TEST_F(ModelFixture,MasslessOpaqueMaterial_VisibleAbsorptance_Quantity) {
Model model;
// TODO: Check constructor.
MasslessOpaqueMaterial masslessOpaqueMaterial(model);
Unit units = masslessOpaqueMaterial.getVisibleAbsorptance(true).units(); // Get IP units.
// Bounds: 0.0 <= value <= 1.0
double value(1.0);
Quantity testQ(value,units);
EXPECT_TRUE(masslessOpaqueMaterial.setVisibleAbsorptance(testQ));
Quantity q = masslessOpaqueMaterial.getVisibleAbsorptance(true);
EXPECT_NEAR(value,q.value(),1.0E-8);
EXPECT_EQ(units.standardString(),q.units().standardString());
}
OSQuantityVector::OSQuantityVector(const std::vector<Quantity>& values)
: m_units(), m_values(values.size(),0.0)
{
if (!values.empty()) {
m_units = values[0].units();
}
const Scale& myScale = scale();
for (unsigned i = 0, n = size(); i < n; ++i) {
if (!(values[i].units() == m_units)) {
LOG_AND_THROW("Quantity " << values[i] << " has units inconsistent with the first "
<< "Quantity in vector values, " << values[0] << ".");
}
if (values[i].scale() != myScale) {
Quantity working = values[i];
working.setScale(myScale.exponent);
m_values[i] = working.value();
}
else {
m_values[i] = values[i].value();
}
}
}
QVariant toVariant(const OSArgument& argument) {
QVariantMap argumentData;
argumentData["uuid"] = toQString(removeBraces(argument.uuid()));
argumentData["version_uuid"] = toQString(removeBraces(argument.versionUUID()));
argumentData["name"] = toQString(argument.name());
if (!argument.displayName().empty()) {
argumentData["display_name"] = toQString(argument.displayName());
}
if (argument.description() && !argument.description()->empty()) {
argumentData["description"] = toQString(argument.description().get());
}
OSArgumentType type = argument.type();
if (argument.units() && !argument.units()->empty()) {
argumentData["units"] = toQString(argument.units().get());
}
argumentData["type"] = toQString(type.valueName());
argumentData["required"] = argument.required();
argumentData["model_dependent"] = argument.modelDependent();
if (argument.hasValue()) {
if (type == OSArgumentType::Quantity) {
Quantity value = argument.valueAsQuantity();
argumentData["value"] = value.value();
argumentData["value_units"] = toQString(value.units().standardString());
}
else {
// use QVariant directly
argumentData["value"] = argument.valueAsQVariant();
}
}
if (argument.hasDefaultValue()) {
if (type == OSArgumentType::Quantity) {
Quantity defaultValue = argument.defaultValueAsQuantity();
argumentData["default_value"] = defaultValue.value();
argumentData["default_value_units"] = toQString(defaultValue.units().standardString());
}
else {
// use QVariant directly
argumentData["default_value"] = argument.defaultValueAsQVariant();
}
}
argumentData["domain_type"] = toQString(argument.domainType().valueName());
if (argument.hasDomain()) {
QVariantList domainList;
int index(0);
for (const QVariant& dval : argument.domainAsQVariant()) {
QVariantMap domainValueMap;
domainValueMap["domain_value_index"] = index;
if (type == OSArgumentType::Quantity) {
Quantity q = dval.value<openstudio::Quantity>();
domainValueMap["value"] = q.value();
domainValueMap["units"] = toQString(q.units().standardString());
}
else {
domainValueMap["value"] = dval;
}
domainList.push_back(domainValueMap);
++index;
}
argumentData["domain"] = domainList;
}
if (type == OSArgumentType::Choice) {
QVariantList choicesList;
StringVector displayNames = argument.choiceValueDisplayNames();
int index(0), displayNamesN(displayNames.size());
for (const std::string& choice : argument.choiceValues()) {
QVariantMap choiceMap;
choiceMap["choice_index"] = index;
choiceMap["value"] = toQString(choice);
