cantera/test/thermo/phaseConstructors.cpp

193 lines
5.3 KiB
C++

#include "gtest/gtest.h"
#include "cantera/thermo/FixedChemPotSSTP.h"
#include "cantera/thermo/ThermoFactory.h"
#include "cantera/thermo/NasaPoly2.h"
#include "cantera/thermo/IdealGasPhase.h"
#include "cantera/base/ctml.h"
#include "cantera/base/stringUtils.h"
#include <fstream>
#include "thermo_data.h"
namespace Cantera
{
class FixedChemPotSstpConstructorTest : public testing::Test
{
};
TEST_F(FixedChemPotSstpConstructorTest, fromXML)
{
ThermoPhase* p = newPhase("../data/LiFixed.xml");
ASSERT_EQ((int) p->nSpecies(), 1);
double mu;
p->getChemPotentials(&mu);
ASSERT_DOUBLE_EQ(-2.3e7, mu);
delete p;
}
TEST_F(FixedChemPotSstpConstructorTest, SimpleConstructor)
{
FixedChemPotSSTP p("Li", -2.3e7);
ASSERT_EQ((int) p.nSpecies(), 1);
double mu;
p.getChemPotentials(&mu);
ASSERT_DOUBLE_EQ(-2.3e7, mu);
}
#ifndef HAS_NO_PYTHON // skip these tests if the Python converter is unavailable
class CtiConversionTest : public testing::Test
{
public:
CtiConversionTest() : p1(0), p2(0) {
appdelete();
}
~CtiConversionTest() {
delete p1;
delete p2;
}
ThermoPhase* p1;
ThermoPhase* p2;
void compare()
{
ASSERT_EQ(p1->nSpecies(), p2->nSpecies());
for (size_t i = 0; i < p1->nSpecies(); i++) {
ASSERT_EQ(p1->speciesName(i), p2->speciesName(i));
ASSERT_EQ(p1->molecularWeight(i), p2->molecularWeight(i));
}
}
};
TEST_F(CtiConversionTest, ExplicitConversion) {
p1 = newPhase("../data/air-no-reactions.xml");
ct2ctml("../data/air-no-reactions.cti");
p2 = newPhase("air-no-reactions.xml", "");
compare();
}
TEST_F(CtiConversionTest, ImplicitConversion) {
p1 = newPhase("../data/air-no-reactions.xml");
p2 = newPhase("../data/air-no-reactions.cti");
compare();
}
class ChemkinConversionTest : public testing::Test {
public:
void copyInputFile(const std::string& name) {
std::string in_name = "../data/" + name;
std::ifstream source(in_name, std::ios::binary);
std::ofstream dest(name, std::ios::binary);
dest << source.rdbuf();
}
};
TEST_F(ChemkinConversionTest, ValidConversion) {
copyInputFile("pdep-test.inp");
ck2cti("pdep-test.inp");
ThermoPhase* p = newPhase("pdep-test.cti");
ASSERT_GT(p->temperature(), 0.0);
delete p;
}
TEST_F(ChemkinConversionTest, MissingInputFile) {
ASSERT_THROW(ck2cti("nonexistent-file.inp"),
CanteraError);
}
TEST_F(ChemkinConversionTest, FailedConversion) {
copyInputFile("h2o2_missingThermo.inp");
ASSERT_THROW(ck2cti("h2o2_missingThermo.inp"),
CanteraError);
}
#endif
class ConstructFromScratch : public testing::Test
{
public:
ConstructFromScratch()
: sH2O(new Species("H2O", parseCompString("H:2 O:1")))
, sH2(new Species("H2", parseCompString("H:2")))
, sO2(new Species("O2", parseCompString("O:2")))
, sOH(new Species("OH", parseCompString("H:1 O:1")))
, sCO(new Species("CO", parseCompString("C:1 O:1")))
, sCO2(new Species("CO2", parseCompString("C:1 O:2")))
{
sH2O->thermo.reset(new NasaPoly2(200, 3500, 101325, h2o_nasa_coeffs));
sH2->thermo.reset(new NasaPoly2(200, 3500, 101325, h2_nasa_coeffs));
sO2->thermo.reset(new NasaPoly2(200, 3500, 101325, o2_nasa_coeffs));
sOH->thermo.reset(new NasaPoly2(200, 3500, 101325, oh_nasa_coeffs));
sCO->thermo.reset(new NasaPoly2(200, 3500, 101325, o2_nasa_coeffs));
sCO2->thermo.reset(new NasaPoly2(200, 3500, 101325, h2o_nasa_coeffs));
}
IdealGasPhase p;
shared_ptr<Species> sH2O, sH2, sO2, sOH, sCO, sCO2;
};
TEST_F(ConstructFromScratch, AddElements)
{
p.addElement("H");
p.addElement("O");
ASSERT_EQ((size_t) 2, p.nElements());
ASSERT_EQ("H", p.elementName(0));
ASSERT_EQ((size_t) 1, p.elementIndex("O"));
}
TEST_F(ConstructFromScratch, AddSpeciesDefaultBehavior)
{
p.addElement("H");
p.addElement("O");
p.addSpecies(sH2O);
p.addSpecies(sH2);
ASSERT_EQ((size_t) 2, p.nSpecies());
p.addSpecies(sO2);
p.addSpecies(sOH);
ASSERT_EQ((size_t) 4, p.nSpecies());
ASSERT_EQ("H2", p.speciesName(1));
ASSERT_EQ(2, p.nAtoms(2, 1)); // O in O2
ASSERT_EQ(2, p.nAtoms(0, 0)); // H in H2O
ASSERT_THROW(p.addSpecies(sCO), CanteraError);
}
TEST_F(ConstructFromScratch, ignoreUndefinedElements)
{
p.addElement("H");
p.addElement("O");
p.ignoreUndefinedElements();
p.addSpecies(sO2);
p.addSpecies(sOH);
ASSERT_EQ((size_t) 2, p.nSpecies());
p.addSpecies(sCO);
p.addSpecies(sCO2);
ASSERT_EQ((size_t) 2, p.nSpecies());
ASSERT_EQ((size_t) 2, p.nElements());
ASSERT_EQ(npos, p.speciesIndex("CO2"));
}
TEST_F(ConstructFromScratch, addUndefinedElements)
{
p.addElement("H");
p.addElement("O");
p.addUndefinedElements();
p.addSpecies(sH2);
p.addSpecies(sOH);
ASSERT_EQ((size_t) 2, p.nSpecies());
ASSERT_EQ((size_t) 2, p.nElements());
p.addSpecies(sCO);
p.addSpecies(sCO2);
ASSERT_EQ((size_t) 4, p.nSpecies());
ASSERT_EQ((size_t) 3, p.nElements());
ASSERT_EQ((size_t) 1, p.nAtoms(p.speciesIndex("CO2"), p.elementIndex("C")));
ASSERT_EQ((size_t) 2, p.nAtoms(p.speciesIndex("CO2"), p.elementIndex("O")));
p.setMassFractionsByName("H2:0.5, CO2:0.5");
ASSERT_DOUBLE_EQ(0.5, p.massFraction("CO2"));
}
} // namespace Cantera