using System;
using System.Collections;
using System.Globalization;
using System.IO;
using System.Text;
using System.util;
using iTextSharp.text.xml.simpleparser;
/*
* Copyright 2002-2006 Paulo Soares
*
* The contents of this file are subject to the Mozilla Public License Version 1.1
* (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.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the License.
*
* The Original Code is 'iText, a free JAVA-PDF library'.
*
* The Initial Developer of the Original Code is Bruno Lowagie. Portions created by
* the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie.
* All Rights Reserved.
* Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer
* are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved.
*
* Contributor(s): all the names of the contributors are added in the source code
* where applicable.
*
* Alternatively, the contents of this file may be used under the terms of the
* LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the
* provisions of LGPL are applicable instead of those above. If you wish to
* allow use of your version of this file only under the terms of the LGPL
* License and not to allow others to use your version of this file under
* the MPL, indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by the LGPL.
* If you do not delete the provisions above, a recipient may use your version
* of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the MPL as stated above or under the terms of the GNU
* Library General Public License as published by the Free Software Foundation;
* either version 2 of the License, or any later version.
*
* This library 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 Library general Public License for more
* details.
*
* If you didn't download this code from the following link, you should check if
* you aren't using an obsolete version:
* http://www.lowagie.com/iText/
*/
namespace iTextSharp.text.pdf {
/** Supports fast encodings for winansi and PDFDocEncoding.
*
* @author Paulo Soares (psoares@consiste.pt)
*/
public class PdfEncodings {
protected const int CIDNONE = 0;
protected const int CIDRANGE = 1;
protected const int CIDCHAR = 2;
internal static char[] winansiByteToChar = {
(char)0, (char)1, (char)2, (char)3, (char)4, (char)5, (char)6, (char)7, (char)8, (char)9, (char)10, (char)11, (char)12, (char)13, (char)14, (char)15,
(char)16, (char)17, (char)18, (char)19, (char)20, (char)21, (char)22, (char)23, (char)24, (char)25, (char)26, (char)27, (char)28, (char)29, (char)30, (char)31,
(char)32, (char)33, (char)34, (char)35, (char)36, (char)37, (char)38, (char)39, (char)40, (char)41, (char)42, (char)43, (char)44, (char)45, (char)46, (char)47,
(char)48, (char)49, (char)50, (char)51, (char)52, (char)53, (char)54, (char)55, (char)56, (char)57, (char)58, (char)59, (char)60, (char)61, (char)62, (char)63,
(char)64, (char)65, (char)66, (char)67, (char)68, (char)69, (char)70, (char)71, (char)72, (char)73, (char)74, (char)75, (char)76, (char)77, (char)78, (char)79,
(char)80, (char)81, (char)82, (char)83, (char)84, (char)85, (char)86, (char)87, (char)88, (char)89, (char)90, (char)91, (char)92, (char)93, (char)94, (char)95,
(char)96, (char)97, (char)98, (char)99, (char)100, (char)101, (char)102, (char)103, (char)104, (char)105, (char)106, (char)107, (char)108, (char)109, (char)110, (char)111,
(char)112, (char)113, (char)114, (char)115, (char)116, (char)117, (char)118, (char)119, (char)120, (char)121, (char)122, (char)123, (char)124, (char)125, (char)126, (char)127,
(char)8364, (char)65533, (char)8218, (char)402, (char)8222, (char)8230, (char)8224, (char)8225, (char)710, (char)8240, (char)352, (char)8249, (char)338, (char)65533, (char)381, (char)65533,
(char)65533, (char)8216, (char)8217, (char)8220, (char)8221, (char)8226, (char)8211, (char)8212, (char)732, (char)8482, (char)353, (char)8250, (char)339, (char)65533, (char)382, (char)376,
(char)160, (char)161, (char)162, (char)163, (char)164, (char)165, (char)166, (char)167, (char)168, (char)169, (char)170, (char)171, (char)172, (char)173, (char)174, (char)175,
(char)176, (char)177, (char)178, (char)179, (char)180, (char)181, (char)182, (char)183, (char)184, (char)185, (char)186, (char)187, (char)188, (char)189, (char)190, (char)191,
