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pilotclient/src/blackmisc/pq/pqstring.cpp

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/* Copyright (C) 2013
* swift project Community / Contributors
*
* This file is part of swift project. It is subject to the license terms in the LICENSE file found in the top-level
* directory of this distribution and at http://www.swift-project.org/license.html. No part of swift project,
* including this file, may be copied, modified, propagated, or distributed except according to the terms
* contained in the LICENSE file.
*/
#include "blackmisc/pq/pqstring.h"
#include "blackmisc/tuple.h"
#include "blackmisc/pq/pq.h"
#include <QThreadStorage>
namespace BlackMisc
{
namespace PhysicalQuantities
{
QString CPqString::convertToQString(bool /** i18n **/) const
{
return this->m_string;
}
CVariant CPqString::parseToVariant(const QString &value, SeparatorMode mode)
{
CVariant v;
// fine tuning of the string
QString vs = value.trimmed().simplified();
// check
if (vs.isEmpty()) { return v; }
static QThreadStorage<QRegExp> tsRegex;
if (! tsRegex.hasLocalData()) { tsRegex.setLocalData(QRegExp("([-+]?[0-9]*[\\.,]?[0-9]+)\\s*(\\D*)$")); }
const auto &regex = tsRegex.localData();
if (regex.indexIn(value) < 0) { return v; } // not a valid number
QString unit = regex.cap(2).trimmed();
QString number = QString(value).replace(unit, "");
unit = unit.trimmed(); // trim after replace, not before
if (unit.isEmpty() || number.isEmpty()) { return v; }
bool success;
double numberD = parseNumber(number, success, mode);
if (!success) {return v; }
if (CMeasurementUnit::isValidUnitSymbol<CAccelerationUnit>(unit))
{
CAcceleration pq(numberD, CMeasurementUnit::unitFromSymbol<CAccelerationUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CAngleUnit>(unit))
{
CAngle pq(numberD, CMeasurementUnit::unitFromSymbol<CAngleUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CFrequencyUnit>(unit))
{
CFrequency pq(numberD, CMeasurementUnit::unitFromSymbol<CFrequencyUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CLengthUnit>(unit))
{
CLength pq(numberD, CMeasurementUnit::unitFromSymbol<CLengthUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CMassUnit>(unit))
{
CMass pq(numberD, CMeasurementUnit::unitFromSymbol<CMassUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CPressureUnit>(unit))
{
CPressure pq(numberD, CMeasurementUnit::unitFromSymbol<CPressureUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CSpeedUnit>(unit))
{
CSpeed pq(numberD, CMeasurementUnit::unitFromSymbol<CSpeedUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CTimeUnit>(unit))
{
CTime pq(numberD, CMeasurementUnit::unitFromSymbol<CTimeUnit>(unit, false));
return CVariant::from(pq);
}
if (CMeasurementUnit::isValidUnitSymbol<CTemperatureUnit>(unit))
{
CTemperature pq(numberD, CMeasurementUnit::unitFromSymbol<CTemperatureUnit>(unit, false));
return CVariant::from(pq);
}
return v;
}
double CPqString::parseNumber(const QString &number, bool &success, CPqString::SeparatorMode mode)
{
double numberD = -1;
switch (mode)
{
case SeparatorsLocale:
numberD = QLocale::system().toDouble(number, &success);
break;
case SeparatorsCLocale:
numberD = number.toDouble(&success);
break;
case SeparatorsBestGuess:
numberD = number.toDouble(&success);
if (!success) { numberD = QLocale::system().toDouble(number, &success); }
break;
default:
qFatal("Wrong mode");
break;
}
return numberD;
}
} // namespace
} // namespace
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