bulk copy of latest physfs to our misc/libphysfs since this seems to fix an off-by-1 error reliably hit in readln read of 1 byte probably introduced in the addition of the buffered read. Whether this is excessive or whether libphysfs should even be maintained by us is another matter. But at least we shouldn't crash
// LzmaBench.cs
using System;
using System.IO;
namespace SevenZip
{
/// <summary>
/// LZMA Benchmark
/// </summary>
internal abstract class LzmaBench
{
const UInt32 kAdditionalSize = (6 << 20);
const UInt32 kCompressedAdditionalSize = (1 << 10);
const UInt32 kMaxLzmaPropSize = 10;
class CRandomGenerator
{
UInt32 A1;
UInt32 A2;
public CRandomGenerator() { Init(); }
public void Init() { A1 = 362436069; A2 = 521288629; }
public UInt32 GetRnd()
{
return
((A1 = 36969 * (A1 & 0xffff) + (A1 >> 16)) << 16) ^
((A2 = 18000 * (A2 & 0xffff) + (A2 >> 16)));
}
};
class CBitRandomGenerator
{
CRandomGenerator RG = new CRandomGenerator();
UInt32 Value;
int NumBits;
public void Init()
{
Value = 0;
NumBits = 0;
}
public UInt32 GetRnd(int numBits)
{
UInt32 result;
if (NumBits > numBits)
{
result = Value & (((UInt32)1 << numBits) - 1);
Value >>= numBits;
NumBits -= numBits;
return result;
}
numBits -= NumBits;
result = (Value << numBits);
Value = RG.GetRnd();
result |= Value & (((UInt32)1 << numBits) - 1);
Value >>= numBits;
NumBits = 32 - numBits;
return result;
}
};
class CBenchRandomGenerator
{
CBitRandomGenerator RG = new CBitRandomGenerator();
UInt32 Pos;
UInt32 Rep0;
public UInt32 BufferSize;
public Byte[] Buffer = null;
public CBenchRandomGenerator() { }
public void Set(UInt32 bufferSize)
{
Buffer = new Byte[bufferSize];
Pos = 0;
BufferSize = bufferSize;
}
UInt32 GetRndBit() { return RG.GetRnd(1); }
UInt32 GetLogRandBits(int numBits)
{
UInt32 len = RG.GetRnd(numBits);
return RG.GetRnd((int)len);
}
UInt32 GetOffset()
{
if (GetRndBit() == 0)
return GetLogRandBits(4);
return (GetLogRandBits(4) << 10) | RG.GetRnd(10);
}
UInt32 GetLen1() { return RG.GetRnd(1 + (int)RG.GetRnd(2)); }
UInt32 GetLen2() { return RG.GetRnd(2 + (int)RG.GetRnd(2)); }
public void Generate()
{
RG.Init();
Rep0 = 1;
while (Pos < BufferSize)
{
if (GetRndBit() == 0 || Pos < 1)
Buffer[Pos++] = (Byte)RG.GetRnd(8);
else
{
UInt32 len;
if (RG.GetRnd(3) == 0)
len = 1 + GetLen1();
else
{
do
Rep0 = GetOffset();
while (Rep0 >= Pos);
Rep0++;
len = 2 + GetLen2();
}
for (UInt32 i = 0; i < len && Pos < BufferSize; i++, Pos++)
Buffer[Pos] = Buffer[Pos - Rep0];
}
}
}
};
class CrcOutStream : System.IO.Stream
{
public CRC CRC = new CRC();
public void Init() { CRC.Init(); }
public UInt32 GetDigest() { return CRC.GetDigest(); }
public override bool CanRead { get { return false; } }
public override bool CanSeek { get { return false; } }
public override bool CanWrite { get { return true; } }
public override Int64 Length { get { return 0; } }
public override Int64 Position { get { return 0; } set { } }
public override void Flush() { }
public override long Seek(long offset, SeekOrigin origin) { return 0; }
public override void SetLength(long value) { }
public override int Read(byte[] buffer, int offset, int count) { return 0; }
public override void WriteByte(byte b)
{
CRC.UpdateByte(b);
}
public override void Write(byte[] buffer, int offset, int count)
{
CRC.Update(buffer, (uint)offset, (uint)count);
}
};
class CProgressInfo : ICodeProgress
{
public Int64 ApprovedStart;
public Int64 InSize;
public System.DateTime Time;
public void Init() { InSize = 0; }
public void SetProgress(Int64 inSize, Int64 outSize)
{
if (inSize >= ApprovedStart && InSize == 0)
{
Time = DateTime.UtcNow;
InSize = inSize;
}
}
}
const int kSubBits = 8;
static UInt32 GetLogSize(UInt32 size)
{
for (int i = kSubBits; i < 32; i++)
for (UInt32 j = 0; j < (1 << kSubBits); j++)
if (size <= (((UInt32)1) << i) + (j << (i - kSubBits)))
return (UInt32)(i << kSubBits) + j;
return (32 << kSubBits);
}
static UInt64 MyMultDiv64(UInt64 value, UInt64 elapsedTime)
{
UInt64 freq = TimeSpan.TicksPerSecond;
UInt64 elTime = elapsedTime;
while (freq > 1000000)
{
freq >>= 1;
elTime >>= 1;
}
if (elTime == 0)
elTime = 1;
return value * freq / elTime;
}
static UInt64 GetCompressRating(UInt32 dictionarySize, UInt64 elapsedTime, UInt64 size)
{
UInt64 t = GetLogSize(dictionarySize) - (18 << kSubBits);
UInt64 numCommandsForOne = 1060 + ((t * t * 10) >> (2 * kSubBits));