(char)192, (char)193, (char)194, (char)195, (char)196, (char)197, (char)198, (char)199, (char)200, (char)201, (char)202, (char)203, (char)204, (char)205, (char)206, (char)207,
(char)208, (char)209, (char)210, (char)211, (char)212, (char)213, (char)214, (char)215, (char)216, (char)217, (char)218, (char)219, (char)220, (char)221, (char)222, (char)223,
(char)224, (char)225, (char)226, (char)227, (char)228, (char)229, (char)230, (char)231, (char)232, (char)233, (char)234, (char)235, (char)236, (char)237, (char)238, (char)239,
(char)240, (char)241, (char)242, (char)243, (char)244, (char)245, (char)246, (char)247, (char)248, (char)249, (char)250, (char)251, (char)252, (char)253, (char)254, (char)255};
internal static char[] pdfEncodingByteToChar = {
(char)0, (char)1, (char)2, (char)3, (char)4, (char)5, (char)6, (char)7, (char)8, (char)9, (char)10, (char)11, (char)12, (char)13, (char)14, (char)15,
(char)16, (char)17, (char)18, (char)19, (char)20, (char)21, (char)22, (char)23, (char)24, (char)25, (char)26, (char)27, (char)28, (char)29, (char)30, (char)31,
(char)32, (char)33, (char)34, (char)35, (char)36, (char)37, (char)38, (char)39, (char)40, (char)41, (char)42, (char)43, (char)44, (char)45, (char)46, (char)47,
(char)48, (char)49, (char)50, (char)51, (char)52, (char)53, (char)54, (char)55, (char)56, (char)57, (char)58, (char)59, (char)60, (char)61, (char)62, (char)63,
(char)64, (char)65, (char)66, (char)67, (char)68, (char)69, (char)70, (char)71, (char)72, (char)73, (char)74, (char)75, (char)76, (char)77, (char)78, (char)79,
(char)80, (char)81, (char)82, (char)83, (char)84, (char)85, (char)86, (char)87, (char)88, (char)89, (char)90, (char)91, (char)92, (char)93, (char)94, (char)95,
(char)96, (char)97, (char)98, (char)99, (char)100, (char)101, (char)102, (char)103, (char)104, (char)105, (char)106, (char)107, (char)108, (char)109, (char)110, (char)111,
(char)112, (char)113, (char)114, (char)115, (char)116, (char)117, (char)118, (char)119, (char)120, (char)121, (char)122, (char)123, (char)124, (char)125, (char)126, (char)127,
(char)0x2022, (char)0x2020, (char)0x2021, (char)0x2026, (char)0x2014, (char)0x2013, (char)0x0192, (char)0x2044, (char)0x2039, (char)0x203a, (char)0x2212, (char)0x2030, (char)0x201e, (char)0x201c, (char)0x201d, (char)0x2018,
(char)0x2019, (char)0x201a, (char)0x2122, (char)0xfb01, (char)0xfb02, (char)0x0141, (char)0x0152, (char)0x0160, (char)0x0178, (char)0x017d, (char)0x0131, (char)0x0142, (char)0x0153, (char)0x0161, (char)0x017e, (char)65533,
(char)0x20ac, (char)161, (char)162, (char)163, (char)164, (char)165, (char)166, (char)167, (char)168, (char)169, (char)170, (char)171, (char)172, (char)173, (char)174, (char)175,
(char)176, (char)177, (char)178, (char)179, (char)180, (char)181, (char)182, (char)183, (char)184, (char)185, (char)186, (char)187, (char)188, (char)189, (char)190, (char)191,
(char)192, (char)193, (char)194, (char)195, (char)196, (char)197, (char)198, (char)199, (char)200, (char)201, (char)202, (char)203, (char)204, (char)205, (char)206, (char)207,
(char)208, (char)209, (char)210, (char)211, (char)212, (char)213, (char)214, (char)215, (char)216, (char)217, (char)218, (char)219, (char)220, (char)221, (char)222, (char)223,
(char)224, (char)225, (char)226, (char)227, (char)228, (char)229, (char)230, (char)231, (char)232, (char)233, (char)234, (char)235, (char)236, (char)237, (char)238, (char)239,
(char)240, (char)241, (char)242, (char)243, (char)244, (char)245, (char)246, (char)247, (char)248, (char)249, (char)250, (char)251, (char)252, (char)253, (char)254, (char)255};
internal static IntHashtable winansi = new IntHashtable();
internal static IntHashtable pdfEncoding = new IntHashtable();
internal static Hashtable extraEncodings = new Hashtable();
static PdfEncodings() {
for (int k = 128; k < 161; ++k) {
char c = winansiByteToChar[k];
if (c != 65533)
winansi[c] = k;
}
for (int k = 128; k < 161; ++k) {
char c = pdfEncodingByteToChar[k];
if (c != 65533)
pdfEncoding[c] = k;
}
AddExtraEncoding("Wingdings", new WingdingsConversion());
AddExtraEncoding("Symbol", new SymbolConversion(true));
AddExtraEncoding("ZapfDingbats", new SymbolConversion(false));
AddExtraEncoding("SymbolTT", new SymbolTTConversion());
AddExtraEncoding("Cp437", new Cp437Conversion());
}
/**
* Converts a string to a byte array according
* to the font's encoding.
