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#include "AmdaResultParserHelper.h"
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#include <Common/DateUtils.h>
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#include <Common/SortUtils.h>
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#include <Data/DataSeriesUtils.h>
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#include <Data/ScalarSeries.h>
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#include <Data/SpectrogramSeries.h>
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#include <Data/Unit.h>
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#include <Data/VectorSeries.h>
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#include <QtCore/QDateTime>
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#include <QtCore/QRegularExpression>
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#include <functional>
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Q_LOGGING_CATEGORY(LOG_AmdaResultParserHelper, "AmdaResultParserHelper")
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namespace {
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// ///////// //
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// Constants //
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// ///////// //
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/// Separator between values in a result line
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const auto RESULT_LINE_SEPARATOR = QRegularExpression{QStringLiteral("\\s+")};
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/// Format for dates in result files
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const auto DATE_FORMAT = QStringLiteral("yyyy-MM-ddThh:mm:ss.zzz");
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// /////// //
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// Methods //
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// /////// //
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/**
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* Checks that the properties contain a specific unit and that this unit is valid
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* @param properties the properties map in which to search unit
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* @param key the key to search for the unit in the properties
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* @param errorMessage the error message to log in case the unit is invalid
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* @return true if the unit is valid, false it it's invalid or was not found in the properties
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*/
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bool checkUnit(const Properties &properties, const QString &key, const QString &errorMessage)
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{
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auto unit = properties.value(key).value<Unit>();
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if (unit.m_Name.isEmpty()) {
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qCWarning(LOG_AmdaResultParserHelper()) << errorMessage;
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return false;
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}
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return true;
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}
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QDateTime dateTimeFromString(const QString &stringDate) noexcept
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{
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#if QT_VERSION >= QT_VERSION_CHECK(5, 8, 0)
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return QDateTime::fromString(stringDate, Qt::ISODateWithMs);
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#else
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return QDateTime::fromString(stringDate, DATE_FORMAT);
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#endif
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}
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/// Converts a string date to a double date
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/// @return a double that represents the date in seconds, NaN if the string date can't be converted
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double doubleDate(const QString &stringDate) noexcept
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{
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// Format: yyyy-MM-ddThh:mm:ss.zzz
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auto dateTime = dateTimeFromString(stringDate);
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dateTime.setTimeSpec(Qt::UTC);
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return dateTime.isValid() ? DateUtils::secondsSinceEpoch(dateTime)
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: std::numeric_limits<double>::quiet_NaN();
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}
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/**
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* Reads a line from the AMDA file and tries to extract a x-axis data and value data from it
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* @param xAxisData the vector in which to store the x-axis data extracted
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* @param valuesData the vector in which to store the value extracted
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* @param line the line to read to extract the property
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* @param valuesIndexes indexes of insertion of read values. For example, if the line contains three
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* columns of values, and valuesIndexes are {2, 0, 1}, the value of the third column will be read
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* and inserted first, then the value of the first column, and finally the value of the second
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* column.
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* @param fillValue value that tags an invalid data. For example, if fillValue is -1 and a read
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* value is -1, then this value is considered as invalid and converted to NaN
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*/
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void tryReadResult(std::vector<double> &xAxisData, std::vector<double> &valuesData,
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const QString &line, const std::vector<int> &valuesIndexes,
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double fillValue = std::numeric_limits<double>::quiet_NaN())
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{
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auto lineData = line.split(RESULT_LINE_SEPARATOR, QString::SkipEmptyParts);
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// Checks that the line contains expected number of values + x-axis value
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if (static_cast<size_t>(lineData.size()) == valuesIndexes.size() + 1) {
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// X : the data is converted from date to double (in secs)
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auto x = doubleDate(lineData.at(0));
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// Adds result only if x is valid. Then, if value is invalid, it is set to NaN
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if (!std::isnan(x)) {
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xAxisData.push_back(x);
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// Values
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for (auto valueIndex : valuesIndexes) {
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bool valueOk;
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// we use valueIndex + 1 to skip column 0 (x-axis value)
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auto value = lineData.at(valueIndex + 1).toDouble(&valueOk);
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if (!valueOk) {
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qCWarning(LOG_AmdaResultParserHelper())
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<< QObject::tr(
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"Value from (line %1, column %2) is invalid and will be "
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"converted to NaN")
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.arg(line, valueIndex);
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value = std::numeric_limits<double>::quiet_NaN();
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}
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// Handles fill value
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if (!std::isnan(fillValue) && !std::isnan(value) && fillValue == value) {
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value = std::numeric_limits<double>::quiet_NaN();
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}
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valuesData.push_back(value);
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}
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}
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else {
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qCWarning(LOG_AmdaResultParserHelper())
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<< QObject::tr("Can't retrieve results from line %1: x is invalid").arg(line);
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}
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}
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else {
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qCWarning(LOG_AmdaResultParserHelper())
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<< QObject::tr("Can't retrieve results from line %1: invalid line").arg(line);
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}
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}
