22 shared_ptr<SpeciesThermoInterpType> stit_ptr)
29 "MultiSpeciesThermo::install_STIT",
30 "Index position isn't null, duplication of assignment: {}", index);
33 m_p0 = stit_ptr->refPressure();
34 }
else if (fabs(
m_p0 - stit_ptr->refPressure()) > 1e-6) {
36 "Cannot add species {} with reference pressure {}.\n"
37 "Inconsistent with previously-added species with reference pressure {}.",
38 index, stit_ptr->refPressure(),
m_p0);
40 int type = stit_ptr->reportType();
42 m_sp[type].emplace_back(index, stit_ptr);
43 if (
m_sp[type].size() == 1) {
44 m_tpoly[type].resize(stit_ptr->temperaturePolySize());
54 shared_ptr<SpeciesThermoInterpType> spthermo)
62 "Species with this index not previously added: {}",
65 int type = spthermo->reportType();
68 "Type of parameterization changed: {} != {}", type,
73 "Cannot increase minimum temperature for phase from {} to {}",
78 "Cannot increase minimum temperature for phase from {} to {}",
86 double* h_RT,
double* s_R)
const
96 auto iter =
m_sp.begin();
98 for (; iter !=
m_sp.end(); iter++, jter++) {
99 const vector<index_STIT>& species = iter->second;
100 double* tpoly = &jter->second[0];
101 species[0].second->updateTemperaturePoly(t, tpoly);
102 for (
auto& [i, spthermo] : species) {
103 spthermo->updateProperties(tpoly, cp_R+i, h_RT+i, s_R+i);
118 double& minTemp_,
double& maxTemp_,
double& refPressure_)
const
161 return m_sp.at(iParam)[jSpecies].second.get();
162 }
catch (std::out_of_range&) {
171 return m_sp.at(iParam)[jSpecies].second.get();
172 }
catch (std::out_of_range&) {
207 for (
size_t k = 0; k < nSpecies; k++) {
Header for a general species thermodynamic property manager for a phase (see MultiSpeciesThermo).
Header for factory functions to build instances of classes that manage the standard-state thermodynam...
Base class for exceptions thrown by Cantera classes.
bool ready(size_t nSpecies)
Check if data for all species (0 through nSpecies-1) has been installed.
STIT_map m_sp
This is the main data structure, which contains the SpeciesThermoInterpType objects,...
SpeciesThermoInterpType * provideSTIT(size_t k)
Provide the SpeciesThermoInterpType object.
virtual void update(double T, double *cp_R, double *h_RT, double *s_R) const
Compute the reference-state properties for all species.
double m_p0
reference pressure (Pa)
virtual void install_STIT(size_t index, shared_ptr< SpeciesThermoInterpType > stit)
Install a new species thermodynamic property parameterization for one species.
void markInstalled(size_t k)
Mark species k as having its thermodynamic data installed.
virtual double refPressure() const
The reference-state pressure (Pa) for all species.
double m_tlow_max
Maximum value of the lowest temperature.
virtual void modifySpecies(size_t index, shared_ptr< SpeciesThermoInterpType > spec)
Modify the species thermodynamic property parameterization for a species.
virtual int reportType(size_t index) const
This utility function reports the type of parameterization used for the species with index number ind...
virtual double minTemp(size_t k=npos) const
Minimum temperature.
tpoly_map m_tpoly
Temperature polynomials for each thermo parameterization.
double m_thigh_min
Minimum value of the highest temperature.
virtual double maxTemp(size_t k=npos) const
Maximum temperature.
virtual void update_single(size_t k, double T, double *cp_R, double *h_RT, double *s_R) const
Get reference-state properties for a single species.
map< size_t, pair< int, size_t > > m_speciesLoc
Map from species index to location within m_sp, such that m_sp[m_speciesLoc[k].first][m_speciesLoc[k]...
vector< bool > m_installed
indicates if data for species has been installed
virtual void modifyOneHf298(const size_t k, const double Hf298New)
Modify the value of the 298 K Heat of Formation of the standard state of one species in the phase (J ...
virtual void reportParams(size_t index, int &type, double *const c, double &minTemp, double &maxTemp, double &refPressure) const
This utility function reports back the type of parameterization and all of the parameters for the spe...
virtual void resetHf298(const size_t k)
Restore the original heat of formation of one or more species.
virtual double reportOneHf298(const size_t k) const
Report the 298 K Heat of Formation of the standard state of one species (J kmol-1)
Abstract Base class for the thermodynamic manager for an individual species' reference state.
virtual void reportParameters(size_t &index, int &type, double &minTemp, double &maxTemp, double &refPressure, double *const coeffs) const
This utility function returns the type of parameterization and all of the parameters for the species.
virtual double minTemp() const
Returns the minimum temperature that the thermo parameterization is valid.
virtual double maxTemp() const
Returns the maximum temperature that the thermo parameterization is valid.
virtual double reportHf298(double *const h298=0) const
Report the 298 K Heat of Formation of the standard state of one species (J kmol-1)
virtual void resetHf298()
Restore the original heat of formation for this species.
virtual void updatePropertiesTemp(const double temp, double *cp_R, double *h_RT, double *s_R) const
Compute the reference-state property of one species.
virtual int reportType() const
Returns an integer representing the type of parameterization.
virtual void modifyOneHf298(const size_t k, const double Hf298New)
Modify the value of the 298 K Heat of Formation of one species in the phase (J kmol-1)
Definitions for the classes that are thrown when Cantera experiences an error condition (also contain...
This file contains definitions for utility functions and text for modules, inputfiles and logging,...
#define AssertThrowMsg(expr, procedure,...)
Assertion must be true or an error is thrown.
Namespace for the Cantera kernel.
const size_t npos
index returned by functions to indicate "no position"
Contains declarations for string manipulation functions within Cantera.
Various templated functions that carry out common vector and polynomial operations (see Templated Arr...
1.9.7