if (index < displayNamesN) {
choiceMap["display_name"] = toQString(displayNames[index]);
}
choicesList.push_back(choiceMap);
++index;
}
argumentData["choices"] = QVariant(choicesList);
}
if (type == OSArgumentType::Path) {
argumentData["is_read"] = argument.isRead();
argumentData["extension"] = toQString(argument.extension());
}
return QVariant(argumentData);
}
TEST_F(UnitsFixture,Quantity_ArithmeticOperators)
{
LOG(Debug,"Quantity_ArithmeticOperators");
Quantity q1;
Quantity q2(1.0);
Unit u3;
u3.setBaseUnitExponent("ft",1);
Quantity q3(34.2,u3);
// addition
Quantity q4 = q1 + q2;
q4 += q4;
testNumbersEqual(2.0,q4.value());
testStreamOutput("2",q4);
ASSERT_THROW(q3 + q1,Exception);
// subtraction;
ASSERT_THROW(q3 - q1,Exception);
Quantity len(3.5,u3);
len -= q3;
testNumbersEqual(-30.7,len.value());
testStreamOutput("-30.7 ft",len,1);
// multiplication
q3 *= q4;
testNumbersEqual(68.4,q3.value());
testStreamOutput("68.4 ft",q3,1);
Unit u5;
u5.setBaseUnitExponent("s",-2);
u5.setBaseUnitExponent("ft",1);
Quantity q5(0.5,u5);
Quantity q6 = q5 * q3;
testNumbersEqual(34.2,q6.value());
testStreamOutput("34.2 ft^2/s^2",q6,1);
// division
len = Quantity(1.1,u3);
Quantity a = q6/len;
testNumbersEqual(31.0909090909,a.value());
EXPECT_EQ("ft/s^2",a.standardUnitsString());
// pow
a.pow(6);
EXPECT_EQ("ft^6/s^12",a.standardUnitsString());
Quantity b = openstudio::pow(a,1,3);
EXPECT_EQ("ft^2/s^4",b.standardUnitsString());
testNumbersEqual(966.644628099,b.value());
a = b;
// multiplication and division with double
a *= 1.21;
testNumbersEqual(1169.64,a.value());
b = a/2;
testNumbersEqual(584.82,b.value());
EXPECT_EQ("ft^2/s^4",b.standardUnitsString());
EXPECT_EQ("",b.prettyUnitsString());
Quantity c = 32.0/b;
EXPECT_EQ("s^4/ft^2",c.standardUnitsString());
testNumbersEqual(0.054717690913,c.value());
// Operations on Quantities with units of temperature
LOG(Debug,"Quantity_FahrenheitUnit_Arithmetic");
FahrenheitUnit fu1(1, 0, "");
Quantity T1(60.0,fu1);
FahrenheitUnit fu2(1);
Quantity T2(74.0,fu2);
Quantity TT1 = pow(T1,2);
Quantity TT2 = pow(T2,2);
EXPECT_TRUE(TT1.isAbsolute());
EXPECT_TRUE(TT2.isAbsolute());
Quantity q;
// -, unary
q = -T1;
testStreamOutput("-60 F",q);
q.setAsRelative();
q = -q;
testStreamOutput("60 F",q);
EXPECT_FALSE(q.isAbsolute());
// +, good units, bad units, absolute + relative = absolute
q = T1 + T2;
EXPECT_TRUE(q.isAbsolute());
testStreamOutput("134 F",q,0);
EXPECT_THROW(T1 + TT1,Exception);
q.setAsRelative();
q += T1;
EXPECT_TRUE(q.isAbsolute());
// -, binary, good units, bad units, absolute -> relative when exp == 1, ow same as +
q = T2 - T1;
testStreamOutput("14 F",q,0);
EXPECT_FALSE(q.isAbsolute());
EXPECT_THROW(q - TT2,Exception);
q -= T1;
EXPECT_TRUE(q.isAbsolute());
testStreamOutput("-46 F",q,0);
q = TT2 - TT1;
EXPECT_TRUE(q.isAbsolute());
// *, absolute*relative = absolute
Quantity deltaT = T2 - T1;
q = deltaT * TT1;
EXPECT_TRUE(q.isAbsolute());
testNumbersEqual(14.0*3600.0,q.value());
q = TT1 * deltaT;
EXPECT_TRUE(q.isAbsolute());
testNumbersEqual(14.0*3600.0,q.value());
EXPECT_EQ("F^3",q.standardUnitsString());
// /, absolute/relative = absolute and vice-versa
q = TT1/deltaT;
EXPECT_TRUE(q.isAbsolute());
q = deltaT/TT2;
EXPECT_TRUE(q.isAbsolute());
testNumbersEqual(14.0/TT2.value(),q.value());
EXPECT_EQ("1/F",q.standardUnitsString());
// * w/ double, retains absolute v. relative of quantity
q = T1 * 3.0;
EXPECT_TRUE(q.isAbsolute());
testStreamOutput("180 F",q,0);
q = 2.0 * deltaT;
EXPECT_FALSE(q.isAbsolute());
testNumbersEqual(28.0,q.value());
// / w/ double, retains absolute v. relative of quantity
q = 20.0/T1;
EXPECT_TRUE(q.isAbsolute());