* @param text the string to be converted
* @return an array of byte representing the conversion according to the font's encoding
*/
public static byte[] ConvertToBytes(string text, string encoding) {
if (text == null)
return new byte[0];
if (encoding == null || encoding.Length == 0) {
int len = text.Length;
byte[] b = new byte[len];
for (int k = 0; k < len; ++k)
b[k] = (byte)text[k];
return b;
}
IExtraEncoding extra = (IExtraEncoding)extraEncodings[encoding.ToLower(System.Globalization.CultureInfo.InvariantCulture)];
if (extra != null) {
byte[] b = extra.CharToByte(text, encoding);
if (b != null)
return b;
}
IntHashtable hash = null;
if (encoding.Equals(BaseFont.CP1252))
hash = winansi;
else if (encoding.Equals(PdfObject.TEXT_PDFDOCENCODING))
hash = pdfEncoding;
if (hash != null) {
char[] cc = text.ToCharArray();
int len = cc.Length;
int ptr = 0;
byte[] b = new byte[len];
int c = 0;
for (int k = 0; k < len; ++k) {
char char1 = cc[k];
if (char1 < 128 || (char1 > 160 && char1 <= 255))
c = char1;
else
c = hash[char1];
if (c != 0)
b[ptr++] = (byte)c;
}
if (ptr == len)
return b;
byte[] b2 = new byte[ptr];
Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
Encoding encw = IanaEncodings.GetEncodingEncoding(encoding);
byte[] preamble = encw.GetPreamble();
if (preamble.Length == 0)
return encw.GetBytes(text);
byte[] encoded = encw.GetBytes(text);
byte[] total = new byte[encoded.Length + preamble.Length];
Array.Copy(preamble, 0, total, 0, preamble.Length);
Array.Copy(encoded, 0, total, preamble.Length, encoded.Length);
return total;
}
/** Converts a String to a byte array according
* to the font's encoding.
* @return an array of byte representing the conversion according to the font's encoding
* @param encoding the encoding
* @param char1 the char to be converted
*/
public static byte[] ConvertToBytes(char char1, String encoding) {
if (encoding == null || encoding.Length == 0)
return new byte[]{(byte)char1};
IExtraEncoding extra = (IExtraEncoding)extraEncodings[encoding.ToLower(System.Globalization.CultureInfo.InvariantCulture)];
if (extra != null) {
byte[] b = extra.CharToByte(char1, encoding);
if (b != null)
return b;
}
IntHashtable hash = null;
if (encoding.Equals(BaseFont.WINANSI))
hash = winansi;
else if (encoding.Equals(PdfObject.TEXT_PDFDOCENCODING))
hash = pdfEncoding;
if (hash != null) {
int c = 0;
if (char1 < 128 || (char1 > 160 && char1 <= 255))
c = char1;
else
c = hash[char1];
if (c != 0)
return new byte[]{(byte)c};
else
return new byte[0];
}
Encoding encw = IanaEncodings.GetEncodingEncoding(encoding);
byte[] preamble = encw.GetPreamble();
char[] text = new char[]{char1};
if (preamble.Length == 0)
return encw.GetBytes(text);
byte[] encoded = encw.GetBytes(text);
byte[] total = new byte[encoded.Length + preamble.Length];
Array.Copy(preamble, 0, total, 0, preamble.Length);
Array.Copy(encoded, 0, total, preamble.Length, encoded.Length);
return total;
}
public static string ConvertToString(byte[] bytes, string encoding) {
if (bytes == null)
return PdfObject.NOTHING;
if (encoding == null || encoding.Length == 0) {
char[] c = new char[bytes.Length];
for (int k = 0; k < bytes.Length; ++k)
c[k] = (char)(bytes[k] & 0xff);
return new String(c);
}
IExtraEncoding extra = (IExtraEncoding)extraEncodings[encoding.ToLower(System.Globalization.CultureInfo.InvariantCulture)];
if (extra != null) {
String text = extra.ByteToChar(bytes, encoding);
if (text != null)
return text;
}
char[] ch = null;
if (encoding.Equals(BaseFont.WINANSI))
ch = winansiByteToChar;
else if (encoding.Equals(PdfObject.TEXT_PDFDOCENCODING))
ch = pdfEncodingByteToChar;
if (ch != null) {
int len = bytes.Length;
char[] c = new char[len];
for (int k = 0; k < len; ++k) {
c[k] = ch[bytes[k] & 0xff];
}
return new String(c);
}
String nameU = encoding.ToUpper(System.Globalization.CultureInfo.InvariantCulture);
bool marker = false;
bool big = false;
int offset = 0;
if (bytes.Length >= 2) {
if (bytes[0] == (byte)254 && bytes[1] == (byte)255) {
marker = true;
big = true;
offset = 2;
}
else if (bytes[0] == (byte)255 && bytes[1] == (byte)254) {
marker = true;
big = false;
offset = 2;
}
}
Encoding enc = null;
if (nameU.Equals("UNICODEBIGUNMARKED") || nameU.Equals("UNICODEBIG"))
enc = new UnicodeEncoding(marker ? big : true, false);
if (nameU.Equals("UNICODELITTLEUNMARKED") || nameU.Equals("UNICODELITTLE"))
enc = new UnicodeEncoding(marker ? big : false, false);
if (enc != null)
return enc.GetString(bytes, offset, bytes.Length - offset);
return IanaEncodings.GetEncodingEncoding(encoding).GetString(bytes);
}
/** Checks is text only has PdfDocEncoding characters.
