internal static void WriteMatch(int matchLen, int matchPos, OutputBuffer output)
{
Debug.Assert(matchLen >= FastEncoderWindow.MinMatch && matchLen <= FastEncoderWindow.MaxMatch, "Illegal currentMatch length!");
// Get the code information for a match code
uint codeInfo = FastEncoderStatics.FastEncoderLiteralCodeInfo[(FastEncoderStatics.NumChars + 1 - FastEncoderWindow.MinMatch) + matchLen];
int codeLen = (int)codeInfo & 31;
Debug.Assert(codeLen != 0, "Invalid Match Length!");
if (codeLen <= 16)
{
output.WriteBits(codeLen, codeInfo >> 5);
}
else
{
output.WriteBits(16, (codeInfo >> 5) & 65535);
output.WriteBits(codeLen - 16, codeInfo >> (5 + 16));
}
// Get the code information for a distance code
codeInfo = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits((int)(codeInfo & 15), codeInfo >> 8);
int extraBits = (int)(codeInfo >> 4) & 15;
if (extraBits != 0)
{
output.WriteBits(extraBits, (uint)matchPos & FastEncoderStatics.BitMask[extraBits]);
}
}
public void GetBlock(DeflateInput input, OutputBuffer output, bool isFinal)
{
int count = 0;
if (input != null)
{
count = Math.Min(input.Count, (output.FreeBytes - 5) - output.BitsInBuffer);
if (count > 0xfffb)
{
count = 0xfffb;
}
}
if (isFinal)
{
output.WriteBits(3, 1);
}
else
{
output.WriteBits(3, 0);
}
output.FlushBits();
this.WriteLenNLen((ushort) count, output);
if ((input != null) && (count > 0))
{
output.WriteBytes(input.Buffer, input.StartIndex, count);
input.ConsumeBytes(count);
}
}
public void GetBlock(DeflateInput input, OutputBuffer output, bool isFinal)
{
int count = 0;
if (input != null)
{
count = Math.Min(input.Count, (output.FreeBytes - 5) - output.BitsInBuffer);
if (count > 0xfffb)
{
count = 0xfffb;
}
}
if (isFinal)
{
output.WriteBits(3, 1);
}
else
{
output.WriteBits(3, 0);
}
output.FlushBits();
this.WriteLenNLen((ushort)count, output);
if ((input != null) && (count > 0))
{
output.WriteBytes(input.Buffer, input.StartIndex, count);
input.ConsumeBytes(count);
}
}
static internal void WriteMatch(int matchLen, int matchPos, OutputBuffer output)
{
Debug.Assert(matchLen >= FastEncoderWindow.MinMatch && matchLen <= FastEncoderWindow.MaxMatch, "Illegal currentMatch length!");
Debug.WriteLineIf(CompressionTracingSwitch.Verbose, String.Format(CultureInfo.InvariantCulture, "Match: {0}:{1}", matchLen, matchPos), "Compression");
// Get the code information for a match code
uint codeInfo = FastEncoderStatics.FastEncoderLiteralCodeInfo[(FastEncoderStatics.NumChars + 1 - FastEncoderWindow.MinMatch) + matchLen];
int codeLen = (int)codeInfo & 31;
Debug.Assert(codeLen != 0, "Invalid Match Length!");
if (codeLen <= 16)
{
output.WriteBits(codeLen, codeInfo >> 5);
}
else
{
output.WriteBits(16, (codeInfo >> 5) & 65535);
output.WriteBits(codeLen - 16, codeInfo >> (5 + 16));
}
// Get the code information for a distance code
codeInfo = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits((int)(codeInfo & 15), codeInfo >> 8);
int extraBits = (int)(codeInfo >> 4) & 15;
if (extraBits != 0)
{
output.WriteBits(extraBits, (uint)matchPos & FastEncoderStatics.BitMask[extraBits]);
}
}
/// <summary>
/// null input means write an empty payload with formatting info. This is needed for the final block.
/// </summary>
public void GetBlock(DeflateInput input, OutputBuffer output, bool isFinal)
{
Debug.Assert(output != null);
Debug.Assert(output.FreeBytes >= PaddingSize);
// determine number of bytes to write
int count = 0;
if (input != null)
{
// allow space for padding and bits not yet flushed to buffer
count = Math.Min(input.Count, output.FreeBytes - PaddingSize - output.BitsInBuffer);
// we don't expect the output buffer to ever be this big (currently 4K), but we'll check this
// just in case that changes.
if (count > MaxUncompressedBlockSize - PaddingSize)
{
count = MaxUncompressedBlockSize - PaddingSize;
}
}
// write header and flush bits
if (isFinal)
{
output.WriteBits(
FastEncoderStatics.BFinalNoCompressionHeaderBitCount,
FastEncoderStatics.BFinalNoCompressionHeader);
}
else
{
output.WriteBits(
FastEncoderStatics.NoCompressionHeaderBitCount,
FastEncoderStatics.NoCompressionHeader);
}
// now we're aligned
output.FlushBits();
// write len, nlen
WriteLenNLen((ushort)count, output);
// write uncompressed bytes
if (input != null && count > 0)
{
output.WriteBytes(input.Buffer, input.StartIndex, count);
input.ConsumeBytes(count);
}
}
private void WriteEndOfBlock(OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[0x100];
int n = ((int)num) & 0x1f;
output.WriteBits(n, num >> 5);
}
// Output the block type and tree structure for our hard-coded trees.