testStreamOutput("0.333 1/F",q,3);
q = deltaT/2.0;
EXPECT_FALSE(q.isAbsolute());
testStreamOutput("7 F",q,0);
}
bool OSRunner::validateUserArguments(const std::vector<OSArgument>& script_arguments,
const std::map<std::string, OSArgument>& user_arguments)
{
bool result(true);
std::stringstream ss;
AttributeVector argumentValueAttributes;
for (const OSArgument& script_argument : script_arguments) {
auto it = user_arguments.find(script_argument.name());
if (it == user_arguments.end()) {
// script_argument is not in user_arguments
// this is only okay for purely optional arguments
if (script_argument.required() || script_argument.hasDefaultValue()) {
ss << "Argument " << script_argument.name() << " is required or has a default value, ";
ss << "but is not in user_arguments.";
registerError(ss.str());
ss.str("");
result = false;
}
}
else {
// script_argument is in user_arguments
OSArgument user_argument = it->second;
// check that names still match
if (user_argument.name() != script_argument.name()) {
ss << "User argument name '" << user_argument.name() << "' does not match map key ";
ss << script_argument.name() << ".";
registerWarning(ss.str());
ss.str("");
}
// check that types still match
if (user_argument.type() != script_argument.type()) {
ss << "User argument type " << user_argument.type().valueName() << " does not match ";
ss << "script argument type " << script_argument.type().valueName() << ".";
registerError(ss.str());
ss.str("");
result = false;
}
// check that we have values
if ((script_argument.required()) &&
!(user_argument.hasValue() || user_argument.hasDefaultValue()))
{
ss << "Script argument '" << script_argument.name() << "' is required, ";
ss << "but the user argument does not have a value or default value set.";
registerError(ss.str());
ss.str("");
result = false;
}
// check for default value mismatch
if (script_argument.hasDefaultValue() && !user_argument.hasDefaultValue()) {
ss << "Script argument '" << script_argument.name() << "' has a default value, but the ";
ss << "user-supplied version does not.";
registerWarning(ss.str());
ss.str("");
}
if (!script_argument.hasDefaultValue() && user_argument.hasDefaultValue()) {
ss << "Script argument '" << script_argument.name() << "' does not have a default value, ";
ss << "but the user-supplied version does.";
registerWarning(ss.str());
ss.str("");
}
if (script_argument.hasDefaultValue() && user_argument.hasDefaultValue() &&
(user_argument.type() == script_argument.type()))
{
ss << "The default value of script argument " << std::endl << script_argument << std::endl;
ss << "does not match that of the corresponding user argument " << std::endl << user_argument << ".";
switch (script_argument.type().value()) {
case OSArgumentType::Boolean :
if (user_argument.defaultValueAsBool() != script_argument.defaultValueAsBool()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::Double :
if (user_argument.defaultValueAsDouble() != script_argument.defaultValueAsDouble()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::Quantity :
if (user_argument.defaultValueAsQuantity() != script_argument.defaultValueAsQuantity()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::Integer :
if (user_argument.defaultValueAsInteger() != script_argument.defaultValueAsInteger()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::String :
case OSArgumentType::Choice :
case OSArgumentType::Path :
if (user_argument.defaultValueAsString() != script_argument.defaultValueAsString()) {
registerWarning(ss.str());
}
break;
default :
OS_ASSERT(false);
}
ss.str("");
}
// check for domain mismatch
if (script_argument.hasDomain() && !user_argument.hasDomain()) {