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/**
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* Reads a line from the AMDA file and tries to extract a property from it
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* @param properties the properties map in which to put the property extracted from the line
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* @param key the key to which the property is added in the properties map
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* @param line the line to read to extract the property
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* @param regex the expected regex to extract the property. If the line matches this regex, the
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* property is generated
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* @param fun the function used to generate the property
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* @return true if the property could be generated, false if the line does not match the regex, or
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* if a property has already been generated for the key
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*/
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template <typename GeneratePropertyFun>
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bool tryReadProperty(Properties &properties, const QString &key, const QString &line,
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const QRegularExpression ®ex, GeneratePropertyFun fun)
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{
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if (properties.contains(key)) {
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return false;
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}
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auto match = regex.match(line);
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if (match.hasMatch()) {
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properties.insert(key, fun(match));
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}
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return match.hasMatch();
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}
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/**
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* Reads a line from the AMDA file and tries to extract a double from it
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* @sa tryReadProperty()
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*/
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bool tryReadDouble(Properties &properties, const QString &key, const QString &line,
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const QRegularExpression ®ex)
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{
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return tryReadProperty(properties, key, line, regex, [](const auto &match) {
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bool ok;
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// If the value can't be converted to double, it is set to NaN
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auto doubleValue = match.captured(1).toDouble(&ok);
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if (!ok) {
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doubleValue = std::numeric_limits<double>::quiet_NaN();
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}
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return QVariant::fromValue(doubleValue);
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});
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}
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/**
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* Reads a line from the AMDA file and tries to extract a vector of doubles from it
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* @param sep the separator of double values in the line
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* @sa tryReadProperty()
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*/
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bool tryReadDoubles(Properties &properties, const QString &key, const QString &line,
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const QRegularExpression ®ex, const QString &sep = QStringLiteral(","))
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{
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return tryReadProperty(properties, key, line, regex, [sep](const auto &match) {
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std::vector<double> doubleValues{};
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// If the value can't be converted to double, it is set to NaN
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auto values = match.captured(1).split(sep);
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for (auto value : values) {
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bool ok;
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auto doubleValue = value.toDouble(&ok);
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if (!ok) {
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doubleValue = std::numeric_limits<double>::quiet_NaN();
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}
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doubleValues.push_back(doubleValue);
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}
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return QVariant::fromValue(doubleValues);
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});
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}
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/**
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* Reads a line from the AMDA file and tries to extract a unit from it
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* @sa tryReadProperty()
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*/
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bool tryReadUnit(Properties &properties, const QString &key, const QString &line,
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const QRegularExpression ®ex, bool timeUnit = false)
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{
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return tryReadProperty(properties, key, line, regex, [timeUnit](const auto &match) {
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return QVariant::fromValue(Unit{match.captured(1), timeUnit});
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});
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}
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} // namespace
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// ////////////////// //
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// ScalarParserHelper //
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// ////////////////// //
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bool ScalarParserHelper::checkProperties()
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{
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return checkUnit(m_Properties, X_AXIS_UNIT_PROPERTY,
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QObject::tr("The x-axis unit could not be found in the file"));
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}
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std::shared_ptr<IDataSeries> ScalarParserHelper::createSeries()
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{
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return std::make_shared<ScalarSeries>(std::move(m_XAxisData), std::move(m_ValuesData),
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m_Properties.value(X_AXIS_UNIT_PROPERTY).value<Unit>(),
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m_Properties.value(VALUES_UNIT_PROPERTY).value<Unit>());
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}
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void ScalarParserHelper::readPropertyLine(const QString &line)
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{
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tryReadUnit(m_Properties, X_AXIS_UNIT_PROPERTY, line, DEFAULT_X_AXIS_UNIT_REGEX, true);
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}
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void ScalarParserHelper::readResultLine(const QString &line)
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{
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tryReadResult(m_XAxisData, m_ValuesData, line, valuesIndexes());
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}
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std::vector<int> ScalarParserHelper::valuesIndexes() const
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{
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// Only one value to read
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static auto result = std::vector<int>{0};
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return result;
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}
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// /////////////////////// //
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// SpectrogramParserHelper //
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// /////////////////////// //
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bool SpectrogramParserHelper::checkProperties()
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{
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// Generates y-axis data from bands extracted (take the middle of the intervals)
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auto minBands = m_Properties.value(MIN_BANDS_PROPERTY).value<std::vector<double> >();
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auto maxBands = m_Properties.value(MAX_BANDS_PROPERTY).value<std::vector<double> >();
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if (minBands.size() != maxBands.size()) {
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qCWarning(LOG_AmdaResultParserHelper()) << QObject::tr(
