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// Copyright (C) 2017 The Qt Company Ltd.
// SPDX-License-Identifier: LicenseRef-Qt-Commercial OR LGPL-3.0-only OR GPL-2.0-only OR GPL-3.0-only
#include "qqmlprofilerevent_p.h"
#include <QtCore/qdatastream.h>
QT_BEGIN_NAMESPACE
bool operator==(const QQmlProfilerEvent &event1, const QQmlProfilerEvent &event2)
{
if (event1.timestamp() != event2.timestamp() || event1.typeIndex() != event2.typeIndex())
return false;
// This is not particularly efficient, but we also don't need to do this very often.
return event1.numbers<QVarLengthArray<qint64>>() == event2.numbers<QVarLengthArray<qint64>>();
}
bool operator!=(const QQmlProfilerEvent &event1, const QQmlProfilerEvent &event2)
{
return !(event1 == event2);
}
enum SerializationType {
OneByte = 0,
TwoByte = 1,
FourByte = 2,
EightByte = 3,
TypeMask = 0x3
};
enum SerializationTypeOffset {
TimestampOffset = 0,
TypeIndexOffset = 2,
DataLengthOffset = 4,
DataOffset = 6
};
template<typename Number>
static inline void readNumbers(QDataStream &stream, Number *data, quint16 length)
{
for (quint16 i = 0; i != length; ++i)
stream >> data[i];
}
template<typename Number>
static inline Number readNumber(QDataStream &stream, qint8 type)
{
switch (type) {
case OneByte: {
qint8 value;
stream >> value;
return static_cast<Number>(value);
}
case TwoByte: {
qint16 value;
stream >> value;
return static_cast<Number>(value);
}
case FourByte: {
qint32 value;
stream >> value;
return static_cast<Number>(value);
}
case EightByte: {
qint64 value;
stream >> value;
return static_cast<Number>(value);
}
default:
Q_UNREACHABLE_RETURN(0);
}
}
QDataStream &operator>>(QDataStream &stream, QQmlProfilerEvent &event)
{
qint8 type;
stream >> type;
event.m_timestamp = readNumber<qint64>(stream, (type >> TimestampOffset) & TypeMask);
event.m_typeIndex = readNumber<qint32>(stream, (type >> TypeIndexOffset) & TypeMask);
event.m_dataLength = readNumber<quint16>(stream, (type >> DataLengthOffset) & TypeMask);
uint bytesPerNumber = 1 << ((type >> DataOffset) & TypeMask);
if (event.m_dataLength * bytesPerNumber > sizeof(event.m_data)) {
event.m_dataType = static_cast<QQmlProfilerEvent::Type>((bytesPerNumber * 8)
| QQmlProfilerEvent::External);
event.m_data.external = malloc(event.m_dataLength * bytesPerNumber);
} else {
event.m_dataType = static_cast<QQmlProfilerEvent::Type>(bytesPerNumber * 8);
}
switch (event.m_dataType) {
case QQmlProfilerEvent::Inline8Bit:
readNumbers<qint8>(stream, event.m_data.internal8bit, event.m_dataLength);
break;
case QQmlProfilerEvent::External8Bit:
readNumbers<qint8>(stream, static_cast<qint8 *>(event.m_data.external),
event.m_dataLength);
break;
case QQmlProfilerEvent::Inline16Bit:
readNumbers<qint16>(stream, event.m_data.internal16bit, event.m_dataLength);
break;
case QQmlProfilerEvent::External16Bit:
readNumbers<qint16>(stream, static_cast<qint16 *>(event.m_data.external),
event.m_dataLength);
break;
case QQmlProfilerEvent::Inline32Bit:
readNumbers<qint32>(stream, event.m_data.internal32bit, event.m_dataLength);
break;
case QQmlProfilerEvent::External32Bit:
readNumbers<qint32>(stream, static_cast<qint32 *>(event.m_data.external),
event.m_dataLength);
break;
case QQmlProfilerEvent::Inline64Bit:
readNumbers<qint64>(stream, event.m_data.internal64bit, event.m_dataLength);
break;
case QQmlProfilerEvent::External64Bit:
readNumbers<qint64>(stream, static_cast<qint64 *>(event.m_data.external),
event.m_dataLength);
break;
default:
Q_UNREACHABLE();
break;
}
return stream;
}
static inline qint8 minimumType(const QQmlProfilerEvent &event, quint16 length,
quint16 origBitsPerNumber)
{
qint8 type = OneByte;
bool ok = true;
for (quint16 i = 0; i < length;) {
if ((1 << type) == origBitsPerNumber / 8)
return type;
switch (type) {
case OneByte:
ok = (event.number<qint8>(i) == event.number<qint64>(i));
break;
case TwoByte:
ok = (event.number<qint16>(i) == event.number<qint64>(i));
break;
case FourByte:
ok = (event.number<qint32>(i) == event.number<qint64>(i));
break;
default:
// EightByte isn't possible, as (1 << type) == origBitsPerNumber / 8 then.
Q_UNREACHABLE();
break;
}
if (ok)
++i;
else
++type;
}
return type;
}
template<typename Number>
static inline qint8 minimumType(Number number)
{
if (static_cast<qint8>(number) == number)
return OneByte;
if (static_cast<qint16>(number) == number)
return TwoByte;
if (static_cast<qint32>(number) == number)
return FourByte;
return EightByte;
}
template<typename Number>
static inline void writeNumbers(QDataStream &stream, const QQmlProfilerEvent &event, quint16 length)
{
for (quint16 i = 0; i != length; ++i)
stream << event.number<Number>(i);
}
template<typename Number>
static inline void writeNumber(QDataStream &stream, Number number, qint8 type)
{
switch (type) {
case OneByte:
stream << static_cast<qint8>(number);
break;
case TwoByte:
stream << static_cast<qint16>(number);
break;
case FourByte:
stream << static_cast<qint32>(number);
break;
case EightByte:
stream << static_cast<qint64>(number);
break;
default:
Q_UNREACHABLE();
break;
}
}
QDataStream &operator<<(QDataStream &stream, const QQmlProfilerEvent &event)
{
qint8 type = minimumType(event.m_timestamp); // << TimestampOffset;
type |= minimumType(event.m_typeIndex) << TypeIndexOffset;
type |= minimumType(event.m_dataLength) << DataLengthOffset;
type |= minimumType(event, event.m_dataLength, event.m_dataType) << DataOffset;
stream << type;
writeNumber(stream, event.m_timestamp, (type >> TimestampOffset) & TypeMask);
writeNumber(stream, event.m_typeIndex, (type >> TypeIndexOffset) & TypeMask);
writeNumber(stream, event.m_dataLength, (type >> DataLengthOffset) & TypeMask);
switch ((type >> DataOffset) & TypeMask) {
case OneByte:
writeNumbers<qint8>(stream, event, event.m_dataLength);
break;
case TwoByte:
writeNumbers<qint16>(stream, event, event.m_dataLength);
break;
case FourByte:
writeNumbers<qint32>(stream, event, event.m_dataLength);
break;
case EightByte:
writeNumbers<qint64>(stream, event, event.m_dataLength);
break;
default:
Q_UNREACHABLE();
break;
}
return stream;
}
QT_END_NAMESPACE
|
