TEST_F(UnitsFixture,QuantityConverter_OSQuantityVector) { // basic conversion OSQuantityVector testVec(createIPEnergy(),2u,100.0); Quantity testQ(100.0,createIPEnergy()); OSQuantityVector resultVec = convert(testVec,UnitSystem(UnitSystem::Wh)); OptionalQuantity resultQ = convert(testQ,UnitSystem(UnitSystem::Wh)); ASSERT_EQ(2u,resultVec.size()); ASSERT_TRUE(resultQ); EXPECT_EQ(resultQ.get(),resultVec.getQuantity(0)); EXPECT_EQ(resultQ.get(),resultVec.getQuantity(1)); EXPECT_EQ(resultQ->system(),resultVec.system()); resultVec = convert(testVec,resultQ->units()); resultQ = convert(testQ,resultQ->units()); ASSERT_EQ(2u,resultVec.size()); ASSERT_TRUE(resultQ); EXPECT_EQ(resultQ.get(),resultVec.getQuantity(0)); EXPECT_EQ(resultQ.get(),resultVec.getQuantity(1)); EXPECT_EQ(resultQ->system(),resultVec.system()); // temperature conversion testVec = OSQuantityVector(createCelsiusTemperature(),2u,20.0); testQ = Quantity(20.0,createCelsiusTemperature()); resultVec = convert(testVec,UnitSystem(UnitSystem::Fahrenheit)); resultQ = convert(testQ,UnitSystem(UnitSystem::Fahrenheit)); ASSERT_EQ(2u,resultVec.size()); ASSERT_TRUE(resultQ); EXPECT_EQ(resultQ.get().units(),resultVec.units()); // not sure why these aren't quite getting the precision we would like EXPECT_NEAR(resultQ.get().value(),resultVec.getQuantity(0).value(),1.0E-12); EXPECT_NEAR(resultQ.get().value(),resultVec.getQuantity(1).value(),1.0E-12); EXPECT_EQ(resultQ->system(),resultVec.system()); EXPECT_TRUE(resultVec.isAbsolute()); EXPECT_TRUE(resultQ->isAbsolute()); testVec.setAsRelative(); testQ.setAsRelative(); resultVec = convert(testVec,UnitSystem(UnitSystem::Fahrenheit)); resultQ = convert(testQ,UnitSystem(UnitSystem::Fahrenheit)); ASSERT_EQ(2u,resultVec.size()); ASSERT_TRUE(resultQ); EXPECT_EQ(resultQ.get().units(),resultVec.units()); // not sure why these aren't quite getting the precision we would like EXPECT_NEAR(resultQ.get().value(),resultVec.getQuantity(0).value(),1.0E-12); EXPECT_NEAR(resultQ.get().value(),resultVec.getQuantity(1).value(),1.0E-12); EXPECT_EQ(resultQ->system(),resultVec.system()); EXPECT_TRUE(resultVec.isRelative()); EXPECT_TRUE(resultQ->isRelative()); }
Quantity dot(OSQuantityVector lVector, const OSQuantityVector& rVector) { Unit lUnits(lVector.units()), rUnits(rVector.units()); OptionalTemperatureUnit ltu = lUnits.optionalCast<TemperatureUnit>(); OptionalTemperatureUnit rtu = rUnits.optionalCast<TemperatureUnit>(); Unit resultUnits; if (ltu && rtu) { resultUnits = ltu.get() * rtu.get(); } else { resultUnits = lUnits * rUnits; } ScaleOpReturnType resultScale = lVector.scale() * rVector.scale(); lVector *= resultScale.second; DoubleVector lValues(lVector.values()), rValues(rVector.values()); double resultValue = dot(createVector(lValues),createVector(rValues)); return Quantity(resultValue,resultUnits); }
OSQuantityVector convert(const OSQuantityVector& original, const Unit& targetUnits) { OSQuantityVector result; Quantity testQuantity(0.0,original.units()); OptionalQuantity offset = convert(testQuantity,targetUnits); if (!offset) { return result; } testQuantity.setValue(1.0); OptionalQuantity factorPlusOffset = convert(testQuantity,targetUnits); OS_ASSERT(factorPlusOffset); OS_ASSERT(offset->units() == factorPlusOffset->units()); result = OSQuantityVector(offset->units(),original.values()); result = result * (factorPlusOffset->value() - offset->value()) + offset.get(); return result; }
TEST_F(ModelFixture,People_Schedule_Quantities) { Model model; PeopleDefinition definition(model); definition.setNumberofPeople(Quantity(100.0,createSIPeople())); People people(definition); ScheduleRuleset activityLevelSchedule(model); EXPECT_TRUE(checkOrAssignScheduleTypeLimits("People","Activity Level",activityLevelSchedule)); ScheduleDay defaultSchedule = activityLevelSchedule.defaultDaySchedule(); defaultSchedule.addValue(Time(0,24,0,0),Quantity(150.0,createSIPower()/createSIPeople())); EXPECT_TRUE(people.setActivityLevelSchedule(activityLevelSchedule)); OSQuantityVector ipValues = defaultSchedule.getValues(true); EXPECT_EQ("W/person",ipValues.units().prettyString()); EXPECT_DOUBLE_EQ(150.0,ipValues.values()[0]); }
OSQuantityVector::OSQuantityVector(const OSQuantityVector& other) : m_units(other.units()), m_values(other.values()) {}
bool operator==(const OSQuantityVector& lVector,const OSQuantityVector& rVector) { return (&lVector == &rVector) || ((lVector.units() == rVector.units()) && (lVector.values() == rVector.values())); }