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Generates unique name for variable duplicate
Generates unique name for variable duplicate

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TestAmdaAcquisition.cpp
197 lines | 6.7 KiB | text/x-c | CppLexer
/ plugins / amda / tests / TestAmdaAcquisition.cpp
Add test acquisition.
r553 #include "AmdaProvider.h"
#include "AmdaResultParser.h"
#include "SqpApplication.h"
#include <Data/DataSeries.h>
#include <Data/IDataSeries.h>
#include <Data/ScalarSeries.h>
#include <Time/TimeController.h>
#include <Variable/Variable.h>
#include <Variable/VariableController.h>
#include <QObject>
#include <QtTest>
#include <memory>
// TEST with REF:
// AmdaData-2012-01-01-12-00-00_2012-01-03-12-00-00
// imf(0) - Type : Local Parameter @ CDPP/AMDA -
// Name : bx_gse - Units : nT - Size : 1 -
// Frame : GSE - Mission : ACE -
// Instrument : MFI - Dataset : mfi_final-prelim
// REFERENCE DOWNLOAD FILE =
// http://amda.irap.omp.eu/php/rest/getParameter.php?startTime=2012-01-01T12:00:00&stopTime=2012-01-03T12:00:00&parameterID=imf(0)&outputFormat=ASCII&timeFormat=ISO8601&gzip=0
namespace {
/// Path for the tests
const auto TESTS_RESOURCES_PATH
= QFileInfo{QString{AMDA_TESTS_RESOURCES_DIR}, "TestAmdaAcquisition"}.absoluteFilePath();
const auto TESTS_AMDA_REF_FILE = QString{"AmdaData-2012-01-01-12-00-00_2012-01-03-12-00-00.txt"};
template <typename T>
bool compareDataSeries(std::shared_ptr<IDataSeries> candidate, SqpRange candidateCacheRange,
std::shared_ptr<IDataSeries> reference)
{
auto compareLambda = [](const auto &it1, const auto &it2) {
return (it1.x() == it2.x()) && (it1.value() == it2.value());
};
auto candidateDS = std::dynamic_pointer_cast<T>(candidate);
auto referenceDS = std::dynamic_pointer_cast<T>(reference);
if (candidateDS && referenceDS) {
auto itRefs
Alexandre Leroux
Uses variable range in graph
r576 = referenceDS->xAxisRange(candidateCacheRange.m_TStart, candidateCacheRange.m_TEnd);
Add test acquisition.
r553 qDebug() << " DISTANCE" << std::distance(candidateDS->cbegin(), candidateDS->cend())
<< std::distance(itRefs.first, itRefs.second);
// auto xcValue = candidateDS->valuesData()->data();
// auto dist = std::distance(itRefs.first, itRefs.second);
// auto it = itRefs.first;
// for (auto i = 0; i < dist - 1; ++i) {
// ++it;
// qInfo() << "END:" << it->value();
// }
// qDebug() << "END:" << it->value() << xcValue.last();
return std::equal(candidateDS->cbegin(), candidateDS->cend(), itRefs.first, itRefs.second,
compareLambda);
}
else {
return false;
}
}
}
class TestAmdaAcquisition : public QObject {
Q_OBJECT
private slots:
void testAcquisition();
};
void TestAmdaAcquisition::testAcquisition()
{
// READ the ref file:
auto filePath = QFileInfo{TESTS_RESOURCES_PATH, TESTS_AMDA_REF_FILE}.absoluteFilePath();
auto results = AmdaResultParser::readTxt(filePath, AmdaResultParser::ValueType::SCALAR);
auto provider = std::make_shared<AmdaProvider>();
auto timeController = std::make_unique<TimeController>();
auto varRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 3, 0, 0}};
auto varRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 4, 0, 0}};
auto sqpR = SqpRange{DateUtils::secondsSinceEpoch(varRS), DateUtils::secondsSinceEpoch(varRE)};
timeController->onTimeToUpdate(sqpR);
QVariantHash metaData;
metaData.insert("dataType", "scalar");
metaData.insert("xml:id", "imf(0)");
VariableController vc;
vc.setTimeController(timeController.get());
auto var = vc.createVariable("bx_gse", metaData, provider);
// 1 : Variable creation
QCOMPARE(var->range().m_TStart, sqpR.m_TStart);
QCOMPARE(var->range().m_TEnd, sqpR.m_TEnd);
qDebug() << " 1: TIMECONTROLLER" << timeController->dateTime();
qDebug() << " 1: RANGE " << var->range();
qDebug() << " 1: CACHERANGE" << var->cacheRange();
// wait for 10 sec before asking next request toi permit asynchrone process to finish.
