internal unsafe override int GetChars(byte *bytes, int byteCount, char *chars, int charCount, DecoderNLS baseDecoder)
{
base.CheckMemorySection();
DBCSCodePageEncoding.DBCSDecoder dbcsdecoder = (DBCSCodePageEncoding.DBCSDecoder)baseDecoder;
byte *ptr = bytes;
byte *ptr2 = bytes + byteCount;
char *ptr3 = chars;
char *ptr4 = chars + charCount;
bool flag = false;
DecoderFallbackBuffer decoderFallbackBuffer = null;
if (dbcsdecoder != null && dbcsdecoder.bLeftOver > 0)
{
if (byteCount == 0)
{
if (!dbcsdecoder.MustFlush)
{
return(0);
}
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(bytes, ptr4);
byte[] bytes2 = new byte[]
{
dbcsdecoder.bLeftOver
};
if (!decoderFallbackBuffer.InternalFallback(bytes2, bytes, ref chars))
{
base.ThrowCharsOverflow(dbcsdecoder, true);
}
dbcsdecoder.bLeftOver = 0;
return((int)((long)(chars - ptr3)));
}
else
{
int num = (int)dbcsdecoder.bLeftOver << 8;
num |= (int)(*bytes);
bytes++;
char c = this.mapBytesToUnicode[num];
if (c == '\0' && num != 0)
{
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(ptr2 - byteCount, ptr4);
byte[] bytes3 = new byte[]
{
(byte)(num >> 8),
(byte)num
};
if (!decoderFallbackBuffer.InternalFallback(bytes3, bytes, ref chars))
{
base.ThrowCharsOverflow(dbcsdecoder, true);
}
}
else
{
if (chars >= ptr4)
{
base.ThrowCharsOverflow(dbcsdecoder, true);
}
*(chars++) = c;
}
}
}
while (bytes < ptr2)
{
int num2 = (int)(*bytes);
bytes++;
char c2 = this.mapBytesToUnicode[num2];
if (c2 == '')
{
if (bytes < ptr2)
{
num2 <<= 8;
num2 |= (int)(*bytes);
bytes++;
c2 = this.mapBytesToUnicode[num2];
}
else
{
if (dbcsdecoder != null && !dbcsdecoder.MustFlush)
{
flag = true;
dbcsdecoder.bLeftOver = (byte)num2;
break;
}
c2 = '\0';
}
}
if (c2 == '\0' && num2 != 0)
{
if (decoderFallbackBuffer == null)
{
if (dbcsdecoder == null)
{
decoderFallbackBuffer = base.DecoderFallback.CreateFallbackBuffer();
}
else
{
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
}
decoderFallbackBuffer.InternalInitialize(ptr2 - byteCount, ptr4);
}
byte[] array;
if (num2 < 256)
{
array = new byte[]
{
(byte)num2
};
}
else
{
array = new byte[]
{
(byte)(num2 >> 8),
(byte)num2
};
}
if (!decoderFallbackBuffer.InternalFallback(array, bytes, ref chars))
{
bytes -= array.Length;
decoderFallbackBuffer.InternalReset();
base.ThrowCharsOverflow(dbcsdecoder, bytes == ptr);
break;
}
}
else
{
if (chars >= ptr4)
{
bytes--;
if (num2 >= 256)
{
bytes--;
}
base.ThrowCharsOverflow(dbcsdecoder, bytes == ptr);
break;
}
*(chars++) = c2;
}
}
if (dbcsdecoder != null)
{
if (!flag)
{
dbcsdecoder.bLeftOver = 0;
}
dbcsdecoder.m_bytesUsed = (int)((long)(bytes - ptr));
}
return((int)((long)(chars - ptr3)));
}
internal override unsafe int GetChars(byte *bytes, int byteCount, char *chars, int charCount, DecoderNLS baseDecoder)
{
this.CheckMemorySection();
DBCSCodePageEncoding.DBCSDecoder dbcsDecoder = (DBCSCodePageEncoding.DBCSDecoder)baseDecoder;
byte *numPtr1 = bytes;
byte *numPtr2 = bytes + byteCount;
char *chPtr = chars;
char *charEnd = chars + charCount;
bool flag = false;
DecoderFallbackBuffer decoderFallbackBuffer = (DecoderFallbackBuffer)null;
