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tracy/server/TracyFileRead.hpp

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#ifndef __TRACYFILEREAD_HPP__
#define __TRACYFILEREAD_HPP__
#include <assert.h>
#include <atomic>
#include <algorithm>
#include <condition_variable>
#include <stdexcept>
#include <stdio.h>
#include <string.h>
#include <string>
#include <thread>
#include <utility>
#include <vector>
#include <sys/stat.h>
#ifdef _MSC_VER
# define stat64 _stat64
#endif
#if defined __APPLE__ || defined __FreeBSD__
# define stat64 stat
#endif
#include "TracyFileHeader.hpp"
#include "TracyFileMeta.hpp"
#include "TracyMmap.hpp"
#include "../public/common/TracyYield.hpp"
#include "../public/common/tracy_lz4.hpp"
#include "../public/common/TracyForceInline.hpp"
#include "../zstd/zstd.h"
namespace tracy
{
struct NotTracyDump : public std::exception {};
struct FileReadError : public std::exception {};
class ReadStream
{
public:
ReadStream( uint8_t type )
: m_stream( nullptr )
, m_streamZstd( nullptr )
, m_buf( new char[FileBufSize] )
, m_second( new char[FileBufSize] )
{
switch( type )
{
case 0:
m_stream = LZ4_createStreamDecode();
break;
case 1:
m_streamZstd = ZSTD_createDStream();
break;
default:
assert( false );
break;
}
}
~ReadStream()
{
delete[] m_buf;
delete[] m_second;
if( m_stream ) LZ4_freeStreamDecode( m_stream );
if( m_streamZstd ) ZSTD_freeDStream( m_streamZstd );
}
void Decompress( const char* src, uint32_t size )
{
std::swap( m_buf, m_second );
if( m_stream )
{
m_size = (size_t)LZ4_decompress_safe_continue( m_stream, src, m_buf, size, FileBufSize );
}
else
{
ZSTD_outBuffer out = { m_buf, FileBufSize, 0 };
ZSTD_inBuffer in = { src, size, 0 };
ZSTD_decompressStream( m_streamZstd, &out, &in );
m_size = out.pos;
}
}
const char* GetBuffer() const { return m_buf; }
size_t GetSize() const { return m_size; }
private:
LZ4_streamDecode_t* m_stream;
ZSTD_DStream* m_streamZstd;
char* m_buf;
char* m_second;
size_t m_size;
};
class FileRead
{
struct StreamHandle
{
StreamHandle( uint8_t type ) : stream( type ), outputReady( false ) {}
ReadStream stream;
const char* src;
uint32_t size;
bool inputReady = false;
bool exit = false;
alignas(64) std::atomic<bool> outputReady;
std::mutex signalLock;
std::condition_variable signal;
std::thread thread;
};
public:
static FileRead* Open( const char* fn )
{
auto f = fopen( fn, "rb" );
return f ? new FileRead( f, fn ) : nullptr;
}
~FileRead()
{
for( auto& v : m_streams )
{
std::lock_guard lock( v->signalLock );
v->exit = true;
v->signal.notify_one();
}
for( auto& v : m_streams ) v->thread.join();
m_streams.clear();
if( m_data ) munmap( m_data, m_dataSize );
}
tracy_force_inline void Read( void* ptr, size_t size )
{
if( size <= FileBufSize - m_offset )
{
ReadSmall( ptr, size );
}
else
{
ReadBig( ptr, size );
}
}
tracy_force_inline void Skip( size_t size )
{
if( size <= FileBufSize - m_offset )
{
m_offset += size;
}
else
{
SkipBig( size );
}
}
template<class T>
tracy_force_inline void Read( T& v )
{
if( sizeof( T ) <= FileBufSize - m_offset )
{
memcpy( &v, m_buf + m_offset, sizeof( T ) );
m_offset += sizeof( T );
}
else
{
T tmp;
ReadBig( &tmp, sizeof( T ) );
memcpy( &v, &tmp, sizeof( T ) );
}
}
template<class T, class U>
tracy_force_inline void Read2( T& v0, U& v1 )
{
if( sizeof( T ) + sizeof( U ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
m_offset += sizeof( T ) + sizeof( U );
}
else
{
