cantera/src/clib/ctmultiphase.cpp
Ray Speth f2a1aa219b Some cleanup of clib
Removing unnecessary explicit char* to string conversions
2012-08-02 15:48:16 +00:00

409 lines
9.8 KiB
C++

/**
* @file ctmultiphase.cpp
*/
#define CANTERA_USE_INTERNAL
#include "ctmultiphase.h"
// Cantera includes
#include "cantera/equil/equil.h"
#include "cantera/equil/MultiPhase.h"
#include "cantera/equil/MultiPhaseEquil.h"
#include "cantera/equil/vcs_MultiPhaseEquil.h"
#include "Cabinet.h"
using namespace std;
using namespace Cantera;
typedef Cabinet<MultiPhase> mixCabinet;
template<> mixCabinet* mixCabinet::__storage = 0;
extern "C" {
int mix_new()
{
try {
MultiPhase* m = new MultiPhase;
return mixCabinet::add(m);
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_del(int i)
{
try {
mixCabinet::del(i);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_copy(int i)
{
try {
return mixCabinet::newCopy(i);
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_assign(int i, int j)
{
try {
return mixCabinet::assign(i,j);
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_addPhase(int i, int j, double moles)
{
try {
mixCabinet::item(i).addPhase(&Cabinet<ThermoPhase>::item(j), moles);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_init(int i)
{
try {
mixCabinet::item(i).init();
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
size_t mix_nElements(int i)
{
try {
return mixCabinet::item(i).nElements();
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
size_t mix_elementIndex(int i, char* name)
{
try {
return mixCabinet::item(i).elementIndex(name);
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
size_t mix_nSpecies(int i)
{
try {
return mixCabinet::item(i).nSpecies();
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
size_t mix_speciesIndex(int i, int k, int p)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkPhaseIndex(p);
mix.checkSpeciesIndex(k);
return mix.speciesIndex(k, p);
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
doublereal mix_nAtoms(int i, int k, int m)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesIndex(k);
mix.checkElementIndex(m);
return mixCabinet::item(i).nAtoms(k,m);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
size_t mix_nPhases(int i)
{
try {
return mixCabinet::item(i).nPhases();
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
doublereal mix_phaseMoles(int i, int n)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkPhaseIndex(n);
return mix.phaseMoles(n);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
int mix_setPhaseMoles(int i, int n, double v)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkPhaseIndex(n);
if (v < 0.0) {
return -1;
}
mix.setPhaseMoles(n, v);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_setMoles(int i, size_t nlen, double* n)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesArraySize(nlen);
mix.setMoles(n);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_setMolesByName(int i, char* n)
{
try {
mixCabinet::item(i).setMolesByName(n);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_setTemperature(int i, double t)
{
try {
if (t < 0.0) {
return -1;
}
mixCabinet::item(i).setTemperature(t);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
doublereal mix_temperature(int i)
{
try {
return mixCabinet::item(i).temperature();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_minTemp(int i)
{
try {
return mixCabinet::item(i).minTemp();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_maxTemp(int i)
{
try {
return mixCabinet::item(i).maxTemp();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_charge(int i)
{
try {
return mixCabinet::item(i).charge();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_phaseCharge(int i, int p)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkPhaseIndex(p);
return mix.phaseCharge(p);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
int mix_setPressure(int i, double p)
{
try {
if (p < 0.0) {
return -1;
}
mixCabinet::item(i).setPressure(p);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
doublereal mix_pressure(int i)
{
try {
return mixCabinet::item(i).pressure();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_speciesMoles(int i, int k)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesIndex(k);
return mix.speciesMoles(k);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_elementMoles(int i, int m)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkElementIndex(m);
return mix.elementMoles(m);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_equilibrate(int i, char* XY, doublereal rtol, int maxsteps,
int maxiter, int loglevel)
{
try {
return equilibrate(mixCabinet::item(i), XY,
rtol, maxsteps, maxiter, loglevel);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
doublereal mix_vcs_equilibrate(int i, char* XY, int estimateEquil,
int printLvl, int solver, doublereal rtol,
int maxsteps, int maxiter, int loglevel)
{
try {
int retn = vcs_equilibrate(mixCabinet::item(i), XY, estimateEquil, printLvl, solver,
rtol, maxsteps, maxiter, loglevel);
return (double) retn;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_getChemPotentials(int i, size_t lenmu, double* mu)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesArraySize(lenmu);
mix.getChemPotentials(mu);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
int mix_getValidChemPotentials(int i, double bad_mu,
int standard, size_t lenmu, double* mu)
{
try {
bool st = (standard == 1);
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesArraySize(lenmu);
mixCabinet::item(i).getValidChemPotentials(bad_mu, mu, st);
return 0;
} catch (...) {
return handleAllExceptions(-1, ERR);
}
}
double mix_enthalpy(int i)
{
try {
return mixCabinet::item(i).enthalpy();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
double mix_entropy(int i)
{
try {
return mixCabinet::item(i).entropy();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
double mix_gibbs(int i)
{
try {
return mixCabinet::item(i).gibbs();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
double mix_cp(int i)
{
try {
return mixCabinet::item(i).cp();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
double mix_volume(int i)
{
try {
return mixCabinet::item(i).volume();
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
size_t mix_speciesPhaseIndex(int i, int k)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesIndex(k);
return mix.speciesPhaseIndex(k);
} catch (...) {
return handleAllExceptions(npos, npos);
}
}
double mix_moleFraction(int i, int k)
{
try {
MultiPhase& mix = mixCabinet::item(i);
mix.checkSpeciesIndex(k);
return mix.moleFraction(k);
} catch (...) {
return handleAllExceptions(DERR, DERR);
}
}
}