF8((byte) b); out.append(utf8); } break; case STATE_UTF8CHAR: if (expectedBytes > 0 && (b & 0xC0) == 0x80) { // valid UTF8 char, add to readAheadBuffer readAheadBuffer[readAhead++] = (byte) b; expectedBytes--; if (expectedBytes == 0) { out.append(readAheadBuffer, 0, readAhead); readAhead = 0; state = STATE_START; } } else { // invalid UTF8 char: // 1. convert first of seq to UTF8 byte[] utf8 = convertToUTF8(readAheadBuffer[0]); out.append(utf8); // 2. continue processing at second byte of sequence i = i - readAhead; readAhead = 0; state = STATE_START; } break; } } // loop ends with "half" Utf8 char --> assume that the bytes are Latin-1 if (state == STATE_UTF8CHAR) { for (int j = 0; j < readAhead; j++) { byte b = readAheadBuffer[j]; byte[] utf8 = convertToUTF8(b); out.append(utf8); } } return out; } else { // Latin-1 fixing applies only to UTF-8 return buffer; } } /** * Converts a Cp1252 char (contains all Latin-1 chars above 0x80) into a * UTF-8 byte sequence. The bytes 0x81, 0x8D, 0x8F, 0x90, and 0x9D are * formally undefined by Windows 1252 and therefore replaced by a space * (0x20). * * @param ch * an Cp1252 / Latin-1 byte * @return Returns a byte array containing a UTF-8 byte sequence. */ private static byte[] convertToUTF8(byte ch) { int c = ch & 0xFF; try { if (c >= 0x80) { if (c == 0x81 || c == 0x8D || c == 0x8F || c == 0x90 || c == 0x9D) { return new byte[] { 0x20 }; // space for undefined } // interpret byte as Windows Cp1252 char return new String(new byte[] { ch }, "cp1252").getBytes("UTF-8"); } } catch (UnsupportedEncodingException e) { // EMPTY } return new byte[] { ch }; } }





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