* @param text the String to test
* @return true if only PdfDocEncoding characters are present
*/
public static bool IsPdfDocEncoding(String text) {
if (text == null)
return true;
int len = text.Length;
for (int k = 0; k < len; ++k) {
char char1 = text[k];
if (char1 < 128 || (char1 > 160 && char1 <= 255))
continue;
if (!pdfEncoding.ContainsKey(char1))
return false;
}
return true;
}
internal static Hashtable cmaps = new Hashtable();
/** Assumes that '\\n' and '\\r\\n' are the newline sequences. It may not work for
* all CJK encodings. To be used with LoadCmap().
*/
public static byte[][] CRLF_CID_NEWLINE = new byte[][]{new byte[]{(byte)'\n'}, new byte[]{(byte)'\r', (byte)'\n'}};
/** Clears the CJK cmaps from the cache. If name is the
* empty string then all the cache is cleared. Calling this method
* has no consequences other than the need to reload the cmap
* if needed.
* @param name the name of the cmap to clear or all the cmaps if the empty string
*/
public static void ClearCmap(String name) {
lock (cmaps) {
if (name.Length == 0)
cmaps.Clear();
else
cmaps.Remove(name);
}
}
/** Loads a CJK cmap to the cache with the option of associating
* sequences to the newline.
* @param name the CJK cmap name
* @param newline the sequences to be replaced bi a newline in the resulting CID. See CRLF_CID_NEWLINE
*/
public static void LoadCmap(String name, byte[][] newline) {
char[][] planes = null;
lock (cmaps) {
planes = (char[][])cmaps[name];
}
if (planes == null) {
planes = ReadCmap(name, newline);
lock (cmaps) {
cmaps[name] = planes;
}
}
}
/** Converts a byte array encoded as name
* to a CID string. This is needed to reach some CJK characters
* that don't exist in 16 bit Unicode.
* The font to use this result must use the encoding "Identity-H"
* or "Identity-V".
* See ftp://ftp.oreilly.com/pub/examples/nutshell/cjkv/adobe/.
* @param name the CJK encoding name
* @param seq the byte array to be decoded
* @return the CID string
*/
public static String ConvertCmap(String name, byte[] seq) {
return ConvertCmap(name, seq, 0, seq.Length);
}
/** Converts a byte array encoded as name
* to a CID string. This is needed to reach some CJK characters
* that don't exist in 16 bit Unicode.
* The font to use this result must use the encoding "Identity-H"
* or "Identity-V".
* See ftp://ftp.oreilly.com/pub/examples/nutshell/cjkv/adobe/.
