ASCU_ALL/PrintPDF/PdfSharp/Pdf.Internal/AnsiEncoding.cs
2021-05-25 17:00:45 +05:00

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#region PDFsharp - A .NET library for processing PDF
//
// Authors:
// Stefan Lange
//
// Copyright (c) 2005-2017 empira Software GmbH, Cologne Area (Germany)
//
// http://www.pdfsharp.com
// http://sourceforge.net/projects/pdfsharp
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
#endregion
using System.Text;
namespace PdfSharp.Pdf.Internal
{
/// <summary>
/// An encoder for PDF AnsiEncoding.
/// </summary>
public sealed class AnsiEncoding : Encoding
{
#if DEBUG_ && !(SILVERLIGHT || NETFX_CORE)
public static void ProofImplementation()
{
// Implementation was verified with .NET Ansi encoding.
Encoding dotnetImplementation = Encoding.GetEncoding(1252);
Encoding thisImplementation = new AnsiEncoding();
// Check ANSI chars.
for (int i = 0; i <= 255; i++)
{
byte[] b = { (byte) i };
char[] ch1 = dotnetImplementation.GetChars(b, 0, 1);
char[] ch2 = thisImplementation.GetChars(b, 0, 1);
if (ch1[0] != ch2[0])
Debug.Print("Error");
byte[] b1 = dotnetImplementation.GetBytes(ch1, 0, 1);
byte[] b2 = thisImplementation.GetBytes(ch1, 0, 1);
if (b1.Length != b2.Length || b1.Length > 1 || b1[0] != b2[0])
Debug.Print("Error");
}
// Check Unicode chars.
for (int i = 0; i <= 65535; i++)
{
if (i >= 256)
break;
if (i == 0x80)
Debug.Print("");
char[] ch = new char[] { (char)i };
byte[] b1 = dotnetImplementation.GetBytes(ch, 0, 1);
byte[] b2 = thisImplementation.GetBytes(ch, 0, 1);
if (b1.Length != b2.Length || b1.Length > 1 || b1[0] != b2[0])
Debug.Print("Error");
//byte[] b = new byte[] { (byte)i };
//char ch = (char)i;
char[] ch1 = dotnetImplementation.GetChars(b1, 0, 1);
char[] ch2 = thisImplementation.GetChars(b2, 0, 1);
if (ch1[0] != ch2[0])
Debug.Print("Error");
}
}
#endif
/// <summary>
/// Gets the byte count.
/// </summary>
public override int GetByteCount(char[] chars, int index, int count)
{
return count;
}
/// <summary>
/// Gets the bytes.
/// </summary>
public override int GetBytes(char[] chars, int charIndex, int charCount, byte[] bytes, int byteIndex)
{
int count = charCount;
for (; charCount > 0; byteIndex++, charIndex++, charCount--)
bytes[byteIndex] = (byte)UnicodeToAnsi(chars[charIndex]);
return count;
}
/// <summary>
/// Gets the character count.
/// </summary>
public override int GetCharCount(byte[] bytes, int index, int count)
{
return count;
}
/// <summary>
/// Gets the chars.
/// </summary>
public override int GetChars(byte[] bytes, int byteIndex, int byteCount, char[] chars, int charIndex)
{
for (int idx = byteCount; idx > 0; byteIndex++, charIndex++, idx--)
chars[charIndex] = AnsiToUnicode[bytes[byteIndex]];
return byteCount;
}
/// <summary>
/// When overridden in a derived class, calculates the maximum number of bytes produced by encoding the specified number of characters.
/// </summary>
/// <param name="charCount">The number of characters to encode.</param>
/// <returns>
/// The maximum number of bytes produced by encoding the specified number of characters.
/// </returns>
public override int GetMaxByteCount(int charCount)
{
return charCount;
}
/// <summary>
/// When overridden in a derived class, calculates the maximum number of characters produced by decoding the specified number of bytes.
/// </summary>
/// <param name="byteCount">The number of bytes to decode.</param>
/// <returns>
/// The maximum number of characters produced by decoding the specified number of bytes.
/// </returns>
public override int GetMaxCharCount(int byteCount)
{
return byteCount;
}
/// <summary>
/// Indicates whether the specified Unicode character is available in the ANSI code page 1252.
/// </summary>
public static bool IsAnsi1252Char(char ch)
{
if (ch < '\u0080' || (ch >= '\u00A0' && ch <= '\u00FF'))
return true;
switch (ch)
{
case '\u20AC':
case '\u0081':
case '\u201A':
case '\u0192':
case '\u201E':
case '\u2026':
case '\u2020':
case '\u2021':
case '\u02C6':
case '\u2030':
case '\u0160':
case '\u2039':
case '\u0152':
case '\u008D':
case '\u017D':
case '\u008F':
case '\u0090':
case '\u2018':
case '\u2019':
case '\u201C':
case '\u201D':
case '\u2022':
case '\u2013':
case '\u2014':
case '\u02DC':
case '\u2122':
case '\u0161':
case '\u203A':
case '\u0153':
case '\u009D':
case '\u017E':
case '\u0178':
return true;
}
return false;
}
/// <summary>
/// Maps Unicode to ANSI code page 1252.