char tmp[sizeof( T ) + sizeof( U )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
}
}
template<class T, class U, class V>
tracy_force_inline void Read3( T& v0, U& v1, V& v2 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
}
}
template<class T, class U, class V, class W>
tracy_force_inline void Read4( T& v0, U& v1, V& v2, W& v3 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
}
}
template<class T, class U, class V, class W, class X>
tracy_force_inline void Read5( T& v0, U& v1, V& v2, W& v3, X& v4 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
}
}
template<class T, class U, class V, class W, class X, class Y>
tracy_force_inline void Read6( T& v0, U& v1, V& v2, W& v3, X& v4, Y& v5 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
}
}
template<class T, class U, class V, class W, class X, class Y, class Z>
tracy_force_inline void Read7( T& v0, U& v1, V& v2, W& v3, X& v4, Y& v5, Z& v6 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
}
}
template<class T, class U, class V, class W, class X, class Y, class Z, class A>
tracy_force_inline void Read8( T& v0, U& v1, V& v2, W& v3, X& v4, Y& v5, Z& v6, A& v7 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
}
}
template<class T, class U, class V, class W, class X, class Y, class Z, class A, class B>
tracy_force_inline void Read9( T& v0, U& v1, V& v2, W& v3, X& v4, Y& v5, Z& v6, A& v7, B& v8 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
memcpy( &v8, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ), sizeof( B ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
memcpy( &v8, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ), sizeof( B ) );
}
}
template<class T, class U, class V, class W, class X, class Y, class Z, class A, class B, class C>
tracy_force_inline void Read10( T& v0, U& v1, V& v2, W& v3, X& v4, Y& v5, Z& v6, A& v7, B& v8, C& v9 )
{
if( sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) + sizeof( C ) <= FileBufSize - m_offset )
{
memcpy( &v0, m_buf + m_offset, sizeof( T ) );
memcpy( &v1, m_buf + m_offset + sizeof( T ), sizeof( U ) );
memcpy( &v2, m_buf + m_offset + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
memcpy( &v8, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ), sizeof( B ) );
memcpy( &v9, m_buf + m_offset + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ), sizeof( C ) );
m_offset += sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) + sizeof( C );
}
else
{
char tmp[sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) + sizeof( C )];
ReadBig( tmp, sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ) + sizeof( C ) );
memcpy( &v0, tmp, sizeof( T ) );
memcpy( &v1, tmp + sizeof( T ), sizeof( U ) );
memcpy( &v2, tmp + sizeof( T ) + sizeof( U ), sizeof( V ) );
memcpy( &v3, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ), sizeof( W ) );
memcpy( &v4, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ), sizeof( X ) );
memcpy( &v5, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ), sizeof( Y ) );
memcpy( &v6, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ), sizeof( Z ) );
memcpy( &v7, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ), sizeof( A ) );
memcpy( &v8, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ), sizeof( B ) );
memcpy( &v9, tmp + sizeof( T ) + sizeof( U ) + sizeof( V ) + sizeof( W ) + sizeof( X ) + sizeof( Y ) + sizeof( Z ) + sizeof( A ) + sizeof( B ), sizeof( C ) );
}
}