* @param name the CJK encoding name
* @param start the start offset in the data
* @param length the number of bytes to convert
* @param seq the byte array to be decoded
* @return the CID string
*/
public static String ConvertCmap(String name, byte[] seq, int start, int length) {
char[][] planes = null;
lock (cmaps) {
planes = (char[][])cmaps[name];
}
if (planes == null) {
planes = ReadCmap(name, (byte[][])null);
lock (cmaps) {
cmaps[name] = planes;
}
}
return DecodeSequence(seq, start, length, planes);
}
internal static String DecodeSequence(byte[] seq, int start, int length, char[][] planes) {
StringBuilder buf = new StringBuilder();
int end = start + length;
int currentPlane = 0;
for (int k = start; k < end; ++k) {
int one = (int)seq[k] & 0xff;
char[] plane = planes[currentPlane];
int cid = plane[one];
if ((cid & 0x8000) == 0) {
buf.Append((char)cid);
currentPlane = 0;
}
else
currentPlane = cid & 0x7fff;
}
return buf.ToString();
}
internal static char[][] ReadCmap(String name, byte[][] newline) {
ArrayList planes = new ArrayList();
planes.Add(new char[256]);
ReadCmap(name, planes);
if (newline != null) {
for (int k = 0; k < newline.Length; ++k)
EncodeSequence(newline[k].Length, newline[k], BaseFont.CID_NEWLINE, planes);
}
char[][] ret = new char[planes.Count][];
planes.CopyTo(ret, 0);
return ret;
}
internal static void ReadCmap(String name, ArrayList planes) {
String fullName = BaseFont.RESOURCE_PATH + "cmaps." + name;
Stream inp = BaseFont.GetResourceStream(fullName);
if (inp == null)
throw new IOException("The Cmap " + name + " was not found.");
EncodeStream(inp, planes);
inp.Close();
}
internal static void EncodeStream(Stream inp, ArrayList planes) {
StreamReader rd = new StreamReader(inp, Encoding.ASCII);
String line = null;
int state = CIDNONE;
byte[] seqs = new byte[7];
while ((line = rd.ReadLine()) != null) {
if (line.Length < 6)
continue;
switch (state) {
case CIDNONE: {
if (line.IndexOf("begincidrange") >= 0)
state = CIDRANGE;
else if (line.IndexOf("begincidchar") >= 0)
state = CIDCHAR;
else if (line.IndexOf("usecmap") >= 0) {
StringTokenizer tk = new StringTokenizer(line);
String t = tk.NextToken();
ReadCmap(t.Substring(1), planes);
}
break;
}
case CIDRANGE: {
if (line.IndexOf("endcidrange") >= 0) {
state = CIDNONE;
break;
}
StringTokenizer tk = new StringTokenizer(line);
String t = tk.NextToken();
int size = t.Length / 2 - 1;
long start = long.Parse(t.Substring(1, t.Length - 2), NumberStyles.HexNumber);
t = tk.NextToken();
long end = long.Parse(t.Substring(1, t.Length - 2), NumberStyles.HexNumber);
t = tk.NextToken();
int cid = int.Parse(t);
for (long k = start; k <= end; ++k) {
BreakLong(k, size, seqs);
EncodeSequence(size, seqs, (char)cid, planes);
++cid;
}
break;
}
case CIDCHAR: {
if (line.IndexOf("endcidchar") >= 0) {
state = CIDNONE;
break;
}
StringTokenizer tk = new StringTokenizer(line);
String t = tk.NextToken();
int size = t.Length / 2 - 1;
long start = long.Parse(t.Substring(1, t.Length - 2), NumberStyles.HexNumber);
t = tk.NextToken();
int cid = int.Parse(t);
BreakLong(start, size, seqs);
EncodeSequence(size, seqs, (char)cid, planes);
break;
}
}
}
}
internal static void BreakLong(long n, int size, byte[] seqs) {
for (int k = 0; k < size; ++k) {
seqs[k] = (byte)(n >> ((size - 1 - k) * 8));
}
}
internal static void EncodeSequence(int size, byte[] seqs, char cid, ArrayList planes) {
--size;
int nextPlane = 0;
char[] plane;
for (int idx = 0; idx < size; ++idx) {
plane = (char[])planes[nextPlane];
int one = (int)seqs[idx] & 0xff;
char c = plane[one];
if (c != 0 && (c & 0x8000) == 0)
throw new Exception("Inconsistent mapping.");
if (c == 0) {
planes.Add(new char[256]);
c = (char)((planes.Count - 1) | 0x8000);
plane[one] = c;
}
nextPlane = c & 0x7fff;
}
plane = (char[])planes[nextPlane];
int ones = (int)seqs[size] & 0xff;
char cc = plane[ones];
if ((cc & 0x8000) != 0)
throw new Exception("Inconsistent mapping.");
plane[ones] = cid;
}
/** Adds an extra encoding.
