482 lines
10 KiB
C++
482 lines
10 KiB
C++
#include "extract_basic.h"
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#include <QVariant>
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using namespace extract;
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AbstractExtractor::AbstractExtractor(const QString& name, DataType data)
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{
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_abs_data.name_store = name;
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_abs_data.type_store = data;
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}
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bool AbstractExtractor::setOffsetSpan(int bytes)
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{
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this->_abs_data.byte_offset = bytes;
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return true;
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}
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bool AbstractExtractor::setCountWithin(int bytes)
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{
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this->_abs_data.byte_count = bytes;
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return true;
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}
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QString AbstractExtractor::name() const
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{
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return _abs_data.name_store;
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}
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DataType AbstractExtractor::outType() const
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{
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return _abs_data.type_store;
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}
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int AbstractExtractor::offsetSpan() const
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{
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return _abs_data.byte_offset;
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}
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int AbstractExtractor::countWithin() const
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{
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return this->_abs_data.byte_count;
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}
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void AbstractExtractor::loadFrom(
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std::shared_ptr<TranslateBasic> core, const QJsonObject& obj)
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{
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INT32_PEAK(_abs_data.byte_offset);
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INT32_PEAK(_abs_data.byte_count);
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}
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void AbstractExtractor::saveTo(QJsonObject& obj) const
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{
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INT32_SAVE(_abs_data.byte_offset);
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INT32_SAVE(_abs_data.byte_count);
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}
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BytesAsHex::BytesAsHex()
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: AbstractExtractor(NAME(BytesAsHex), DataType::TextString) {
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setCountWithin(1);
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}
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QVariant BytesAsHex::parse(const QByteArray& bytes) const
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{
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QString result;
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for (auto char_v : bytes) {
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result += QString("%1").arg(char_v, 2, 16, QChar('0'));
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}
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return result;
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}
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std::shared_ptr<Serializable> BytesAsHex::newDefault() const
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{
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return std::make_shared<BytesAsHex>();
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}
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BytesAsBitCombine::BytesAsBitCombine()
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: AbstractExtractor(NAME(BytesAsBitCombine), DataType::TextString)
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{
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}
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bool BytesAsBitCombine::setSwitchOption(int bit_index, const QString& keyword)
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{
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if (bit_index >= 0 && bit_index <= this->countWithin() * 8) {
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_combine._switch_options[bit_index] = keyword;
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return true;
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}
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return false;
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}
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QHash<int, QString> BytesAsBitCombine::switchOptions() const
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{
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return _combine._switch_options;
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}
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void BytesAsBitCombine::clearOptions()
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{
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_combine._switch_options.clear();
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}
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QVariant BytesAsBitCombine::parse(const QByteArray& bytes) const
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{
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auto keys = _combine._switch_options.keys();
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std::sort(keys.begin(), keys.end());
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QString result;
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for (auto idx : keys) {
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auto byte_idx = idx / 8;
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auto bit_idx = idx % 8;
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auto char_v = bytes.at(byte_idx);
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if (char_v & (0x1u << bit_idx))
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result += QString("%1<%2>;").arg(_combine._switch_options[idx], "Y");
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else
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result += QString("%1<%2>;").arg(_combine._switch_options[idx], "N");
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}
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return result;
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}
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void BytesAsBitCombine::loadFrom(
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std::shared_ptr<TranslateBasic> core, const QJsonObject& obj)
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{
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AbstractExtractor::loadFrom(core, obj);
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QStringList value_list;
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STRLIST_PEAK(value_list);
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_combine._switch_options.clear();
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for (auto pair : value_list) {
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auto items = pair.split("=");
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_combine._switch_options[items.first().toInt()] = items.last();
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}
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}
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void BytesAsBitCombine::saveTo(QJsonObject& obj) const
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{
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AbstractExtractor::saveTo(obj);
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QStringList value_list;
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for (auto key : _combine._switch_options.keys()) {
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auto pair_str = QString("%1=%2").arg(key)
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.arg(_combine._switch_options[key]);
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value_list << pair_str;
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}
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STRLIST_SAVE(value_list);
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}
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std::shared_ptr<Serializable> BytesAsBitCombine::newDefault() const
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{
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return std::make_shared<BytesAsBitCombine>();
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}
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std::shared_ptr<Serializable> BytesAsInteger::newDefault() const
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{
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return std::make_shared<BytesAsInteger>();
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}
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BytesAsInteger::BytesAsInteger()
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:AbstractExtractor(NAME(BytesAsInteger), DataType::Integer) {
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}
