/*
 * Copyright (c) 1996, 1997, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package sun.io;

public class ByteToCharISO2022JP extends ByteToCharJIS0208 {

    private static final int ASCII = 0;                 // ESC ( B
    private static final int JISX0201_1976 = 1;         // ESC ( J
    private static final int JISX0208_1978 = 2;         // ESC $ @
    private static final int JISX0208_1983 = 3;         // ESC $ B
    private static final int JISX0201_1976_KANA = 4;    // ESC ( I
    private static final int SHIFTOUT = 5;              // SO (0x0e)

    private int currentState;
    private int savedSize;
    private byte[] savedBytes;

    public ByteToCharISO2022JP() {
        super();
        savedBytes = new byte[2];
        currentState = ASCII;
        savedSize = 0;
    }

    public int flush(char [] output, int outStart, int outEnd)
        throws MalformedInputException
    {
        if (savedSize != 0) {
            savedSize = 0;
            currentState = ASCII;
            badInputLength = 0;
            throw new MalformedInputException();
        }
        byteOff = charOff = 0;
        return 0;
    }


    
Character conversion
/** * Character conversion */
public int convert(byte[] input, int inOff, int inEnd, char[] output, int outOff, int outEnd) throws UnknownCharacterException, MalformedInputException, ConversionBufferFullException { int previousState = ASCII; int inputSize = 0; char outputChar = '\uFFFD'; // readOff keeps the actual buffer's pointer. // byteOff keeps original buffer's pointer. int readOff = byteOff = inOff; if (savedSize != 0) { if (savedBytes[0] == 0x1b) { // ESC if ((savedSize == 2 && (savedBytes[1] == 0x28 && input[0] != 'B' && input[0] != 'J' && input[0] != 'I') && (savedBytes[1] == 0x24 && input[0] != '@' && input[0] != 'B')) || ((savedSize == 1) && (input[0] != 0x28 && input[0] != 0x24))) { badInputLength = 0; throw new MalformedInputException(); } if ((inEnd - inOff) == 1 && savedSize == 1 && savedBytes[0] == 0x1b) { savedSize = 2; savedBytes[1] = input[0]; byteOff++; return 0; } } byte[] newBuf = new byte[inEnd - inOff + savedSize]; for (int i = 0; i < savedSize; i++) { newBuf[i] = savedBytes[i]; } System.arraycopy(input, inOff, newBuf, savedSize, inEnd - inOff); byteOff -= savedSize; input = newBuf; inOff = 0; inEnd = newBuf.length; savedSize = 0; } charOff = outOff; readOff = inOff; while(readOff < inEnd) { int byte1, byte2, byte3; boolean noOutput = false; // Is there room in the output buffer for the result? if (charOff >= outEnd) { throw new ConversionBufferFullException(); } // Get the input byte byte1 = input[readOff] & 0xFF; inputSize = 1; if ((byte1 & (byte)0x80) != 0){ badInputLength = 1; throw new MalformedInputException(); } // Is this a escape sequence? while (byte1 == 0x1b || byte1 == 0x0e || byte1 == 0x0f) { if (byte1 == 0x1b){ // ESC if (readOff + inputSize + 1 >= inEnd) { if (readOff + inputSize >= inEnd) { savedSize = 1; savedBytes[0] = (byte)byte1; } else { savedSize = 2; savedBytes[0] = (byte)byte1; savedBytes[1] = (byte)input[readOff + inputSize]; inputSize++; } break; } byte2 = input[readOff + inputSize] & 0xFF; inputSize++; if ((byte2 & (byte)0x80) != 0){ badInputLength = 2; throw new MalformedInputException(); } if (byte2 == 0x28){ byte3 = input[readOff + inputSize] & 0xFF; inputSize++; if (byte3 == 'B'){ currentState = ASCII; } else if (byte3 == 'J'){ currentState = JISX0201_1976; } else if (byte3 == 'I'){ currentState = JISX0201_1976_KANA; } else { // illegal ESC sequence badInputLength = 3; throw new MalformedInputException(); } } else if (byte2 == '$'){ byte3 = input[readOff + inputSize] & 0xFF; inputSize++; if ((byte3 & (byte)0x80) != 0){ badInputLength = 3; throw new MalformedInputException(); } if (byte3 == '@'){ currentState = JISX0208_1978; } else if (byte3 == 'B'){ currentState = JISX0208_1983; } else { // illegal ESC sequence badInputLength = 3; throw new MalformedInputException(); } } else { // illegal ESC sequence badInputLength = 2; throw new MalformedInputException(); } if (readOff + inputSize >= inEnd) { noOutput = true; break; } else { byte1 = input[readOff + inputSize]; inputSize++; } } else if (byte1 == 0x0e){ // shift out for one byte kana previousState = currentState; currentState = SHIFTOUT; if (readOff + inputSize >= inEnd) { noOutput = true; break; } byte1 = input[readOff + inputSize]; inputSize++; if ((byte1 & (byte)0x80) != 0){ badInputLength = 1; throw new MalformedInputException(); } } else if (byte1 == 0x0f){ // shift in for previous mode currentState = previousState; if (readOff + inputSize >= inEnd) { noOutput = true; break; } byte1 = input[readOff + inputSize]; inputSize++; if ((byte1 & (byte)0x80) != 0){ badInputLength = 1; throw new MalformedInputException(); } } } if (noOutput || savedSize != 0) { byteOff += inputSize; break; } noOutput = false; switch (currentState){ case ASCII: outputChar = (char)(byte1 & 0xff); break; case JISX0201_1976: switch (byte1) { case 0x5c: outputChar = '\u00a5'; break; case 0x7e: outputChar = '\u203e'; break; default: outputChar = (char)byte1; break; } break; case JISX0208_1978: case JISX0208_1983: if (readOff + inputSize >= inEnd) { savedSize = 1; savedBytes[0] = (byte)byte1; break; } byte2 = input[readOff + inputSize] & 0xff; inputSize++; if ((byte2 & (byte)0x80) != 0){ badInputLength = 1; throw new MalformedInputException(); } // jisx0208Chars table convert FULLWIDTH_REVERSE_SOLIDUS // 0x2140 to REVERSE_SOLIDUS (BACKSLASH) 0x5c. // This behavior causes problem because // 0x5c is special escape character for java. if (byte1 == 0x21 && byte2 == 0x40) { outputChar = '\uFF3C'; } else { try { outputChar = getUnicode(byte1, byte2); } catch (ArrayIndexOutOfBoundsException e) { outputChar = '\uFFFD'; } } break; case JISX0201_1976_KANA: case SHIFTOUT: if (byte1 > 0x60) { badInputLength = 1; throw new MalformedInputException(); } outputChar = (char)(byte1 + 0xff40); break; } if (savedSize != 0) { byteOff += inputSize; break; } if (outputChar == '\uFFFD') { if (subMode) outputChar = subChars[0]; else { badInputLength = inputSize; throw new UnknownCharacterException(); } } readOff += inputSize; byteOff += inputSize; output[charOff++] = outputChar; } return charOff - outOff; } public void reset() { byteOff = charOff = 0; currentState = ASCII; savedSize = 0; } public String getCharacterEncoding() { return "ISO2022JP"; } }