/// </summary>
public static char UnicodeToAnsi(char ch)
{
if (ch < '\u0080' || (ch >= '\u00A0' && ch <= '\u00FF'))
return ch;
switch (ch)
{
case '\u20AC':
return '\u0080';
case '\u0081':
return '\u0081';
case '\u201A':
return '\u0082';
case '\u0192':
return '\u0083';
case '\u201E':
return '\u0084';
case '\u2026':
return '\u0085';
case '\u2020':
return '\u0086';
case '\u2021':
return '\u0087';
case '\u02C6':
return '\u0088';
case '\u2030':
return '\u0089';
case '\u0160':
return '\u008A';
case '\u2039':
return '\u008B';
case '\u0152':
return '\u008C';
case '\u008D':
return '\u008D';
case '\u017D':
return '\u008E';
case '\u008F':
return '\u008F';
case '\u0090':
return '\u0090';
case '\u2018':
return '\u0091';
case '\u2019':
return '\u0092';
case '\u201C':
return '\u0093';
case '\u201D':
return '\u0094';
case '\u2022':
return '\u0095';
case '\u2013':
return '\u0096';
case '\u2014':
return '\u0097';
case '\u02DC':
return '\u0098';
case '\u2122':
return '\u0099';
case '\u0161':
return '\u009A';
case '\u203A':
return '\u009B';
case '\u0153':
return '\u009C';
case '\u009D':
return '\u009D';
case '\u017E':
return '\u009E';
case '\u0178':
return '\u009F';
}
return '\u00A4'; // Char 164 is ANSI value of '<27>'.
}
/// <summary>
/// Maps WinAnsi to Unicode characters.
/// </summary>
static readonly char[] AnsiToUnicode = // new char[/*256*/]
{
// 00 01 02 03 04 05 06 07 08 09 0A 0B 0C 0D 0E 0F
/* 00 */ '\u0000', '\u0001', '\u0002', '\u0003', '\u0004', '\u0005', '\u0006', '\u0007', '\u0008', '\u0009', '\u000A', '\u000B', '\u000C', '\u000D', '\u000E', '\u000F',
/* 10 */ '\u0010', '\u0011', '\u0012', '\u0013', '\u0014', '\u0015', '\u0016', '\u0017', '\u0018', '\u0019', '\u001A', '\u001B', '\u001C', '\u001D', '\u001E', '\u001F',
/* 20 */ '\u0020', '\u0021', '\u0022', '\u0023', '\u0024', '\u0025', '\u0026', '\u0027', '\u0028', '\u0029', '\u002A', '\u002B', '\u002C', '\u002D', '\u002E', '\u002F',
/* 30 */ '\u0030', '\u0031', '\u0032', '\u0033', '\u0034', '\u0035', '\u0036', '\u0037', '\u0038', '\u0039', '\u003A', '\u003B', '\u003C', '\u003D', '\u003E', '\u003F',
/* 40 */ '\u0040', '\u0041', '\u0042', '\u0043', '\u0044', '\u0045', '\u0046', '\u0047', '\u0048', '\u0049', '\u004A', '\u004B', '\u004C', '\u004D', '\u004E', '\u004F',
/* 50 */ '\u0050', '\u0051', '\u0052', '\u0053', '\u0054', '\u0055', '\u0056', '\u0057', '\u0058', '\u0059', '\u005A', '\u005B', '\u005C', '\u005D', '\u005E', '\u005F',
/* 60 */ '\u0060', '\u0061', '\u0062', '\u0063', '\u0064', '\u0065', '\u0066', '\u0067', '\u0068', '\u0069', '\u006A', '\u006B', '\u006C', '\u006D', '\u006E', '\u006F',
/* 70 */ '\u0070', '\u0071', '\u0072', '\u0073', '\u0074', '\u0075', '\u0076', '\u0077', '\u0078', '\u0079', '\u007A', '\u007B', '\u007C', '\u007D', '\u007E', '\u007F',
/* 80 */ '\u20AC', '\u0081', '\u201A', '\u0192', '\u201E', '\u2026', '\u2020', '\u2021', '\u02C6', '\u2030', '\u0160', '\u2039', '\u0152', '\u008D', '\u017D', '\u008F',
/* 90 */ '\u0090', '\u2018', '\u2019', '\u201C', '\u201D', '\u2022', '\u2013', '\u2014', '\u02DC', '\u2122', '\u0161', '\u203A', '\u0153', '\u009D', '\u017E', '\u0178',
/* A0 */ '\u00A0', '\u00A1', '\u00A2', '\u00A3', '\u00A4', '\u00A5', '\u00A6', '\u00A7', '\u00A8', '\u00A9', '\u00AA', '\u00AB', '\u00AC', '\u00AD', '\u00AE', '\u00AF',
/* B0 */ '\u00B0', '\u00B1', '\u00B2', '\u00B3', '\u00B4', '\u00B5', '\u00B6', '\u00B7', '\u00B8', '\u00B9', '\u00BA', '\u00BB', '\u00BC', '\u00BD', '\u00BE', '\u00BF',
/* C0 */ '\u00C0', '\u00C1', '\u00C2', '\u00C3', '\u00C4', '\u00C5', '\u00C6', '\u00C7', '\u00C8', '\u00C9', '\u00CA', '\u00CB', '\u00CC', '\u00CD', '\u00CE', '\u00CF',
/* D0 */ '\u00D0', '\u00D1', '\u00D2', '\u00D3', '\u00D4', '\u00D5', '\u00D6', '\u00D7', '\u00D8', '\u00D9', '\u00DA', '\u00DB', '\u00DC', '\u00DD', '\u00DE', '\u00DF',
/* E0 */ '\u00E0', '\u00E1', '\u00E2', '\u00E3', '\u00E4', '\u00E5', '\u00E6', '\u00E7', '\u00E8', '\u00E9', '\u00EA', '\u00EB', '\u00EC', '\u00ED', '\u00EE', '\u00EF',
/* F0 */ '\u00F0', '\u00F1', '\u00F2', '\u00F3', '\u00F4', '\u00F5', '\u00F6', '\u00F7', '\u00F8', '\u00F9', '\u00FA', '\u00FB', '\u00FC', '\u00FD', '\u00FE', '\u00FF'
};
}
}