17 CANTERA_CAPI
int ct_appdelete();
19 CANTERA_CAPI
int soln_newSolution(
const char* infile,
21 const char* transport);
22 CANTERA_CAPI
int soln_newInterface(
const char* infile,
27 CANTERA_CAPI
int soln_name(
int n,
int buflen,
char* buf);
28 CANTERA_CAPI
int soln_thermo(
int n);
29 CANTERA_CAPI
int soln_kinetics(
int n);
30 CANTERA_CAPI
int soln_transport(
int n);
33 CANTERA_CAPI
size_t soln_nAdjacent(
int n);
34 CANTERA_CAPI
int soln_adjacent(
int n,
int a);
36 CANTERA_CAPI
int thermo_newFromFile(
const char* filename,
const char* phasename);
37 CANTERA_CAPI
int thermo_del(
int n);
38 CANTERA_CAPI
size_t thermo_nElements(
int n);
39 CANTERA_CAPI
size_t thermo_nSpecies(
int n);
40 CANTERA_CAPI
double thermo_temperature(
int n);
41 CANTERA_CAPI
int thermo_setTemperature(
int n,
double t);
42 CANTERA_CAPI
double thermo_density(
int n);
43 CANTERA_CAPI
int thermo_setDensity(
int n,
double rho);
44 CANTERA_CAPI
double thermo_molarDensity(
int n);
45 CANTERA_CAPI
double thermo_meanMolecularWeight(
int n);
46 CANTERA_CAPI
double thermo_moleFraction(
int n,
size_t k);
47 CANTERA_CAPI
double thermo_massFraction(
int n,
size_t k);
48 CANTERA_CAPI
int thermo_getMoleFractions(
int n,
size_t lenx,
double* x);
49 CANTERA_CAPI
int thermo_getMassFractions(
int n,
size_t leny,
double* y);
50 CANTERA_CAPI
int thermo_setMoleFractions(
int n,
size_t lenx,
52 CANTERA_CAPI
int thermo_setMassFractions(
int n,
size_t leny,
54 CANTERA_CAPI
int thermo_setMoleFractionsByName(
int n,
const char* x);
55 CANTERA_CAPI
int thermo_setMassFractionsByName(
int n,
const char* y);
56 CANTERA_CAPI
int thermo_getAtomicWeights(
int n,
size_t lenm,
double* atw);
57 CANTERA_CAPI
int thermo_getMolecularWeights(
int n,
size_t lenm,
double* mw);
58 CANTERA_CAPI
int thermo_getCharges(
int n,
size_t lenm,
double* sc);
59 CANTERA_CAPI
int thermo_getElementName(
int n,
size_t k,
size_t lennm,
char* nm);
60 CANTERA_CAPI
int thermo_getSpeciesName(
int n,
size_t m,
size_t lennm,
char* nm);
61 CANTERA_CAPI
int thermo_getName(
int n,
size_t lennm,
char* nm);
62 CANTERA_CAPI
int thermo_setName(
int n,
const char* nm);
63 CANTERA_CAPI
size_t thermo_elementIndex(
int n,
const char* nm);
64 CANTERA_CAPI
size_t thermo_speciesIndex(
int n,
const char* nm);
65 CANTERA_CAPI
int thermo_report(
int nth,
66 int ibuf,
char* buf,
int show_thermo);
67 CANTERA_CAPI
int thermo_print(
int nth,
int show_thermo,
double threshold);
68 CANTERA_CAPI
double thermo_nAtoms(
int n,
size_t k,
size_t m);
69 CANTERA_CAPI
int thermo_addElement(
int n,
const char* name,
double weight);
70 CANTERA_CAPI
int thermo_getEosType(
int n,
size_t leneos,
char* eos);
71 CANTERA_CAPI
double thermo_refPressure(
int n);
72 CANTERA_CAPI
double thermo_minTemp(
int n,
int k);
73 CANTERA_CAPI
double thermo_maxTemp(
int n,
