#include "CosinusProvider.h" #include "MockDefs.h" #include #include #include #include #include #include #include Q_LOGGING_CATEGORY(LOG_CosinusProvider, "CosinusProvider") namespace { /// Abstract cosinus type struct ICosinusType { virtual ~ICosinusType() = default; /// @return the number of components generated for the type virtual int componentCount() const = 0; /// @return the data series created for the type virtual std::shared_ptr createDataSeries(std::vector xAxisData, std::vector valuesData, Unit xAxisUnit, Unit valuesUnit) const = 0; /// Generates values (one value per component) /// @param x the x-axis data used to generate values /// @param values the vector in which to insert the generated values /// @param dataIndex the index of insertion of the generated values /// virtual void generateValues(double x, std::vector &values, int dataIndex) const = 0; }; struct ScalarCosinus : public ICosinusType { int componentCount() const override { return 1; } std::shared_ptr createDataSeries(std::vector xAxisData, std::vector valuesData, Unit xAxisUnit, Unit valuesUnit) const override { return std::make_shared(std::move(xAxisData), std::move(valuesData), xAxisUnit, valuesUnit); } void generateValues(double x, std::vector &values, int dataIndex) const override { values[dataIndex] = std::cos(x); } }; struct VectorCosinus : public ICosinusType { int componentCount() const override { return 3; } std::shared_ptr createDataSeries(std::vector xAxisData, std::vector valuesData, Unit xAxisUnit, Unit valuesUnit) const override { return std::make_shared(std::move(xAxisData), std::move(valuesData), xAxisUnit, valuesUnit); } void generateValues(double x, std::vector &values, int dataIndex) const override { // Generates value for each component: cos(x), cos(x)/2, cos(x)/3 auto xValue = std::cos(x); auto componentCount = this->componentCount(); for (auto i = 0; i < componentCount; ++i) { values[componentCount * dataIndex + i] = xValue / (i + 1); } } }; /// Converts string to cosinus type /// @return the cosinus type if the string could be converted, nullptr otherwise std::unique_ptr cosinusType(const QString &type) noexcept { if (type.compare(QStringLiteral("scalar"), Qt::CaseInsensitive) == 0) { return std::make_unique(); } else if (type.compare(QStringLiteral("vector"), Qt::CaseInsensitive) == 0) { return std::make_unique(); } else { return nullptr; } } } // namespace std::shared_ptr CosinusProvider::clone() const { // No copy is made in clone return std::make_shared(); } std::shared_ptr CosinusProvider::retrieveData(QUuid acqIdentifier, const SqpRange &dataRangeRequested, const QVariantHash &data) { // TODO: Add Mutex auto dataIndex = 0; // Retrieves cosinus type auto typeVariant = data.value(COSINUS_TYPE_KEY, COSINUS_TYPE_DEFAULT_VALUE); if (!typeVariant.canConvert()) { qCCritical(LOG_CosinusProvider()) << tr("Can't retrieve data: invalid type"); return nullptr; } auto type = cosinusType(typeVariant.toString()); if (!type) { qCCritical(LOG_CosinusProvider()) << tr("Can't retrieve data: unknown type"); return nullptr; } // Retrieves frequency auto freqVariant = data.value(COSINUS_FREQUENCY_KEY, COSINUS_FREQUENCY_DEFAULT_VALUE); if (!freqVariant.canConvert()) { qCCritical(LOG_CosinusProvider()) << tr("Can't retrieve data: invalid frequency"); return nullptr; } // Gets the timerange from the parameters double freq = freqVariant.toDouble(); double start = std::ceil(dataRangeRequested.m_TStart * freq); double end = std::floor(dataRangeRequested.m_TEnd * freq); // We assure that timerange is valid if (end < start) { std::swap(start, end); } // Generates scalar series containing cosinus values (one value per second, end value is // included) auto dataCount = end - start + 1; // Number of components (depending on the cosinus type) auto componentCount = type->componentCount(); auto xAxisData = std::vector{}; xAxisData.resize(dataCount); auto valuesData = std::vector{}; valuesData.resize(dataCount * componentCount); int progress = 0; auto progressEnd = dataCount; for (auto time = start; time <= end; ++time, ++dataIndex) { auto it = m_VariableToEnableProvider.find(acqIdentifier); if (it != m_VariableToEnableProvider.end() && it.value()) { const auto x = time / freq; xAxisData[dataIndex] = x; // Generates values (depending on the type) type->generateValues(x, valuesData, dataIndex); // progression int currentProgress = (time - start) * 100.0 / progressEnd; if (currentProgress != progress) { progress = currentProgress; emit dataProvidedProgress(acqIdentifier, progress); qCDebug(LOG_CosinusProvider()) << "TORM: CosinusProvider::retrieveData" << QThread::currentThread()->objectName() << progress; // NOTE: Try to use multithread if possible } } else { if (!it.value()) { qCDebug(LOG_CosinusProvider()) << "CosinusProvider::retrieveData: ARRET De l'acquisition detecté" << end - time; } } } if (progress != 100) { // We can close progression beacause all data has been retrieved emit dataProvidedProgress(acqIdentifier, 100); } return type->createDataSeries(std::move(xAxisData), std::move(valuesData), Unit{QStringLiteral("t"), true}, Unit{}); } void CosinusProvider::requestDataLoading(QUuid acqIdentifier, const DataProviderParameters ¶meters) { // TODO: Add Mutex m_VariableToEnableProvider[acqIdentifier] = true; qCDebug(LOG_CosinusProvider()) << "TORM: CosinusProvider::requestDataLoading" << QThread::currentThread()->objectName(); // NOTE: Try to use multithread if possible const auto times = parameters.m_Times; for (const auto &dateTime : qAsConst(times)) { if (m_VariableToEnableProvider[acqIdentifier]) { auto scalarSeries = this->retrieveData(acqIdentifier, dateTime, parameters.m_Data); emit dataProvided(acqIdentifier, scalarSeries, dateTime); } } } void CosinusProvider::requestDataAborting(QUuid acqIdentifier) { qCDebug(LOG_CosinusProvider()) << "CosinusProvider::requestDataAborting" << acqIdentifier << QThread::currentThread()->objectName(); auto it = m_VariableToEnableProvider.find(acqIdentifier); if (it != m_VariableToEnableProvider.end()) { it.value() = false; } else { qCDebug(LOG_CosinusProvider()) << tr("Aborting progression of inexistant identifier detected !!!"); } } std::shared_ptr CosinusProvider::provideDataSeries(const SqpRange &dataRangeRequested, const QVariantHash &data) { auto uid = QUuid::createUuid(); m_VariableToEnableProvider[uid] = true; auto dataSeries = this->retrieveData(uid, dataRangeRequested, data); m_VariableToEnableProvider.remove(uid); return dataSeries; }