* @param name the name of the encoding. The encoding recognition is case insensitive
* @param enc the conversion class
*/
public static void AddExtraEncoding(String name, IExtraEncoding enc) {
lock (extraEncodings) { // This serializes concurrent updates
Hashtable newEncodings = (Hashtable)extraEncodings.Clone();
newEncodings[name.ToLower(System.Globalization.CultureInfo.InvariantCulture)] = enc;
extraEncodings = newEncodings; // This swap does not require synchronization with reader
}
}
private class WingdingsConversion : IExtraEncoding {
public byte[] CharToByte(char char1, String encoding) {
if (char1 == ' ')
return new byte[]{(byte)char1};
else if (char1 >= '\u2701' && char1 <= '\u27BE') {
byte v = table[char1 - 0x2700];
if (v != 0)
return new byte[]{v};
}
return new byte[0];
}
public byte[] CharToByte(String text, String encoding) {
char[] cc = text.ToCharArray();
byte[] b = new byte[cc.Length];
int ptr = 0;
int len = cc.Length;
for (int k = 0; k < len; ++k) {
char c = cc[k];
if (c == ' ')
b[ptr++] = (byte)c;
else if (c >= '\u2701' && c <= '\u27BE') {
byte v = table[c - 0x2700];
if (v != 0)
b[ptr++] = v;
}
}
if (ptr == len)
return b;
byte[] b2 = new byte[ptr];
Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
public String ByteToChar(byte[] b, String encoding) {
return null;
}
private static byte[] table = {
0, 35, 34, 0, 0, 0, 41, 62, 81, 42,
0, 0, 65, 63, 0, 0, 0, 0, 0, (byte)(256-4),
0, 0, 0, (byte)(256-5), 0, 0, 0, 0, 0, 0,
86, 0, 88, 89, 0, 0, 0, 0, 0, 0,
0, 0, (byte)(256-75), 0, 0, 0, 0, 0, (byte)(256-74), 0,
0, 0, (byte)(256-83), (byte)(256-81), (byte)(256-84), 0, 0, 0, 0, 0,
0, 0, 0, 124, 123, 0, 0, 0, 84, 0,
0, 0, 0, 0, 0, 0, 0, (byte)(256-90), 0, 0,
0, 113, 114, 0, 0, 0, 117, 0, 0, 0,
0, 0, 0, 125, 126, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, (byte)(256-116), (byte)(256-115),
(byte)(256-114), (byte)(256-113), (byte)(256-112), (byte)(256-111), (byte)(256-110), (byte)(256-109), (byte)(256-108), (byte)(256-107), (byte)(256-127), (byte)(256-126),
(byte)(256-125), (byte)(256-124), (byte)(256-123), (byte)(256-122), (byte)(256-121), (byte)(256-120), (byte)(256-119), (byte)(256-118), (byte)(256-116), (byte)(256-115),
(byte)(256-114), (byte)(256-113), (byte)(256-112), (byte)(256-111), (byte)(256-110), (byte)(256-109), (byte)(256-108), (byte)(256-107), (byte)(256-24), 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, (byte)(256-24), (byte)(256-40), 0, 0, (byte)(256-60), (byte)(256-58), 0, 0, (byte)(256-16),
0, 0, 0, 0, 0, 0, 0, 0, 0, (byte)(256-36),
0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0
};
}
private class Cp437Conversion : IExtraEncoding {
private static IntHashtable c2b = new IntHashtable();
public byte[] CharToByte(String text, String encoding) {
char[] cc = text.ToCharArray();
byte[] b = new byte[cc.Length];
int ptr = 0;
int len = cc.Length;
for (int k = 0; k < len; ++k) {
char c = cc[k];
if (c < 128)
b[ptr++] = (byte)c;
else {
byte v = (byte)c2b[c];
if (v != 0)
b[ptr++] = v;
}
}
if (ptr == len)
return b;
byte[] b2 = new byte[ptr];
Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
public byte[] CharToByte(char char1, String encoding) {
if (char1 < 128)
return new byte[]{(byte)char1};
else {
byte v = (byte)c2b[char1];
if (v != 0)
return new byte[]{v};
else
return new byte[0];
}
}
public String ByteToChar(byte[] b, String encoding) {
int len = b.Length;
char[] cc = new char[len];
int ptr = 0;
for (int k = 0; k < len; ++k) {
int c = b[k] & 0xff;
