##// END OF EJS Templates
HG_REPOSITORIES » LPP » SciQLOP_Repos » SciQLop
RSS
Some refactoring on PB11 wrappers...
Some refactoring on PB11 wrappers Most sciqlop core wrappers are moved into a dedicated python module. We needs to get rid off sqpapp! All current sciqlop modules should either be stateless or act as real singletons they must not need any app to be used. This will ease testing, wrapping and usage. Signed-off-by: Alexis Jeandet <alexis.jeandet@member.fsf.org>
perrinel - - Load All Authors

File last commit:

r370:df6a5b97d490
r1341:f18e017310bc
Show More
TestAmdaParser.cpp
176 lines | 6.5 KiB | text/x-c | CppLexer
/ plugins / amda / tests / TestAmdaParser.cpp
History | Annotation | Raw |Copy content |Copy permalink
#include "AmdaParser.h"
#include <DataSource/DataSourceItem.h>
#include <QObject>
#include <QtTest>
#include <QString>
namespace {
/// Path for the tests
const auto TESTS_RESOURCES_PATH
= QFileInfo{QString{AMDA_TESTS_RESOURCES_DIR}, "TestAmdaParser"}.absoluteFilePath();
QString inputFilePath(const QString &inputFileName)
{
return QFileInfo{TESTS_RESOURCES_PATH, inputFileName}.absoluteFilePath();
}
struct ExpectedResults {
explicit ExpectedResults() = default;
explicit ExpectedResults(std::shared_ptr<DataSourceItem> item)
: m_ParsingOK{true}, m_Item{std::move(item)}
{
}
// Parsing was successfully completed
bool m_ParsingOK{false};
// Expected item after parsing
std::shared_ptr<DataSourceItem> m_Item{nullptr};
};
// ///////////////////////////////// //
// Set of expected results for tests //
// ///////////////////////////////// //
ExpectedResults validResults1()
{
auto component1 = std::make_unique<DataSourceItem>(
DataSourceItemType::COMPONENT,
QHash<QString, QVariant>{{"name", "Bx"}, {"xml:id", "ice_b_cse(0)"}});
auto component2 = std::make_unique<DataSourceItem>(
DataSourceItemType::COMPONENT,
QHash<QString, QVariant>{{"name", "By"}, {"xml:id", "ice_b_cse(1)"}});
auto component3 = std::make_unique<DataSourceItem>(
DataSourceItemType::COMPONENT,
QHash<QString, QVariant>{{"name", "Bz"}, {"xml:id", "ice_b_cse(2)"}});
auto parameter1 = std::make_unique<DataSourceItem>(
DataSourceItemType::PRODUCT,
QHash<QString, QVariant>{
{"name", "B_cse"}, {"units", "nT"}, {"display_type", ""}, {"xml:id", "ice_b_cse"}});
parameter1->appendChild(std::move(component1));
parameter1->appendChild(std::move(component2));
parameter1->appendChild(std::move(component3));
auto parameter2 = std::make_unique<DataSourceItem>(
DataSourceItemType::PRODUCT,
QHash<QString, QVariant>{
{"name", "|B|"}, {"units", "nT"}, {"display_type", ""}, {"xml:id", "ice_b_tot"}});
auto dataset = std::make_unique<DataSourceItem>(
DataSourceItemType::NODE, QHash<QString, QVariant>{{"att", ""},
{"restricted", ""},
{"name", "Magnetic Field"},
{"xml:id", "ice:mag:p21"},
{"sampling", "0.3s"},
{"maxSampling", ""},
{"dataStart", "1985/09/10"},
{"dataStop", "1985/09/14"},
{"dataSource", "PDS"},
{"target", ""}});
dataset->appendChild(std::move(parameter1));
dataset->appendChild(std::move(parameter2));
auto instrument = std::make_unique<DataSourceItem>(
DataSourceItemType::NODE, QHash<QString, QVariant>{{"att", ""},
{"name", "MAG"},
{"xml:id", "ICE@Giacobini-Zinner:MAG"},
{"desc", "Vector Helium Magnetometer"},
{"restricted", ""}});
instrument->appendChild(std::move(dataset));
auto mission = std::make_unique<DataSourceItem>(
DataSourceItemType::NODE,
QHash<QString, QVariant>{{"att", ""},
{"name", "ICE@Giacobini-Zinner"},
{"rank", "93"},
{"xml:id", "ICE@Giacobini-Zinner"},
{"desc", "International Cometary Explorer"},
{"target", "Comet"},
{"available", "1"}});
mission->appendChild(std::move(instrument));
auto item = std::make_shared<DataSourceItem>(DataSourceItemType::NODE,
QHash<QString, QVariant>{
{"name", "AMDA"},
{"desc", "AMDA_Internal_Data_Base"},
{"xml:id", "myLocalData-treeRootNode"},
});
item->appendChild(std::move(mission));
return ExpectedResults{item};
}
ExpectedResults invalidResults()
{
return ExpectedResults{};
}
} // namespace
Q_DECLARE_METATYPE(ExpectedResults)
class TestAmdaParser : public QObject {
Q_OBJECT
private slots:
/// Input test data
/// @sa testReadJson()
void testReadJson_data();
/// Tests parsing of a JSON file
void testReadJson();
};
void TestAmdaParser::testReadJson_data()
{
// ////////////// //
// Test structure //
// ////////////// //
// Name of JSON file to read
QTest::addColumn<QString>("inputFileName");
// Expected results
QTest::addColumn<ExpectedResults>("expectedResults");
// ////////// //
// Test cases //
// ////////// //
// Valid file
QTest::newRow("Valid file") << QStringLiteral("ValidFile1.json") << validResults1();
// Invalid files
QTest::newRow("Invalid file (unexisting file)") << QStringLiteral("UnexistingFile.json")
<< invalidResults();
QTest::newRow("Invalid file (two root objects)") << QStringLiteral("TwoRootsFile.json")
<< invalidResults();
QTest::newRow("Invalid file (wrong root key)") << QStringLiteral("WrongRootKey.json")
<< invalidResults();
QTest::newRow("Invalid file (wrong root type)") << QStringLiteral("WrongRootType.json")
<< invalidResults();
}
void TestAmdaParser::testReadJson()
{
QFETCH(QString, inputFileName);
QFETCH(ExpectedResults, expectedResults);
// Parses file
auto filePath = inputFilePath(inputFileName);
auto item = AmdaParser::readJson(filePath);
// Validates results
if (expectedResults.m_ParsingOK) {
QVERIFY(item != nullptr);
QVERIFY(expectedResults.m_Item != nullptr);
QVERIFY(*item == *expectedResults.m_Item);
}
else {
QVERIFY(item == nullptr);
}
}
QTEST_MAIN(TestAmdaParser)
#include "TestAmdaParser.moc"