if (dbcsDecoder != null && (int)dbcsDecoder.bLeftOver > 0)
{
if (byteCount == 0)
{
if (!dbcsDecoder.MustFlush)
{
return(0);
}
DecoderFallbackBuffer fallbackBuffer = dbcsDecoder.FallbackBuffer;
fallbackBuffer.InternalInitialize(bytes, charEnd);
byte[] bytes1 = new byte[1] {
dbcsDecoder.bLeftOver
};
if (!fallbackBuffer.InternalFallback(bytes1, bytes, ref chars))
{
this.ThrowCharsOverflow((DecoderNLS)dbcsDecoder, true);
}
dbcsDecoder.bLeftOver = (byte)0;
return((int)(chars - chPtr));
}
int index = (int)dbcsDecoder.bLeftOver << 8 | (int)*bytes;
++bytes;
char ch = this.mapBytesToUnicode[index];
if ((int)ch == 0 && index != 0)
{
decoderFallbackBuffer = dbcsDecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(numPtr2 - byteCount, charEnd);
byte[] bytes1 = new byte[2] {
(byte)(index >> 8), (byte)index
};
if (!decoderFallbackBuffer.InternalFallback(bytes1, bytes, ref chars))
{
this.ThrowCharsOverflow((DecoderNLS)dbcsDecoder, true);
}
}
else
{
if (chars >= charEnd)
{
this.ThrowCharsOverflow((DecoderNLS)dbcsDecoder, true);
}
*chars++ = ch;
}
}
while (bytes < numPtr2)
{
int index = (int)*bytes;
++bytes;
char ch = this.mapBytesToUnicode[index];
if ((int)ch == 65534)
{
if (bytes < numPtr2)
{
index = index << 8 | (int)*bytes;
++bytes;
ch = this.mapBytesToUnicode[index];
}
else if (dbcsDecoder == null || dbcsDecoder.MustFlush)
{
ch = char.MinValue;
}
else
{
flag = true;
dbcsDecoder.bLeftOver = (byte)index;
break;
}
}
if ((int)ch == 0 && index != 0)
{
if (decoderFallbackBuffer == null)
{
decoderFallbackBuffer = dbcsDecoder != null ? dbcsDecoder.FallbackBuffer : this.DecoderFallback.CreateFallbackBuffer();
decoderFallbackBuffer.InternalInitialize(numPtr2 - byteCount, charEnd);
}
byte[] bytes1;
if (index < 256)
{
bytes1 = new byte[1] {
(byte)index
}
}
;
else
{
bytes1 = new byte[2]
{
(byte)(index >> 8),
(byte)index
}
};
if (!decoderFallbackBuffer.InternalFallback(bytes1, bytes, ref chars))
{
bytes -= bytes1.Length;
decoderFallbackBuffer.InternalReset();
this.ThrowCharsOverflow((DecoderNLS)dbcsDecoder, bytes == numPtr1);
break;
}
}
else
{
if (chars >= charEnd)
{
--bytes;
if (index >= 256)
{
--bytes;
}
this.ThrowCharsOverflow((DecoderNLS)dbcsDecoder, bytes == numPtr1);
break;
}
*chars++ = ch;
}
}
if (dbcsDecoder != null)
{
if (!flag)
{
dbcsDecoder.bLeftOver = (byte)0;
}
dbcsDecoder.m_bytesUsed = (int)(bytes - numPtr1);
}
return((int)(chars - chPtr));
}
internal unsafe override int GetCharCount(byte *bytes, int count, DecoderNLS baseDecoder)
{
base.CheckMemorySection();
DBCSCodePageEncoding.DBCSDecoder dbcsdecoder = (DBCSCodePageEncoding.DBCSDecoder)baseDecoder;
DecoderFallbackBuffer decoderFallbackBuffer = null;
byte *ptr = bytes + count;
int num = count;
if (dbcsdecoder != null && dbcsdecoder.bLeftOver > 0)
{
if (count == 0)
{
if (!dbcsdecoder.MustFlush)
{
return(0);
}
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(bytes, null);
byte[] bytes2 = new byte[]
{
dbcsdecoder.bLeftOver
};
return(decoderFallbackBuffer.InternalFallback(bytes2, bytes));
}
else
{
int num2 = (int)dbcsdecoder.bLeftOver << 8;
num2 |= (int)(*bytes);