if (c < ' ')
continue;
if (c < 128)
cc[ptr++] = (char)c;
else {
char v = table[c - 128];
cc[ptr++] = v;
}
}
return new String(cc, 0, ptr);
}
private static char[] table = {
'\u00C7', '\u00FC', '\u00E9', '\u00E2', '\u00E4', '\u00E0', '\u00E5', '\u00E7', '\u00EA', '\u00EB', '\u00E8', '\u00EF', '\u00EE', '\u00EC', '\u00C4', '\u00C5',
'\u00C9', '\u00E6', '\u00C6', '\u00F4', '\u00F6', '\u00F2', '\u00FB', '\u00F9', '\u00FF', '\u00D6', '\u00DC', '\u00A2', '\u00A3', '\u00A5', '\u20A7', '\u0192',
'\u00E1', '\u00ED', '\u00F3', '\u00FA', '\u00F1', '\u00D1', '\u00AA', '\u00BA', '\u00BF', '\u2310', '\u00AC', '\u00BD', '\u00BC', '\u00A1', '\u00AB', '\u00BB',
'\u2591', '\u2592', '\u2593', '\u2502', '\u2524', '\u2561', '\u2562', '\u2556', '\u2555', '\u2563', '\u2551', '\u2557', '\u255D', '\u255C', '\u255B', '\u2510',
'\u2514', '\u2534', '\u252C', '\u251C', '\u2500', '\u253C', '\u255E', '\u255F', '\u255A', '\u2554', '\u2569', '\u2566', '\u2560', '\u2550', '\u256C', '\u2567',
'\u2568', '\u2564', '\u2565', '\u2559', '\u2558', '\u2552', '\u2553', '\u256B', '\u256A', '\u2518', '\u250C', '\u2588', '\u2584', '\u258C', '\u2590', '\u2580',
'\u03B1', '\u00DF', '\u0393', '\u03C0', '\u03A3', '\u03C3', '\u00B5', '\u03C4', '\u03A6', '\u0398', '\u03A9', '\u03B4', '\u221E', '\u03C6', '\u03B5', '\u2229',
'\u2261', '\u00B1', '\u2265', '\u2264', '\u2320', '\u2321', '\u00F7', '\u2248', '\u00B0', '\u2219', '\u00B7', '\u221A', '\u207F', '\u00B2', '\u25A0', '\u00A0'
};
static Cp437Conversion() {
for (int k = 0; k < table.Length; ++k)
c2b[table[k]] = k + 128;
}
}
private class SymbolConversion : IExtraEncoding {
private static IntHashtable t1 = new IntHashtable();
private static IntHashtable t2 = new IntHashtable();
private IntHashtable translation;
internal SymbolConversion(bool symbol) {
if (symbol)
translation = t1;
else
translation = t2;
}
public byte[] CharToByte(String text, String encoding) {
char[] cc = text.ToCharArray();
byte[] b = new byte[cc.Length];
int ptr = 0;
int len = cc.Length;
for (int k = 0; k < len; ++k) {
char c = cc[k];
byte v = (byte)translation[(int)c];
if (v != 0)
b[ptr++] = v;
}
if (ptr == len)
return b;
byte[] b2 = new byte[ptr];
Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
public byte[] CharToByte(char char1, String encoding) {
byte v = (byte)translation[(int)char1];
if (v != 0)
return new byte[]{v};
else
return new byte[0];
}
public String ByteToChar(byte[] b, String encoding) {
return null;
}
private static char[] table1 = {
' ','!','\u2200','#','\u2203','%','&','\u220b','(',')','*','+',',','-','.','/',
'0','1','2','3','4','5','6','7','8','9',':',';','<','=','>','?',
'\u2245','\u0391','\u0392','\u03a7','\u0394','\u0395','\u03a6','\u0393','\u0397','\u0399','\u03d1','\u039a','\u039b','\u039c','\u039d','\u039f',
'\u03a0','\u0398','\u03a1','\u03a3','\u03a4','\u03a5','\u03c2','\u03a9','\u039e','\u03a8','\u0396','[','\u2234',']','\u22a5','_',
'\u0305','\u03b1','\u03b2','\u03c7','\u03b4','\u03b5','\u03d5','\u03b3','\u03b7','\u03b9','\u03c6','\u03ba','\u03bb','\u03bc','\u03bd','\u03bf',
'\u03c0','\u03b8','\u03c1','\u03c3','\u03c4','\u03c5','\u03d6','\u03c9','\u03be','\u03c8','\u03b6','{','|','}','~','\0',
'\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0',
'\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0',
'\u20ac','\u03d2','\u2032','\u2264','\u2044','\u221e','\u0192','\u2663','\u2666','\u2665','\u2660','\u2194','\u2190','\u2191','\u2192','\u2193',