// Contains following data:
// "final" block flag 1 bit
// BLOCKTYPE_DYNAMIC 2 bits
// FastEncoderLiteralTreeLength
// FastEncoderDistanceTreeLength
//
static internal void WriteDeflatePreamble(OutputBuffer output)
{
//Debug.Assert( bitCount == 0, "bitCount must be zero before writing tree bit!");
output.WriteBytes(FastEncoderStatics.FastEncoderTreeStructureData, 0, FastEncoderStatics.FastEncoderTreeStructureData.Length);
output.WriteBits(FastEncoderStatics.FastEncoderPostTreeBitCount, FastEncoderStatics.FastEncoderPostTreeBitBuf);
}
static internal void WriteChar(byte b, OutputBuffer output)
{
Debug.WriteLineIf(CompressionTracingSwitch.Verbose, String.Format(CultureInfo.InvariantCulture, "Literal: {0}", b), "Compression");
uint code = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits((int)code & 31, code >> 5);
}
// null input means write an empty payload with formatting info. This is needed for the final block.
public void GetBlock(DeflateInput input, OutputBuffer output, bool isFinal)
{
Debug.Assert(output != null);
Debug.Assert(output.FreeBytes >= PaddingSize);
// determine number of bytes to write
int count = 0;
if (input != null)
{
// allow space for padding and bits not yet flushed to buffer
count = Math.Min(input.Count, output.FreeBytes - PaddingSize - output.BitsInBuffer);
// we don't expect the output buffer to ever be this big (currently 4K), but we'll check this
// just in case that changes.
if (count > MaxUncompressedBlockSize - PaddingSize)
{
count = MaxUncompressedBlockSize - PaddingSize;
}
}
// write header and flush bits
if (isFinal)
{
output.WriteBits(FastEncoderStatics.BFinalNoCompressionHeaderBitCount,
FastEncoderStatics.BFinalNoCompressionHeader);
}
else
{
output.WriteBits(FastEncoderStatics.NoCompressionHeaderBitCount,
FastEncoderStatics.NoCompressionHeader);
}
// now we're aligned
output.FlushBits();
// write len, nlen
WriteLenNLen((ushort)count, output);
// write uncompressed bytes
if (input != null && count > 0)
{
output.WriteBytes(input.Buffer, input.StartIndex, count);
input.ConsumeBytes(count);
}
}
private void WriteEndOfBlock(OutputBuffer output)
{
// The fast encoder outputs one long block, so it just needs to terminate this block
const int EndOfBlockCode = 256;
uint code_info = FastEncoderStatics.FastEncoderLiteralCodeInfo[EndOfBlockCode];
int code_len = (int)(code_info & 31);
output.WriteBits(code_len, code_info >> 5);
}
internal static void WriteMatch(int matchLen, int matchPos, OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[0xfe + matchLen];
int n = ((int)num) & 0x1f;
if (n <= 0x10)
{
output.WriteBits(n, num >> 5);
}
else
{
output.WriteBits(0x10, (num >> 5) & 0xffff);
output.WriteBits(n - 0x10, num >> 0x15);
}
num = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits(((int)num) & 15, num >> 8);
int num3 = ((int)(num >> 4)) & 15;
if (num3 != 0)
{
output.WriteBits(num3, ((uint)matchPos) & FastEncoderStatics.BitMask[num3]);
}
}
internal static void WriteChar(byte b, OutputBuffer output)
{
uint code = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits((int)code & 31, code >> 5);
}
internal static void WriteMatch(int matchLen, int matchPos, OutputBuffer output)
{
Debug.Assert(matchLen >= FastEncoderWindow.MinMatch && matchLen <= FastEncoderWindow.MaxMatch, "Illegal currentMatch length!");
// Get the code information for a match code
uint codeInfo = FastEncoderStatics.FastEncoderLiteralCodeInfo[(FastEncoderStatics.NumChars + 1 - FastEncoderWindow.MinMatch) + matchLen];
int codeLen = (int)codeInfo & 31;
Debug.Assert(codeLen != 0, "Invalid Match Length!");
if (codeLen <= 16)
{
output.WriteBits(codeLen, codeInfo >> 5);
}
else
{
output.WriteBits(16, (codeInfo >> 5) & 65535);
output.WriteBits(codeLen - 16, codeInfo >> (5 + 16));
}
// Get the code information for a distance code
codeInfo = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits((int)(codeInfo & 15), codeInfo >> 8);
int extraBits = (int)(codeInfo >> 4) & 15;
if (extraBits != 0)
{
output.WriteBits(extraBits, (uint)matchPos & FastEncoderStatics.BitMask[extraBits]);
}
}
// Output the block type and tree structure for our hard-coded trees.