auto timeToWaitMs = 10000;
QEventLoop loop;
QTimer::singleShot(timeToWaitMs, &loop, &QEventLoop::quit);
loop.exec();
// Tests on acquisition operation
int count = 1;
auto requestDataLoading = [&vc, var, timeToWaitMs, results, &count](auto tStart, auto tEnd) {
++count;
auto nextSqpR
= SqpRange{DateUtils::secondsSinceEpoch(tStart), DateUtils::secondsSinceEpoch(tEnd)};
vc.onRequestDataLoading(QVector<std::shared_ptr<Variable> >{} << var, nextSqpR,
var->range(), true);
QEventLoop loop;
QTimer::singleShot(timeToWaitMs, &loop, &QEventLoop::quit);
loop.exec();
Next range of a variable synchronized is now computed using:...
r586 qInfo() << count << "RANGE " << var->range();
qInfo() << count << "CACHERANGE" << var->cacheRange();
Add test acquisition.
r553
QCOMPARE(var->range().m_TStart, nextSqpR.m_TStart);
QCOMPARE(var->range().m_TEnd, nextSqpR.m_TEnd);
// Verify dataserie
QVERIFY(compareDataSeries<ScalarSeries>(var->dataSeries(), var->cacheRange(), results));
};
// 2 : pan (jump) left for one hour
auto nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 1, 0, 0}};
auto nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 2, 0, 0}};
Next range of a variable synchronized is now computed using:...
r586 requestDataLoading(nextVarRS, nextVarRE);
Add test acquisition.
r553
// 3 : pan (jump) right for one hour
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 5, 0, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 6, 0, 0}};
requestDataLoading(nextVarRS, nextVarRE);
// 4 : pan (overlay) right for 30 min
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 5, 30, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 6, 30, 0}};
// requestDataLoading(nextVarRS, nextVarRE);
// 5 : pan (overlay) left for 30 min
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 5, 0, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 6, 0, 0}};
// requestDataLoading(nextVarRS, nextVarRE);
// 6 : pan (overlay) left for 30 min - BIS
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 4, 30, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 5, 30, 0}};
// requestDataLoading(nextVarRS, nextVarRE);
// 7 : Zoom in Inside 20 min range
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 4, 50, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 5, 10, 0}};
// requestDataLoading(nextVarRS, nextVarRE);
// 8 : Zoom out Inside 2 hours range
nextVarRS = QDateTime{QDate{2012, 01, 02}, QTime{2, 4, 0, 0}};
nextVarRE = QDateTime{QDate{2012, 01, 02}, QTime{2, 6, 0, 0}};
// requestDataLoading(nextVarRS, nextVarRE);
// Close the app after 10 sec
QTimer::singleShot(timeToWaitMs, &loop, &QEventLoop::quit);
loop.exec();
}
int main(int argc, char *argv[])
{
SqpApplication app(argc, argv);
app.setAttribute(Qt::AA_Use96Dpi, true);
TestAmdaAcquisition tc;
QTEST_SET_MAIN_SOURCE_PATH
return QTest::qExec(&tc, argc, argv);
}
// QTEST_MAIN(TestAmdaAcquisition)
#include "TestAmdaAcquisition.moc"