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package sun.io;

An algorithmic conversion from ISO 2022 to Unicode
Author:Tom Zhou
/** * An algorithmic conversion from ISO 2022 to Unicode * * @author Tom Zhou */
public abstract class ByteToCharISO2022 extends ByteToCharConverter { // Value to be filled by subclass protected String SODesignator[]; protected String SS2Designator[] = null; protected String SS3Designator[] = null; protected ByteToCharConverter SOConverter[]; protected ByteToCharConverter SS2Converter[] = null; protected ByteToCharConverter SS3Converter[] = null; private static final byte ISO_ESC = 0x1b; private static final byte ISO_SI = 0x0f; private static final byte ISO_SO = 0x0e; private static final byte ISO_SS2_7 = 0x4e; private static final byte ISO_SS3_7 = 0x4f; private static final byte MSB = (byte)0x80; private static final char REPLACE_CHAR = '\uFFFD'; private static final byte maximumDesignatorLength = 3; private static final byte SOFlag = 0; private static final byte SS2Flag = 1; private static final byte SS3Flag = 2; private static final byte G0 = 0; private static final byte G1 = 1; private ByteToCharConverter tmpConverter[]; private int curSODes, curSS2Des, curSS3Des; private boolean shiftout; private byte remainByte[] = new byte[10]; private int remainIndex = -1; private byte state, firstByte; public void reset() { int i = 0; shiftout = false; state = G0; firstByte = 0; curSODes = 0; curSS2Des = 0; curSS3Des = 0; charOff = byteOff = 0; remainIndex = -1; for(i = 0; i < remainByte.length; i++) remainByte[i] = 0; } public int flush(char[] output, int outStart, int outEnd) throws MalformedInputException { int i; if (state != G0) { badInputLength = 0; throw new MalformedInputException(); } reset(); return 0; } private byte[] savetyGetSrc(byte[] input, int inOff, int inEnd, int nbytes) { int i; byte tmp[]; if(inOff <= (inEnd-nbytes+1)) tmp = new byte[nbytes]; else tmp = new byte[inEnd-inOff]; for(i = 0; i < tmp.length; i++) tmp[i] = input[inOff+i]; return tmp; } private char getUnicode(byte byte1, byte byte2, byte shiftFlag) { byte1 |= MSB; byte2 |= MSB; byte[] tmpByte = {byte1,byte2}; char[] tmpChar = new char[1]; int i = 0, tmpIndex = 0; switch(shiftFlag) { case SOFlag: tmpIndex = curSODes; tmpConverter = SOConverter; break; case SS2Flag: tmpIndex = curSS2Des; tmpConverter = SS2Converter; break; case SS3Flag: tmpIndex = curSS3Des; tmpConverter = SS3Converter; break; } for(i = 0; i < tmpConverter.length; i++) { if(tmpIndex == i) { try { tmpConverter[i].convert(tmpByte, 0, 2, tmpChar, 0, 1); } catch (Exception e) {} return tmpChar[0]; } } return REPLACE_CHAR; } public final int convert(byte[] input, int inOff, int inEnd, char[] output, int outOff, int outEnd) throws ConversionBufferFullException, MalformedInputException { int i; int DesignatorLength = 0; charOff = outOff; byteOff = inOff; // Loop until we hit the end of the input while (byteOff < inEnd) { // If we don't have room for the output, throw an exception if (charOff >= outEnd) throw new ConversionBufferFullException(); if(remainIndex < 0) { remainByte[0] = input[byteOff]; remainIndex = 0; byteOff++; } switch (remainByte[0]) { case ISO_SO: shiftout = true; if(remainIndex > 0) System.arraycopy(remainByte, 1, remainByte, 0, remainIndex); remainIndex--; break; case ISO_SI: shiftout = false; if(remainIndex > 0) System.arraycopy(remainByte, 1, remainByte, 0, remainIndex); remainIndex--; break; case ISO_ESC: byte tmp[] = savetyGetSrc(input, byteOff, inEnd, (maximumDesignatorLength-remainIndex)); System.arraycopy(tmp, 0, remainByte, remainIndex+1, tmp.length); remainIndex += tmp.length; byteOff += tmp.length; if(tmp.length<(maximumDesignatorLength-remainIndex)) break; String tmpString = new String(remainByte, 1, remainIndex); for (i = 0; i < SODesignator.length; i++) { if(tmpString.indexOf(SODesignator[i]) == 0) { curSODes = i; DesignatorLength = SODesignator[i].length(); break; } } if (DesignatorLength == 0 ) { // Designator not recognized badInputLength = tmp.length; throw new MalformedInputException(); } if (i == SODesignator.length) { for (i = 0; i < SS2Designator.length; i++) { if(tmpString.indexOf(SS2Designator[i]) == 0) { curSS2Des = i; DesignatorLength = SS2Designator[i].length(); break; } } if(i == SS2Designator.length) { for(i = 0; i < SS3Designator.length; i++) { if (tmpString.indexOf(SS3Designator[i]) == 0) { curSS3Des = i; DesignatorLength = SS3Designator[i].length(); break; } } if (i == SS3Designator.length) { switch(remainByte[1]) { case ISO_SS2_7: output[charOff] = getUnicode(remainByte[2], remainByte[3], SS2Flag); charOff++; DesignatorLength = 3; break; case ISO_SS3_7: output[charOff] = getUnicode(remainByte[2], remainByte[3], SS3Flag); charOff++; DesignatorLength = 3; break; default: DesignatorLength = 0; } } } } if (remainIndex > DesignatorLength) { for(i = 0; i < remainIndex-DesignatorLength; i++) remainByte[i] = remainByte[DesignatorLength+1+i]; remainIndex = i-1; } else { remainIndex = -1; } break; default: if (!shiftout) { output[charOff] = (char)remainByte[0]; charOff++; } else { switch (state) { case G0: firstByte = remainByte[0]; state = G1; break; case G1: output[charOff] = getUnicode(firstByte, remainByte[0], SOFlag); charOff++; state = G0; break; } } if (remainIndex > 0) System.arraycopy(remainByte, 1, remainByte, 0, remainIndex); remainIndex--; } } return charOff - outOff; } }