bytes++;
if (this.mapBytesToUnicode[num2] == '\0' && num2 != 0)
{
num--;
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(ptr - count, null);
byte[] bytes3 = new byte[]
{
(byte)(num2 >> 8),
(byte)num2
};
num += decoderFallbackBuffer.InternalFallback(bytes3, bytes);
}
}
}
while (bytes < ptr)
{
int num3 = (int)(*bytes);
bytes++;
char c = this.mapBytesToUnicode[num3];
if (c == '')
{
num--;
if (bytes < ptr)
{
num3 <<= 8;
num3 |= (int)(*bytes);
bytes++;
c = this.mapBytesToUnicode[num3];
}
else
{
if (dbcsdecoder != null && !dbcsdecoder.MustFlush)
{
break;
}
num++;
c = '\0';
}
}
if (c == '\0' && num3 != 0)
{
if (decoderFallbackBuffer == null)
{
if (dbcsdecoder == null)
{
decoderFallbackBuffer = base.DecoderFallback.CreateFallbackBuffer();
}
else
{
decoderFallbackBuffer = dbcsdecoder.FallbackBuffer;
}
decoderFallbackBuffer.InternalInitialize(ptr - count, null);
}
num--;
byte[] bytes4;
if (num3 < 256)
{
bytes4 = new byte[]
{
(byte)num3
};
}
else
{
bytes4 = new byte[]
{
(byte)(num3 >> 8),
(byte)num3
};
}
num += decoderFallbackBuffer.InternalFallback(bytes4, bytes);
}
}
return(num);
}
internal override unsafe int GetCharCount(byte *bytes, int count, DecoderNLS baseDecoder)
{
this.CheckMemorySection();
DBCSCodePageEncoding.DBCSDecoder dbcsDecoder = (DBCSCodePageEncoding.DBCSDecoder)baseDecoder;
DecoderFallbackBuffer decoderFallbackBuffer = (DecoderFallbackBuffer)null;
byte *numPtr = bytes + count;
int num1 = count;
if (dbcsDecoder != null && (int)dbcsDecoder.bLeftOver > 0)
{
if (count == 0)
{
if (!dbcsDecoder.MustFlush)
{
return(0);
}
DecoderFallbackBuffer fallbackBuffer = dbcsDecoder.FallbackBuffer;
fallbackBuffer.InternalInitialize(bytes, (char *)null);
byte[] bytes1 = new byte[1] {
dbcsDecoder.bLeftOver
};
return(fallbackBuffer.InternalFallback(bytes1, bytes));
}
int index = (int)dbcsDecoder.bLeftOver << 8 | (int)*bytes;
++bytes;
if ((int)this.mapBytesToUnicode[index] == 0 && index != 0)
{
int num2 = num1 - 1;
decoderFallbackBuffer = dbcsDecoder.FallbackBuffer;
decoderFallbackBuffer.InternalInitialize(numPtr - count, (char *)null);
byte[] bytes1 = new byte[2] {
(byte)(index >> 8), (byte)index
};
num1 = num2 + decoderFallbackBuffer.InternalFallback(bytes1, bytes);
}
}
while (bytes < numPtr)
{
int index = (int)*bytes;
++bytes;
char ch = this.mapBytesToUnicode[index];
if ((int)ch == 65534)
{
--num1;
if (bytes < numPtr)
{
index = index << 8 | (int)*bytes;
++bytes;
ch = this.mapBytesToUnicode[index];
}
else if (dbcsDecoder == null || dbcsDecoder.MustFlush)
{
++num1;
ch = char.MinValue;
}
else
{
break;
}
}
if ((int)ch == 0 && index != 0)
{
if (decoderFallbackBuffer == null)
{
decoderFallbackBuffer = dbcsDecoder != null ? dbcsDecoder.FallbackBuffer : this.DecoderFallback.CreateFallbackBuffer();
decoderFallbackBuffer.InternalInitialize(numPtr - count, (char *)null);
}
int num2 = num1 - 1;
byte[] bytes1;
if (index < 256)
{
bytes1 = new byte[1] {
(byte)index
}
}
;
else
{
bytes1 = new byte[2]
{
(byte)(index >> 8),
(byte)index
}
};
num1 = num2 + decoderFallbackBuffer.InternalFallback(bytes1, bytes);
}
}
return(num1);
}