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bool BytesAsInteger::setCountWithin(int bytes)
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{
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bytes = std::min(8, std::max(bytes, 0));
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return AbstractExtractor::setCountWithin(bytes);
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}
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QVariant BytesAsInteger::parse(const QByteArray& bytes) const
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{
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auto last = bytes[bytes.size() - 1];
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auto mark = last == 0 ? 0 : last / std::abs(last);
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auto xbuffer = bytes;
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if (mark >= 0) {
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xbuffer.append(8 - bytes.size(), 0);
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}
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else {
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xbuffer.append(8 - bytes.size(), static_cast<char>(0xff));
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}
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unsigned long long value = 0;
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for (auto vidx = xbuffer.size() - 1; vidx >= 0; vidx--) {
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auto vchar = xbuffer.at(vidx);
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value = value << 8;
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value += (uchar)vchar;
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}
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return *((long long*)(&value));
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}
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#include <QTextCodec>
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BytesAsString::BytesAsString()
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:AbstractExtractor(NAME(BytesAsString), DataType::TextString) {
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_strings._conv_with = QTextCodec::codecForName("GBK");
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}
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void BytesAsString::setStrCodec(QTextCodec* ins)
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{
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this->_strings._conv_with = ins;
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}
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QString BytesAsString::codecName() const
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{
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return this->_strings._conv_with->name();
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}
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QVariant BytesAsString::parse(const QByteArray& bytes) const
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{
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return _strings._conv_with->toUnicode(bytes);
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}
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void BytesAsString::loadFrom(std::shared_ptr<TranslateBasic> core, const QJsonObject& obj)
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{
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AbstractExtractor::loadFrom(core, obj);
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QString codec_name;
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STRING_PEAK(codec_name);
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this->_strings._conv_with = QTextCodec::codecForName(codec_name.toLatin1());
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}
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void BytesAsString::saveTo(QJsonObject& obj) const
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{
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AbstractExtractor::saveTo(obj);
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auto codec_name = this->codecName();
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STRING_SAVE(codec_name);
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}
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std::shared_ptr<Serializable> BytesAsString::newDefault() const
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{
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return std::make_shared<BytesAsString>();
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}
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QVariant BytesAsFloat::parse(const QByteArray& bytes) const
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{
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return *((float*)bytes.data());
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}
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std::shared_ptr<Serializable> BytesAsFloat::newDefault() const
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{
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return std::make_shared<BytesAsFloat>();
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}
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BytesAsFloat::BytesAsFloat()
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:AbstractExtractor(NAME(BytesAsFloat), DataType::Flt32)
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{
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this->setCountWithin(4);
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}
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std::shared_ptr<Serializable> BytesAsDouble::newDefault() const
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{
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return std::make_shared<BytesAsDouble>();
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}
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QVariant BytesAsDouble::parse(const QByteArray& bytes) const
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{
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return *((double*)bytes.data());
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}
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BytesAsDouble::BytesAsDouble()
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:AbstractExtractor(NAME(BytesAsDouble), DataType::Dbl64)
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{
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this->setCountWithin(8);
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}
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BytesAsUnsigned::BytesAsUnsigned()
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:AbstractExtractor(NAME(BytesAsUnsigned), DataType::Unsigned)
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{
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}
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bool BytesAsUnsigned::setCountWithin(int bytes)
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{
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auto count = std::max(1, std::min(8, bytes));
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return AbstractExtractor::setCountWithin(count);
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}
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QVariant BytesAsUnsigned::parse(const QByteArray& bytes) const
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{
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unsigned long long value = 0;
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for (auto vidx = bytes.size() - 1; vidx >= 0; vidx--) {
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auto vchar = bytes.at(vidx);
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value = value << 8;
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value += (uchar)vchar;
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}
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return value;
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}
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std::shared_ptr<Serializable> BytesAsUnsigned::newDefault() const
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{
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return std::make_shared<BytesAsUnsigned>();
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}
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#include <stdexcept>
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bool BytesAsList::setOffsetSpan(int value)
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{
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this->_list._bytes_offset = value;
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return true;
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}
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std::shared_ptr<ExtractUnit> BytesAsList::elementRule() const
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{
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return this->_list._bind_unit;
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}
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bool BytesAsList::appendElementRule(std::shared_ptr<ExtractUnit> u)
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{
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this->_list._bind_unit = u;
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return true;
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}
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std::shared_ptr<SizeProvider> BytesAsList::sizeProvider() const
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{
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return this->_list._bind_size_v;
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}
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bool BytesAsList::setSizeProvider(std::shared_ptr<SizeProvider> ins)
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{
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this->_list._bind_size_v = ins;
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return true;