ss << "Script argument '" << script_argument.name() << "' has a specified domain, but the ";
ss << "user-supplied version does not.";
registerWarning(ss.str());
ss.str("");
}
if (!script_argument.hasDomain() && user_argument.hasDomain()) {
ss << "Script argument '" << script_argument.name() << "' does not have a specified domain, ";
ss << "but the user-supplied version does.";
registerWarning(ss.str());
ss.str("");
}
if (script_argument.hasDomain() && user_argument.hasDomain() &&
(user_argument.type() == script_argument.type()))
{
ss << "The domain of script argument " << std::endl << script_argument << std::endl;
ss << "does not match that of the corresponding user argument " << std::endl << user_argument << ".";
switch (script_argument.type().value()) {
case OSArgumentType::Boolean:
// DLM: should bool's even have domains?
if (user_argument.domainAsBool() != script_argument.domainAsBool()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::Double:
if (user_argument.domainAsDouble() != script_argument.domainAsDouble()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::Quantity:
// DLM: deprecated forget about getting this to compile
//if (user_argument.domainAsQuantity() != script_argument.domainAsQuantity()) {
// registerWarning(ss.str());
//}
break;
case OSArgumentType::Integer:
if (user_argument.domainAsInteger() != script_argument.domainAsInteger()) {
registerWarning(ss.str());
}
break;
case OSArgumentType::String:
case OSArgumentType::Choice:
case OSArgumentType::Path:
if (user_argument.domainAsString() != script_argument.domainAsString()) {
registerWarning(ss.str());
}
break;
default:
OS_ASSERT(false);
}
ss.str("");
}
// success, set the values
if (result) {
Quantity q;
switch(user_argument.type().value()) {
case OSArgumentType::Boolean :
if (user_argument.hasValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.valueAsBool()));
} else if (user_argument.hasDefaultValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.defaultValueAsBool()));
}
break;
case OSArgumentType::Double :
if (user_argument.hasValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.valueAsDouble()));
} else if (user_argument.hasDefaultValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.defaultValueAsDouble()));
}
break;
case OSArgumentType::Quantity :
if (user_argument.hasValue()) {
q = user_argument.valueAsQuantity();
} else if (user_argument.hasDefaultValue()) {
q = user_argument.defaultValueAsQuantity();
}
argumentValueAttributes.push_back(Attribute(user_argument.name(),q.value(),q.units().print()));
break;
case OSArgumentType::Integer :
if (user_argument.hasValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.valueAsInteger()));
} else if (user_argument.hasDefaultValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.defaultValueAsInteger()));
}
break;
case OSArgumentType::String :
case OSArgumentType::Choice :
case OSArgumentType::Path :
if (user_argument.hasValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.valueAsString()));
} else if (user_argument.hasDefaultValue()) {
argumentValueAttributes.push_back(Attribute(user_argument.name(),user_argument.defaultValueAsString()));
}
break;
default:
OS_ASSERT(false);
}
}
}
}
if (result) {
for (Attribute& attribute : argumentValueAttributes) {
registerAttribute(attribute);
}
}
return result;
}
Quantity::Quantity(const Quantity &q)
: m_value(q.value()), m_units(q.units())
{}
double FFactorGroundFloorConstruction_Impl::fFactor() const {
Quantity q = getFFactor(false);
return q.value();
}
double FFactorGroundFloorConstruction_Impl::perimeterExposed() const {
Quantity q = getPerimeterExposed(false);
return q.value();
}