const std::string& GetFilename() const { return m_filename; }
private:
FileRead( FILE* f, const char* fn )
: m_data( nullptr )
, m_offset( 0 )
, m_streamId( 0 )
, m_filename( fn )
{
char hdr[4];
if( fread( hdr, 1, sizeof( hdr ), f ) != sizeof( hdr ) )
{
fclose( f );
throw NotTracyDump();
}
uint8_t streams = 1;
uint8_t type;
m_dataOffset = sizeof( hdr );
if( memcmp( hdr, TracyHeader, sizeof( hdr ) ) == 0 )
{
if( fread( &type, 1, 1, f ) != 1 || type > 1 )
{
fclose( f );
throw NotTracyDump();
}
if( fread( &streams, 1, 1, f ) != 1 )
{
fclose( f );
throw NotTracyDump();
}
m_dataOffset += 2;
}
else if( memcmp( hdr, Lz4Header, sizeof( hdr ) ) == 0 )
{
type = 0;
}
else if( memcmp( hdr, ZstdHeader, sizeof( hdr ) ) == 0 )
{
type = 1;
}
else
{
fclose( f );
throw NotTracyDump();
}
struct stat64 buf;
if( stat64( fn, &buf ) == 0 )
{
m_dataSize = buf.st_size;
}
else
{
fclose( f );
throw FileReadError();
}
m_data = (char*)mmap( nullptr, m_dataSize, PROT_READ, MAP_SHARED, fileno( f ), 0 );
fclose( f );
if( !m_data )
{
throw FileReadError();
}
for( int i=0; i<(int)streams; i++ )
{
if( m_dataOffset == m_dataSize ) break;
const auto sz = ReadBlockSize();
auto uptr = std::make_unique<StreamHandle>( type );
uptr->src = m_data + m_dataOffset;
uptr->size = sz;
uptr->inputReady = true;
uptr->thread = std::thread( [ptr = uptr.get()] { Worker( ptr ); } );
m_streams.emplace_back( std::move( uptr ) );
m_dataOffset += sz;
}
GetNextDataBlock();
}
tracy_force_inline uint32_t ReadBlockSize()
{
uint32_t sz;
memcpy( &sz, m_data + m_dataOffset, sizeof( sz ) );
m_dataOffset += sizeof( sz );
return sz;
}
static void Worker( StreamHandle* hnd )
{
for(;;)
{
std::unique_lock lock( hnd->signalLock );
hnd->signal.wait( lock, [&] { return hnd->inputReady || hnd->exit; } );
if( hnd->exit ) return;
lock.unlock();
hnd->stream.Decompress( hnd->src, hnd->size );
hnd->inputReady = false;
hnd->outputReady.store( true, std::memory_order_release );
}
}
tracy_force_inline void ReadSmall( void* ptr, size_t size )
{
memcpy( ptr, m_buf + m_offset, size );
m_offset += size;
}
void ReadBig( void* ptr, size_t size )
{
assert( size > 0 );
auto dst = (char*)ptr;
do
{
size_t sz;
if( m_offset == FileBufSize )
{
sz = std::min<size_t>( size, FileBufSize );
GetNextDataBlock();
memcpy( dst, m_buf, sz );
m_offset = sz;
}
else
{
sz = std::min( size, FileBufSize - m_offset );
memcpy( dst, m_buf + m_offset, sz );
m_offset += sz;
}
dst += sz;
size -= sz;
}
while( size > 0 );
}
void SkipBig( size_t size )
{
while( size > 0 )
{
if( m_offset == FileBufSize ) GetNextDataBlock();
const auto sz = std::min( size, FileBufSize - m_offset );
m_offset += sz;
size -= sz;
}
}
void GetNextDataBlock()
{
auto& hnd = *m_streams[m_streamId];
while( hnd.outputReady.load( std::memory_order_acquire ) == false ) { YieldThread(); }
hnd.outputReady.store( false, std::memory_order_relaxed );
m_buf = hnd.stream.GetBuffer();
m_offset = 0;
if( m_dataOffset < m_dataSize )
{
const auto sz = ReadBlockSize();
std::unique_lock lock( hnd.signalLock );
hnd.src = m_data + m_dataOffset;
hnd.size = sz;
hnd.inputReady = true;
hnd.signal.notify_one();
lock.unlock();
m_dataOffset += sz;
}
m_streamId = ( m_streamId + 1 ) % m_streams.size();
}
char* m_data;
const char* m_buf;
uint64_t m_dataSize;
uint64_t m_dataOffset;
size_t m_offset;
int m_streamId;
std::string m_filename;
std::vector<std::unique_ptr<StreamHandle>> m_streams;
};
}
#endif
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