'\u00b0','\u00b1','\u2033','\u2265','\u00d7','\u221d','\u2202','\u2022','\u00f7','\u2260','\u2261','\u2248','\u2026','\u2502','\u2500','\u21b5',
'\u2135','\u2111','\u211c','\u2118','\u2297','\u2295','\u2205','\u2229','\u222a','\u2283','\u2287','\u2284','\u2282','\u2286','\u2208','\u2209',
'\u2220','\u2207','\u00ae','\u00a9','\u2122','\u220f','\u221a','\u2022','\u00ac','\u2227','\u2228','\u21d4','\u21d0','\u21d1','\u21d2','\u21d3',
'\u25ca','\u2329','\0','\0','\0','\u2211','\u239b','\u239c','\u239d','\u23a1','\u23a2','\u23a3','\u23a7','\u23a8','\u23a9','\u23aa',
'\0','\u232a','\u222b','\u2320','\u23ae','\u2321','\u239e','\u239f','\u23a0','\u23a4','\u23a5','\u23a6','\u23ab','\u23ac','\u23ad','\0'
};
private static char[] table2 = {
'\u0020','\u2701','\u2702','\u2703','\u2704','\u260e','\u2706','\u2707','\u2708','\u2709','\u261b','\u261e','\u270C','\u270D','\u270E','\u270F',
'\u2710','\u2711','\u2712','\u2713','\u2714','\u2715','\u2716','\u2717','\u2718','\u2719','\u271A','\u271B','\u271C','\u271D','\u271E','\u271F',
'\u2720','\u2721','\u2722','\u2723','\u2724','\u2725','\u2726','\u2727','\u2605','\u2729','\u272A','\u272B','\u272C','\u272D','\u272E','\u272F',
'\u2730','\u2731','\u2732','\u2733','\u2734','\u2735','\u2736','\u2737','\u2738','\u2739','\u273A','\u273B','\u273C','\u273D','\u273E','\u273F',
'\u2740','\u2741','\u2742','\u2743','\u2744','\u2745','\u2746','\u2747','\u2748','\u2749','\u274A','\u274B','\u25cf','\u274D','\u25a0','\u274F',
'\u2750','\u2751','\u2752','\u25b2','\u25bc','\u25c6','\u2756','\u25d7','\u2758','\u2759','\u275A','\u275B','\u275C','\u275D','\u275E','\u0000',
'\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0',
'\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0','\0',
'\u0000','\u2761','\u2762','\u2763','\u2764','\u2765','\u2766','\u2767','\u2663','\u2666','\u2665','\u2660','\u2460','\u2461','\u2462','\u2463',
'\u2464','\u2465','\u2466','\u2467','\u2468','\u2469','\u2776','\u2777','\u2778','\u2779','\u277A','\u277B','\u277C','\u277D','\u277E','\u277F',
'\u2780','\u2781','\u2782','\u2783','\u2784','\u2785','\u2786','\u2787','\u2788','\u2789','\u278A','\u278B','\u278C','\u278D','\u278E','\u278F',
'\u2790','\u2791','\u2792','\u2793','\u2794','\u2192','\u2194','\u2195','\u2798','\u2799','\u279A','\u279B','\u279C','\u279D','\u279E','\u279F',
'\u27A0','\u27A1','\u27A2','\u27A3','\u27A4','\u27A5','\u27A6','\u27A7','\u27A8','\u27A9','\u27AA','\u27AB','\u27AC','\u27AD','\u27AE','\u27AF',
'\u0000','\u27B1','\u27B2','\u27B3','\u27B4','\u27B5','\u27B6','\u27B7','\u27B8','\u27B9','\u27BA','\u27BB','\u27BC','\u27BD','\u27BE','\u0000'
};
static SymbolConversion(){
for (int k = 0; k < table1.Length; ++k) {
int v = (int)table1[k];
if (v != 0)
t1[v] = k + 32;
}
for (int k = 0; k < table2.Length; ++k) {
int v = (int)table2[k];
if (v != 0)
t2[v] = k + 32;
}
}
}
private class SymbolTTConversion : IExtraEncoding {
public byte[] CharToByte(char char1, String encoding) {
if ((char1 & 0xff00) == 0 || (char1 & 0xff00) == 0xf000)
return new byte[]{(byte)char1};
else
return new byte[0];
}
public byte[] CharToByte(String text, String encoding) {
char[] ch = text.ToCharArray();
byte[] b = new byte[ch.Length];
int ptr = 0;
int len = ch.Length;
for (int k = 0; k < len; ++k) {
char c = ch[k];
if ((c & 0xff00) == 0 || (c & 0xff00) == 0xf000)
b[ptr++] = (byte)c;
}
if (ptr == len)
return b;
byte[] b2 = new byte[ptr];
Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
public String ByteToChar(byte[] b, String encoding) {
return null;
}
}
}
}