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Mariano Lizarraga
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#include "UASUnitTest.h"
UASUnitTest::UASUnitTest()
{
}
void UASUnitTest::initTestCase()
{
mav= new MAVLinkProtocol();
uas=new UAS(mav,UASID);
}
void UASUnitTest::cleanupTestCase()
{
delete uas;
delete mav;
}
void UASUnitTest::getUASID_test()
{
// Test a default ID of zero is assigned
UAS* uas2 = new UAS(mav);
QCOMPARE(uas2->getUASID(), 0);
delete uas2;
// Test that the chosen ID was assigned at construction
QCOMPARE(uas->getUASID(), UASID);
// Make sure that no other ID was sert
QEXPECT_FAIL("", "When you set an ID it does not use the default ID of 0", Continue);
QCOMPARE(uas->getUASID(), 0);
}
void UASUnitTest::getUASName_test()
{
// Test that the name is build as MAV + ID
QCOMPARE(uas->getUASName(), "MAV 0" + QString::number(UASID));
}
void UASUnitTest::getUpTime_test()
{
UAS* uas2 = new UAS(mav);
// Test that the uptime starts at zero to a
// precision of seconds
QCOMPARE(floor(uas2->getUptime()/1000.0), 0.0);
// Sleep for three seconds
QTest::qSleep(3000);
// Test that the up time is computed correctly to a
// precision of seconds
QCOMPARE(floor(uas2->getUptime()/1000.0), 3.0);
delete uas2;
}
void UASUnitTest::getCommunicationStatus_test()
{
// Verify that upon construction the Comm status is disconnected
QCOMPARE(uas->getCommunicationStatus(), static_cast<int>(UASInterface::COMM_DISCONNECTED));
}
void UASUnitTest::filterVoltage_test()
{
float verificar=uas->filterVoltage(0.4f);
// Verify that upon construction the Comm status is disconnected
QCOMPARE(verificar, 8.52f);
}
void UASUnitTest:: getAutopilotType_test()
{
int verificar=uas->getAutopilotType();
// Verify that upon construction the autopilot is set to -1
QCOMPARE(verificar, -1);
}
void UASUnitTest::setAutopilotType_test()
{
uas->setAutopilotType(2);
// Verify that the autopilot is set
QCOMPARE(uas->getAutopilotType(), 2);
}
void UASUnitTest::getStatusForCode_test()
{
QString state, desc;
state = "";
desc = "";
uas->getStatusForCode(MAV_STATE_UNINIT, state, desc);
QVERIFY(state == "UNINIT");
uas->getStatusForCode(MAV_STATE_UNINIT, state, desc);
QVERIFY(state == "UNINIT");
uas->getStatusForCode(MAV_STATE_BOOT, state, desc);
QVERIFY(state == "BOOT");
uas->getStatusForCode(MAV_STATE_CALIBRATING, state, desc);
QVERIFY(state == "CALIBRATING");
uas->getStatusForCode(MAV_STATE_ACTIVE, state, desc);
QVERIFY(state == "ACTIVE");
uas->getStatusForCode(MAV_STATE_STANDBY, state, desc);
QVERIFY(state == "STANDBY");
uas->getStatusForCode(MAV_STATE_CRITICAL, state, desc);
QVERIFY(state == "CRITICAL");
uas->getStatusForCode(MAV_STATE_EMERGENCY, state, desc);
QVERIFY(state == "EMERGENCY");
uas->getStatusForCode(MAV_STATE_POWEROFF, state, desc);
QVERIFY(state == "SHUTDOWN");
uas->getStatusForCode(5325, state, desc);
QVERIFY(state == "UNKNOWN");
}
void UASUnitTest::getLocalX_test()
{
QCOMPARE(uas->getLocalX(), 0.0);
}
void UASUnitTest::getLocalY_test()
{
QCOMPARE(uas->getLocalY(), 0.0);
}
void UASUnitTest::getLocalZ_test()
{
QCOMPARE(uas->getLocalZ(), 0.0);
}
void UASUnitTest::getLatitude_test()
{ QCOMPARE(uas->getLatitude(), 0.0);
}
void UASUnitTest::getLongitude_test()
{
QCOMPARE(uas->getLongitude(), 0.0);
}
void UASUnitTest::getAltitude_test()
{
QCOMPARE(uas->getAltitude(), 0.0);
}
void UASUnitTest::getRoll_test()
{
QCOMPARE(uas->getRoll(), 0.0);
}
void UASUnitTest::getPitch_test()
{
QCOMPARE(uas->getPitch(), 0.0);
}
void UASUnitTest::getYaw_test()
{
QCOMPARE(uas->getYaw(), 0.0);
}