ClickHouse/utils/compressor/decompress_perf.cpp

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#include <lz4.h>
#include <cstring>
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#include <optional>
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#include <base/types.h>
#include <IO/ReadBuffer.h>
#include <IO/ReadBufferFromFileDescriptor.h>
#include <IO/WriteBufferFromFileDescriptor.h>
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#include <IO/MMapReadBufferFromFileDescriptor.h>
#include <IO/HashingWriteBuffer.h>
#include <IO/BufferWithOwnMemory.h>
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#include <Compression/CompressionInfo.h>
#include <IO/WriteHelpers.h>
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#include <Compression/LZ4_decompress_faster.h>
#include <IO/copyData.h>
#include <Common/PODArray.h>
#include <Common/Stopwatch.h>
#include <Common/formatReadable.h>
#include <Common/memcpySmall.h>
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#include <base/unaligned.h>
/** for i in *.bin; do ./decompress_perf < $i > /dev/null; done
*/
namespace DB
{
namespace ErrorCodes
{
extern const int UNKNOWN_COMPRESSION_METHOD;
extern const int TOO_LARGE_SIZE_COMPRESSED;
extern const int CANNOT_DECOMPRESS;
}
class FasterCompressedReadBufferBase
{
protected:
ReadBuffer * compressed_in;
/// If 'compressed_in' buffer has whole compressed block - then use it. Otherwise copy parts of data to 'own_compressed_buffer'.
PODArray<char> own_compressed_buffer;
/// Points to memory, holding compressed block.
char * compressed_buffer = nullptr;
ssize_t variant;
/// Variant for reference implementation of LZ4.
static constexpr ssize_t LZ4_REFERENCE = -3;
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LZ4::StreamStatistics stream_stat;
LZ4::PerformanceStatistics perf_stat;
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size_t readCompressedData(size_t & size_decompressed, size_t & size_compressed_without_checksum)
{
if (compressed_in->eof())
return 0;
CityHash_v1_0_2::uint128 checksum;
compressed_in->readStrict(reinterpret_cast<char *>(&checksum), sizeof(checksum));
own_compressed_buffer.resize(COMPRESSED_BLOCK_HEADER_SIZE);
compressed_in->readStrict(own_compressed_buffer.data(), COMPRESSED_BLOCK_HEADER_SIZE);
UInt8 method = own_compressed_buffer[0]; /// See CompressedWriteBuffer.h
size_t & size_compressed = size_compressed_without_checksum;
if (method == static_cast<UInt8>(CompressionMethodByte::LZ4) ||
method == static_cast<UInt8>(CompressionMethodByte::ZSTD) ||
method == static_cast<UInt8>(CompressionMethodByte::NONE))
{
size_compressed = unalignedLoad<UInt32>(&own_compressed_buffer[1]);
size_decompressed = unalignedLoad<UInt32>(&own_compressed_buffer[5]);
}
else
throw Exception("Unknown compression method: " + toString(method), ErrorCodes::UNKNOWN_COMPRESSION_METHOD);
if (size_compressed > DBMS_MAX_COMPRESSED_SIZE)
throw Exception("Too large size_compressed. Most likely corrupted data.", ErrorCodes::TOO_LARGE_SIZE_COMPRESSED);
/// Is whole compressed block located in 'compressed_in' buffer?
if (compressed_in->offset() >= COMPRESSED_BLOCK_HEADER_SIZE &&
compressed_in->position() + size_compressed - COMPRESSED_BLOCK_HEADER_SIZE <= compressed_in->buffer().end())
{
compressed_in->position() -= COMPRESSED_BLOCK_HEADER_SIZE;
compressed_buffer = compressed_in->position();
compressed_in->position() += size_compressed;
}
else
{
own_compressed_buffer.resize(size_compressed + (variant == LZ4_REFERENCE ? 0 : LZ4::ADDITIONAL_BYTES_AT_END_OF_BUFFER));
compressed_buffer = own_compressed_buffer.data();
compressed_in->readStrict(compressed_buffer + COMPRESSED_BLOCK_HEADER_SIZE, size_compressed - COMPRESSED_BLOCK_HEADER_SIZE);
}
return size_compressed + sizeof(checksum);
}
void decompress(char * to, size_t size_decompressed, size_t size_compressed_without_checksum)
{
UInt8 method = compressed_buffer[0]; /// See CompressedWriteBuffer.h
if (method == static_cast<UInt8>(CompressionMethodByte::LZ4))
{
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//LZ4::statistics(compressed_buffer + COMPRESSED_BLOCK_HEADER_SIZE, to, size_decompressed, stat);
if (variant == LZ4_REFERENCE)
{
if (LZ4_decompress_fast(
compressed_buffer + COMPRESSED_BLOCK_HEADER_SIZE, to,
static_cast<int>(size_decompressed)) < 0)
{
throw Exception("Cannot LZ4_decompress_fast", ErrorCodes::CANNOT_DECOMPRESS);
}
}
else
LZ4::decompress(compressed_buffer + COMPRESSED_BLOCK_HEADER_SIZE, to, size_compressed_without_checksum, size_decompressed, perf_stat);
}
else
throw Exception("Unknown compression method: " + toString(method), ErrorCodes::UNKNOWN_COMPRESSION_METHOD);
}
public:
/// 'compressed_in' could be initialized lazily, but before first call of 'readCompressedData'.