// Contains following data:
// "final" block flag 1 bit
// BLOCKTYPE_DYNAMIC 2 bits
// FastEncoderLiteralTreeLength
// FastEncoderDistanceTreeLength
//
static internal void WriteDeflatePreamble(OutputBuffer output) {
//Debug.Assert( bitCount == 0, "bitCount must be zero before writing tree bit!");
output.WriteBytes(FastEncoderStatics.FastEncoderTreeStructureData, 0, FastEncoderStatics.FastEncoderTreeStructureData.Length);
output.WriteBits(FastEncoderStatics.FastEncoderPostTreeBitCount, FastEncoderStatics.FastEncoderPostTreeBitBuf);
}
static internal void WriteChar(byte b, OutputBuffer output) {
Debug.WriteLineIf(CompressionTracingSwitch.Verbose, String.Format(CultureInfo.InvariantCulture, "Literal: {0}", b ), "Compression");
uint code = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits((int)code & 31, code >> 5);
}
internal static void WriteChar(byte b, OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits(((int)num) & 0x1f, num >> 5);
}
private void WriteEndOfBlock(OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[0x100];
int n = ((int) num) & 0x1f;
output.WriteBits(n, num >> 5);
}
internal static void WriteChar(byte b, OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits(((int) num) & 0x1f, num >> 5);
}
internal static void WriteDeflatePreamble(OutputBuffer output)
{
output.WriteBytes(FastEncoderStatics.FastEncoderTreeStructureData, 0, FastEncoderStatics.FastEncoderTreeStructureData.Length);
output.WriteBits(9, 0x22);
}
static internal void WriteChar(byte b, OutputBuffer output)
{
uint code = FastEncoderStatics.FastEncoderLiteralCodeInfo[b];
output.WriteBits((int)code & 31, code >> 5);
}
internal static void WriteDeflatePreamble(OutputBuffer output)
{
output.WriteBytes(FastEncoderStatics.FastEncoderTreeStructureData, 0, FastEncoderStatics.FastEncoderTreeStructureData.Length);
output.WriteBits(9, 0x22);
}
private void WriteEndOfBlock(OutputBuffer output) {
// The fast encoder outputs one long block, so it just needs to terminate this block
const int EndOfBlockCode = 256;
uint code_info = FastEncoderStatics.FastEncoderLiteralCodeInfo[EndOfBlockCode];
int code_len = (int)(code_info & 31);
output.WriteBits(code_len, code_info >> 5);
}
internal static void WriteMatch(int matchLen, int matchPos, OutputBuffer output)
{
uint num = FastEncoderStatics.FastEncoderLiteralCodeInfo[0xfe + matchLen];
int n = ((int) num) & 0x1f;
if (n <= 0x10)
{
output.WriteBits(n, num >> 5);
}
else
{
output.WriteBits(0x10, (num >> 5) & 0xffff);
output.WriteBits(n - 0x10, num >> 0x15);
}
num = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits(((int) num) & 15, num >> 8);
int num3 = ((int) (num >> 4)) & 15;
if (num3 != 0)
{
output.WriteBits(num3, ((uint) matchPos) & FastEncoderStatics.BitMask[num3]);
}
}
static internal void WriteMatch(int matchLen, int matchPos, OutputBuffer output) {
Debug.Assert(matchLen >= FastEncoderWindow.MinMatch && matchLen <= FastEncoderWindow.MaxMatch, "Illegal currentMatch length!");
Debug.WriteLineIf(CompressionTracingSwitch.Verbose, String.Format(CultureInfo.InvariantCulture, "Match: {0}:{1}", matchLen, matchPos), "Compression");
// Get the code information for a match code
uint codeInfo = FastEncoderStatics.FastEncoderLiteralCodeInfo[(FastEncoderStatics.NumChars + 1 - FastEncoderWindow.MinMatch) + matchLen];
int codeLen = (int)codeInfo & 31;
Debug.Assert(codeLen != 0, "Invalid Match Length!");
if (codeLen <= 16) {
output.WriteBits(codeLen, codeInfo >> 5);
}
else {
output.WriteBits(16, (codeInfo >> 5) & 65535);
output.WriteBits(codeLen - 16, codeInfo >> (5 + 16));
}
// Get the code information for a distance code
codeInfo = FastEncoderStatics.FastEncoderDistanceCodeInfo[FastEncoderStatics.GetSlot(matchPos)];
output.WriteBits((int)(codeInfo & 15), codeInfo >> 8);
int extraBits = (int)(codeInfo >> 4) & 15;
if (extraBits != 0) {
output.WriteBits(extraBits, (uint)matchPos & FastEncoderStatics.BitMask[extraBits]);
}
}