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"Can't generate y-axis data from bands extracted: bands intervals are invalid");
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return false;
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}
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std::transform(
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minBands.begin(), minBands.end(), maxBands.begin(), std::back_inserter(m_YAxisData),
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[](const auto &minValue, const auto &maxValue) { return (minValue + maxValue) / 2.; });
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// Generates values indexes, i.e. the order in which each value will be retrieved (in ascending
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// order of the associated bands)
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m_ValuesIndexes = SortUtils::sortPermutation(m_YAxisData, std::less<double>());
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// Sorts y-axis data accoding to the ascending order
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m_YAxisData = SortUtils::sort(m_YAxisData, 1, m_ValuesIndexes);
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// Sets fill value
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m_FillValue = m_Properties.value(FILL_VALUE_PROPERTY).value<double>();
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return true;
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}
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std::shared_ptr<IDataSeries> SpectrogramParserHelper::createSeries()
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{
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// Before creating the series, we handle its data holes
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handleDataHoles();
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return std::make_shared<SpectrogramSeries>(
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std::move(m_XAxisData), std::move(m_YAxisData), std::move(m_ValuesData),
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Unit{"t", true}, // x-axis unit is always a time unit
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m_Properties.value(Y_AXIS_UNIT_PROPERTY).value<Unit>(),
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m_Properties.value(VALUES_UNIT_PROPERTY).value<Unit>());
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}
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void SpectrogramParserHelper::readPropertyLine(const QString &line)
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{
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// Set of functions to test on the line to generate a property. If a function is valid (i.e. a
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// property has been generated for the line), the line is treated as processed and the other
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// functions are not called
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std::vector<std::function<bool()> > functions{
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// values unit
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[&] {
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return tryReadUnit(m_Properties, VALUES_UNIT_PROPERTY, line,
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SPECTROGRAM_VALUES_UNIT_REGEX);
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},
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// y-axis unit
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[&] {
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return tryReadUnit(m_Properties, Y_AXIS_UNIT_PROPERTY, line,
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SPECTROGRAM_Y_AXIS_UNIT_REGEX);
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},
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// min sampling
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[&] {
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return tryReadDouble(m_Properties, MIN_SAMPLING_PROPERTY, line,
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SPECTROGRAM_MIN_SAMPLING_REGEX);
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},
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// max sampling
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[&] {
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return tryReadDouble(m_Properties, MAX_SAMPLING_PROPERTY, line,
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SPECTROGRAM_MAX_SAMPLING_REGEX);
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},
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// fill value
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[&] {
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return tryReadDouble(m_Properties, FILL_VALUE_PROPERTY, line,
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SPECTROGRAM_FILL_VALUE_REGEX);
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},
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// min bounds of each band
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[&] {
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return tryReadDoubles(m_Properties, MIN_BANDS_PROPERTY, line,
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SPECTROGRAM_MIN_BANDS_REGEX);
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},
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// max bounds of each band
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[&] {
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return tryReadDoubles(m_Properties, MAX_BANDS_PROPERTY, line,
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SPECTROGRAM_MAX_BANDS_REGEX);
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}};
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for (auto function : functions) {
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// Stops at the first function that is valid
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if (function()) {
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return;
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}
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}
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}
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void SpectrogramParserHelper::readResultLine(const QString &line)
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{
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tryReadResult(m_XAxisData, m_ValuesData, line, m_ValuesIndexes, m_FillValue);
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}
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void SpectrogramParserHelper::handleDataHoles()
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{
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// Fills data holes according to the max resolution found in the AMDA file
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auto resolution = m_Properties.value(MAX_SAMPLING_PROPERTY).value<double>();
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auto fillValue = m_Properties.value(FILL_VALUE_PROPERTY).value<double>();
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auto minBound = m_Properties.value(START_TIME_PROPERTY).value<double>();
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auto maxBound = m_Properties.value(END_TIME_PROPERTY).value<double>();
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DataSeriesUtils::fillDataHoles(m_XAxisData, m_ValuesData, resolution, fillValue, minBound,
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maxBound);
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}
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// ////////////////// //
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// VectorParserHelper //
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// ////////////////// //
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bool VectorParserHelper::checkProperties()
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{
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return checkUnit(m_Properties, X_AXIS_UNIT_PROPERTY,
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QObject::tr("The x-axis unit could not be found in the file"));
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}
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std::shared_ptr<IDataSeries> VectorParserHelper::createSeries()
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{
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return std::make_shared<VectorSeries>(std::move(m_XAxisData), std::move(m_ValuesData),
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m_Properties.value(X_AXIS_UNIT_PROPERTY).value<Unit>(),
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m_Properties.value(VALUES_UNIT_PROPERTY).value<Unit>());
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}
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void VectorParserHelper::readPropertyLine(const QString &line)
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{
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tryReadUnit(m_Properties, X_AXIS_UNIT_PROPERTY, line, DEFAULT_X_AXIS_UNIT_REGEX, true);
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}
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void VectorParserHelper::readResultLine(const QString &line)
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{
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tryReadResult(m_XAxisData, m_ValuesData, line, valuesIndexes());
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}
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std::vector<int> VectorParserHelper::valuesIndexes() const
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{
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// 3 values to read, in order in the file (x, y, z)
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static auto result = std::vector<int>{0, 1, 2};
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return result;
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}
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