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}
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QString BytesAsList::name() const
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{
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return NAME(BytesAsList);
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}
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DataType BytesAsList::outType() const
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{
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return DataType::LIST_COLLECTION;
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}
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int BytesAsList::offsetSpan() const
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{
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return _list._bytes_offset;
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}
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int BytesAsList::countWithin() const
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{
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auto expr = this->_list._bind_size_v->expression();
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if (this->_list._bind_size_v->value(expr) < 0) {
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return 0;
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}
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return this->_list._bind_size_v->value(expr)
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* this->_list._bind_unit->countWithin();
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}
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#include "TranslateBasic.h"
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void BytesAsList::loadFrom(std::shared_ptr<TranslateBasic> core, const QJsonObject& obj)
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{
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INT32_PEAK(_list._bytes_offset);
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QString bind_unit_name = "";
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QString bind_size_provider_name = "";
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STRING_PEAK(bind_unit_name);
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STRING_PEAK(bind_size_provider_name);
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this->_list._bind_size_v = core->sizeProviders()[bind_size_provider_name];
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this->_list._bind_unit = core->extactors()[bind_unit_name];
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QString bind_provider_expr = "";
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STRING_SAVE(bind_provider_expr);
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this->_list._bind_size_v->setExpression(bind_provider_expr);
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}
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void BytesAsList::saveTo(QJsonObject& obj) const
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{
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INT32_SAVE(_list._bytes_offset);
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QString bind_unit_name = "";
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if (this->_list._bind_unit)
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bind_unit_name = this->_list._bind_unit->name();
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STRING_SAVE(bind_unit_name);
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QString bind_size_provider_name = "";
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QString bind_provider_expr = "";
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if (this->_list._bind_size_v) {
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bind_provider_expr = this->_list._bind_size_v->expression();
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bind_size_provider_name = this->_list._bind_size_v->name();
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}
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STRING_SAVE(bind_size_provider_name);
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STRING_SAVE(bind_provider_expr);
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}
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QVariant BytesAsList::parse(const QByteArray& bytes) const
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{
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QVariantList value_list;
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auto expr = this->_list._bind_size_v->expression();
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auto size_value = this->_list._bind_size_v->value(expr);
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auto unit_size = this->_list._bind_unit->countWithin();
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for (auto idx = 0; idx < size_value; ++idx) {
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auto secn = bytes.mid(unit_size * idx, unit_size);
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auto value_v = this->_list._bind_unit->parse(secn);
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value_list << value_v;
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}
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return value_list;
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}
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std::shared_ptr<Serializable> BytesAsList::newDefault() const
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{
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return std::make_shared<BytesAsList>();
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}
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QString BytesAsUnion::name() const
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{
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return NAME(BytesAsUnion);
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}
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DataType BytesAsUnion::outType() const
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{
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return DataType::UNION_COMBINATE;
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}
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int BytesAsUnion::offsetSpan() const
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{
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return _union.byte_offset;
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}
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int BytesAsUnion::countWithin() const
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{
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return _union.byte_count;
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}
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QVariant BytesAsUnion::parse(const QByteArray& bytes) const
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{
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for (auto u : this->elementRules())
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if (u->checkpass(bytes))
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return u->bindRule()->parse(bytes);
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return QVariant();
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}
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void BytesAsUnion::loadFrom(
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std::shared_ptr<TranslateBasic> core, const QJsonObject& obj)
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{
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INT32_PEAK(_union.byte_count);
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INT32_PEAK(_union.byte_offset);
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}
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void BytesAsUnion::saveTo(QJsonObject& obj) const
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{
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INT32_SAVE(_union.byte_count);
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INT32_SAVE(_union.byte_offset);
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}
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std::shared_ptr<Serializable> BytesAsUnion::newDefault() const
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{
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return std::make_shared<BytesAsUnion>();
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}
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QList<std::shared_ptr<RuleMatch>> BytesAsUnion::elementRules() const
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{
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return _union._rule_list;
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}
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bool BytesAsUnion::appendElementRule(std::shared_ptr<RuleMatch> u)
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{
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this->_union._rule_list << u;
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return true;
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}
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void BytesAsUnion::clearRules()
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{
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this->_union._rule_list.clear();
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}
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bool BytesAsUnion::setCountWithin(int bytes)
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{
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this->_union.byte_count = bytes;
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return true;
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}
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bool BytesAsUnion::setOffsetSpan(int value)
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{
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this->_union.byte_offset = value;
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return true;
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}
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