// 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 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>() == event2.numbers>(); } 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 static inline void readNumbers(QDataStream &stream, Number *data, quint16 length) { for (quint16 i = 0; i != length; ++i) stream >> data[i]; } template static inline Number readNumber(QDataStream &stream, qint8 type) { switch (type) { case OneByte: { qint8 value; stream >> value; return static_cast(value); } case TwoByte: { qint16 value; stream >> value; return static_cast(value); } case FourByte: { qint32 value; stream >> value; return static_cast(value); } case EightByte: { qint64 value; stream >> value; return static_cast(value); } default: Q_UNREACHABLE_RETURN(0); } } QDataStream &operator>>(QDataStream &stream, QQmlProfilerEvent &event) { qint8 type; stream >> type; event.m_timestamp = readNumber(stream, (type >> TimestampOffset) & TypeMask); event.m_typeIndex = readNumber(stream, (type >> TypeIndexOffset) & TypeMask); event.m_dataLength = readNumber(stream, (type >> DataLengthOffset) & TypeMask); uint bytesPerNumber = 1 << ((type >> DataOffset) & TypeMask); if (event.m_dataLength * bytesPerNumber > sizeof(event.m_data)) { event.m_dataType = static_cast((bytesPerNumber * 8) | QQmlProfilerEvent::External); event.m_data.external = malloc(event.m_dataLength * bytesPerNumber); } else { event.m_dataType = static_cast(bytesPerNumber * 8); } switch (event.m_dataType) { case QQmlProfilerEvent::Inline8Bit: readNumbers(stream, event.m_data.internal8bit, event.m_dataLength); break; case QQmlProfilerEvent::External8Bit: readNumbers(stream, static_cast(event.m_data.external), event.m_dataLength); break; case QQmlProfilerEvent::Inline16Bit: readNumbers(stream, event.m_data.internal16bit, event.m_dataLength); break; case QQmlProfilerEvent::External16Bit: readNumbers(stream, static_cast(event.m_data.external), event.m_dataLength); break; case QQmlProfilerEvent::Inline32Bit: readNumbers(stream, event.m_data.internal32bit, event.m_dataLength); break; case QQmlProfilerEvent::External32Bit: readNumbers(stream, static_cast(event.m_data.external), event.m_dataLength); break; case QQmlProfilerEvent::Inline64Bit: readNumbers(stream, event.m_data.internal64bit, event.m_dataLength); break; case QQmlProfilerEvent::External64Bit: readNumbers(stream, static_cast(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(i) == event.number(i)); break; case TwoByte: ok = (event.number(i) == event.number(i)); break; case FourByte: ok = (event.number(i) == event.number(i)); break; default: // EightByte isn't possible, as (1 << type) == origBitsPerNumber / 8 then. Q_UNREACHABLE(); break; } if (ok) ++i; else ++type; } return type; } template static inline qint8 minimumType(Number number) { if (static_cast(number) == number) return OneByte; if (static_cast(number) == number) return TwoByte; if (static_cast(number) == number) return FourByte; return EightByte; } template static inline void writeNumbers(QDataStream &stream, const QQmlProfilerEvent &event, quint16 length) { for (quint16 i = 0; i != length; ++i) stream << event.number(i); } template static inline void writeNumber(QDataStream &stream, Number number, qint8 type) { switch (type) { case OneByte: stream << static_cast(number); break; case TwoByte: stream << static_cast(number); break; case FourByte: stream << static_cast(number); break; case EightByte: stream << static_cast(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(stream, event, event.m_dataLength); break; case TwoByte: writeNumbers(stream, event, event.m_dataLength); break; case FourByte: writeNumbers(stream, event, event.m_dataLength); break; case EightByte: writeNumbers(stream, event, event.m_dataLength); break; default: Q_UNREACHABLE(); break; } return stream; } QT_END_NAMESPACE