FasterCompressedReadBufferBase(ReadBuffer * in, ssize_t variant_)
: compressed_in(in), own_compressed_buffer(COMPRESSED_BLOCK_HEADER_SIZE), variant(variant_), perf_stat(variant)
{
}
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LZ4::StreamStatistics getStreamStatistics() const { return stream_stat; }
LZ4::PerformanceStatistics getPerformanceStatistics() const { return perf_stat; }
};
class FasterCompressedReadBuffer : public FasterCompressedReadBufferBase, public BufferWithOwnMemory<ReadBuffer>
{
private:
size_t size_compressed = 0;
bool nextImpl() override
{
size_t size_decompressed;
size_t size_compressed_without_checksum;
size_compressed = readCompressedData(size_decompressed, size_compressed_without_checksum);
if (!size_compressed)
return false;
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memory.resize(size_decompressed + LZ4::ADDITIONAL_BYTES_AT_END_OF_BUFFER);
working_buffer = Buffer(memory.data(), &memory[size_decompressed]);
decompress(working_buffer.begin(), size_decompressed, size_compressed_without_checksum);
return true;
}
public:
FasterCompressedReadBuffer(ReadBuffer & in_, ssize_t method)
: FasterCompressedReadBufferBase(&in_, method), BufferWithOwnMemory<ReadBuffer>(0)
{
}
};
}
int main(int argc, char ** argv)
try
{
using namespace DB;
/** -3 - use reference implementation of LZ4
* -2 - run all algorithms in round robin fashion
* -1 - automatically detect best algorithm based on statistics
* 0..3 - run specified algorithm
*/
ssize_t variant = argc < 2 ? -1 : parse<ssize_t>(argv[1]);
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MMapReadBufferFromFileDescriptor in(STDIN_FILENO, 0);
// ReadBufferFromFileDescriptor in(STDIN_FILENO);
FasterCompressedReadBuffer decompressing_in(in, variant);
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// WriteBufferFromFileDescriptor out(STDOUT_FILENO);
// HashingWriteBuffer hashing_out(out);
Stopwatch watch;
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// copyData(decompressing_in, /*hashing_*/out);
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while (!decompressing_in.eof())
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{
decompressing_in.position() = decompressing_in.buffer().end();
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decompressing_in.next();
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}
watch.stop();
std::cout << std::fixed << std::setprecision(3)
<< watch.elapsed() * 1000 / decompressing_in.count()
<< '\n';
/*
// auto hash = hashing_out.getHash();
double seconds = watch.elapsedSeconds();
std::cerr << std::fixed << std::setprecision(3)
<< "Elapsed: " << seconds
<< ", " << formatReadableSizeWithBinarySuffix(in.count()) << " compressed"
<< ", " << formatReadableSizeWithBinarySuffix(decompressing_in.count()) << " decompressed"
<< ", ratio: " << static_cast<double>(decompressing_in.count()) / in.count()
<< ", " << formatReadableSizeWithBinarySuffix(in.count() / seconds) << "/sec. compressed"
<< ", " << formatReadableSizeWithBinarySuffix(decompressing_in.count() / seconds) << "/sec. decompressed"
// << ", checksum: " << hash.first << "_" << hash.second
<< "\n";
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// decompressing_in.getStatistics().print();
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LZ4::PerformanceStatistics perf_stat = decompressing_in.getPerformanceStatistics();
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std::optional<size_t> best_variant;
double best_variant_mean = 0;
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for (size_t i = 0; i < LZ4::PerformanceStatistics::NUM_ELEMENTS; ++i)
{
const LZ4::PerformanceStatistics::Element & elem = perf_stat.data[i];
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if (elem.count)
{
double mean = elem.mean();
std::cerr << "Variant " << i << ": "
<< "count: " << elem.count
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<< ", mean ns/b: " << 1000000000.0 * mean << " (" << formatReadableSizeWithBinarySuffix(1 / mean) << "/sec.)"
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<< ", sigma ns/b: " << 1000000000.0 * elem.sigma()
<< "\n";
if (!best_variant || mean < best_variant_mean)
{
best_variant_mean = mean;
best_variant = i;
}
}
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}
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if (best_variant)
std::cerr << "Best variant: " << *best_variant << "\n";
*/
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return 0;
}
catch (...)
{
std::cerr << DB::getCurrentExceptionMessage(true);
return DB::getCurrentExceptionCode();
}