UInt64 numCommands = (UInt64)(size) * numCommandsForOne;
return MyMultDiv64(numCommands, elapsedTime);
}
static UInt64 GetDecompressRating(UInt64 elapsedTime, UInt64 outSize, UInt64 inSize)
{
UInt64 numCommands = inSize * 220 + outSize * 20;
return MyMultDiv64(numCommands, elapsedTime);
}
static UInt64 GetTotalRating(
UInt32 dictionarySize,
UInt64 elapsedTimeEn, UInt64 sizeEn,
UInt64 elapsedTimeDe,
UInt64 inSizeDe, UInt64 outSizeDe)
{
return (GetCompressRating(dictionarySize, elapsedTimeEn, sizeEn) +
GetDecompressRating(elapsedTimeDe, inSizeDe, outSizeDe)) / 2;
}
static void PrintValue(UInt64 v)
{
string s = v.ToString();
for (int i = 0; i + s.Length < 6; i++)
System.Console.Write(" ");
System.Console.Write(s);
}
static void PrintRating(UInt64 rating)
{
PrintValue(rating / 1000000);
System.Console.Write(" MIPS");
}
static void PrintResults(
UInt32 dictionarySize,
UInt64 elapsedTime,
UInt64 size,
bool decompressMode, UInt64 secondSize)
{
UInt64 speed = MyMultDiv64(size, elapsedTime);
PrintValue(speed / 1024);
System.Console.Write(" KB/s ");
UInt64 rating;
if (decompressMode)
rating = GetDecompressRating(elapsedTime, size, secondSize);
else
rating = GetCompressRating(dictionarySize, elapsedTime, size);
PrintRating(rating);
}
static public int LzmaBenchmark(Int32 numIterations, UInt32 dictionarySize)
{
if (numIterations <= 0)
return 0;
if (dictionarySize < (1 << 18))
{
System.Console.WriteLine("\nError: dictionary size for benchmark must be >= 19 (512 KB)");
return 1;
}
System.Console.Write("\n Compressing Decompressing\n\n");
Compression.LZMA.Encoder encoder = new Compression.LZMA.Encoder();
Compression.LZMA.Decoder decoder = new Compression.LZMA.Decoder();
CoderPropID[] propIDs =
{
CoderPropID.DictionarySize,
};
object[] properties =
{
(Int32)(dictionarySize),
};
UInt32 kBufferSize = dictionarySize + kAdditionalSize;
UInt32 kCompressedBufferSize = (kBufferSize / 2) + kCompressedAdditionalSize;
encoder.SetCoderProperties(propIDs, properties);
System.IO.MemoryStream propStream = new System.IO.MemoryStream();
encoder.WriteCoderProperties(propStream);
byte[] propArray = propStream.ToArray();
CBenchRandomGenerator rg = new CBenchRandomGenerator();
rg.Set(kBufferSize);
rg.Generate();
CRC crc = new CRC();
crc.Init();
crc.Update(rg.Buffer, 0, rg.BufferSize);
CProgressInfo progressInfo = new CProgressInfo();
progressInfo.ApprovedStart = dictionarySize;
UInt64 totalBenchSize = 0;
UInt64 totalEncodeTime = 0;
UInt64 totalDecodeTime = 0;
UInt64 totalCompressedSize = 0;
MemoryStream inStream = new MemoryStream(rg.Buffer, 0, (int)rg.BufferSize);
MemoryStream compressedStream = new MemoryStream((int)kCompressedBufferSize);
CrcOutStream crcOutStream = new CrcOutStream();
for (Int32 i = 0; i < numIterations; i++)
{
progressInfo.Init();
inStream.Seek(0, SeekOrigin.Begin);
compressedStream.Seek(0, SeekOrigin.Begin);
encoder.Code(inStream, compressedStream, -1, -1, progressInfo);
TimeSpan sp2 = DateTime.UtcNow - progressInfo.Time;
UInt64 encodeTime = (UInt64)sp2.Ticks;
long compressedSize = compressedStream.Position;
if (progressInfo.InSize == 0)
throw (new Exception("Internal ERROR 1282"));
UInt64 decodeTime = 0;
for (int j = 0; j < 2; j++)
{
compressedStream.Seek(0, SeekOrigin.Begin);
crcOutStream.Init();
decoder.SetDecoderProperties(propArray);
UInt64 outSize = kBufferSize;
System.DateTime startTime = DateTime.UtcNow;
decoder.Code(compressedStream, crcOutStream, 0, (Int64)outSize, null);
TimeSpan sp = (DateTime.UtcNow - startTime);
decodeTime = (ulong)sp.Ticks;
if (crcOutStream.GetDigest() != crc.GetDigest())
throw (new Exception("CRC Error"));
}
UInt64 benchSize = kBufferSize - (UInt64)progressInfo.InSize;
PrintResults(dictionarySize, encodeTime, benchSize, false, 0);
System.Console.Write(" ");
PrintResults(dictionarySize, decodeTime, kBufferSize, true, (ulong)compressedSize);
System.Console.WriteLine();
totalBenchSize += benchSize;
totalEncodeTime += encodeTime;
totalDecodeTime += decodeTime;
totalCompressedSize += (ulong)compressedSize;
}
System.Console.WriteLine("---------------------------------------------------");
PrintResults(dictionarySize, totalEncodeTime, totalBenchSize, false, 0);
System.Console.Write(" ");
PrintResults(dictionarySize, totalDecodeTime,
kBufferSize * (UInt64)numIterations, true, totalCompressedSize);
System.Console.WriteLine(" Average");
return 0;
}
}
}