int k);
74 CANTERA_CAPI
double thermo_enthalpy_mole(
int n);
75 CANTERA_CAPI
double thermo_intEnergy_mole(
int n);
76 CANTERA_CAPI
double thermo_entropy_mole(
int n);
77 CANTERA_CAPI
double thermo_gibbs_mole(
int n);
78 CANTERA_CAPI
double thermo_cp_mole(
int n);
79 CANTERA_CAPI
double thermo_cv_mole(
int n);
80 CANTERA_CAPI
double thermo_pressure(
int n);
81 CANTERA_CAPI
int thermo_setPressure(
int n,
double p);
82 CANTERA_CAPI
double thermo_enthalpy_mass(
int n);
83 CANTERA_CAPI
double thermo_intEnergy_mass(
int n);
84 CANTERA_CAPI
double thermo_entropy_mass(
int n);
85 CANTERA_CAPI
double thermo_gibbs_mass(
int n);
86 CANTERA_CAPI
double thermo_cp_mass(
int n);
87 CANTERA_CAPI
double thermo_cv_mass(
int n);
88 CANTERA_CAPI
double thermo_electricPotential(
int n);
89 CANTERA_CAPI
double thermo_thermalExpansionCoeff(
int n);
90 CANTERA_CAPI
double thermo_isothermalCompressibility(
int n);
91 CANTERA_CAPI
int thermo_chemPotentials(
int n,
size_t lenm,
double* murt);
92 CANTERA_CAPI
int thermo_getEnthalpies_RT(
int n,
size_t lenm,
double* h_rt);
93 CANTERA_CAPI
int thermo_getEntropies_R(
int n,
size_t lenm,
double* s_r);
94 CANTERA_CAPI
int thermo_getCp_R(
int n,
size_t lenm,
double* cp_r);
95 CANTERA_CAPI
int thermo_setElectricPotential(
int n,
double v);
96 CANTERA_CAPI
int thermo_set_TP(
int n,
double* vals);
97 CANTERA_CAPI
int thermo_set_TD(
int n,
double* vals);
98 CANTERA_CAPI
int thermo_set_DP(
int n,
double* vals);
99 CANTERA_CAPI
int thermo_set_HP(
int n,
double* vals);
100 CANTERA_CAPI
int thermo_set_UV(
int n,
double* vals);
101 CANTERA_CAPI
int thermo_set_SV(
int n,
double* vals);
102 CANTERA_CAPI
int thermo_set_SP(
int n,
double* vals);
103 CANTERA_CAPI
int thermo_set_ST(
int n,
double* vals);
104 CANTERA_CAPI
int thermo_set_TV(
int n,
double* vals);
105 CANTERA_CAPI
int thermo_set_PV(
int n,
double* vals);
106 CANTERA_CAPI
int thermo_set_UP(
int n,
double* vals);
107 CANTERA_CAPI
int thermo_set_VH(
int n,
double* vals);
108 CANTERA_CAPI
int thermo_set_TH(
int n,
double* vals);
109 CANTERA_CAPI
int thermo_set_SH(
int n,
double* vals);
110 CANTERA_CAPI
int thermo_equilibrate(
int n,
const char* XY,
int solver,
111 double rtol,
int maxsteps,
int maxiter,
114 CANTERA_CAPI
double thermo_critTemperature(
int n);
115 CANTERA_CAPI
double thermo_critPressure(
int n);
116 CANTERA_CAPI
double thermo_critDensity(
int n);
117 CANTERA_CAPI
double thermo_vaporFraction(
int n);
118 CANTERA_CAPI
double thermo_satTemperature(
int n,
double p);
119 CANTERA_CAPI
double thermo_satPressure(
int n,
double t);
120 CANTERA_CAPI
int thermo_setState_Psat(
int n,
double p,
double x);
121 CANTERA_CAPI
int thermo_setState_Tsat(
int n,
double t,
double x);
125 int reactingPhase,
int neighbor1,
int neighbor2,
126 int neighbor3,
int neighbor4);
127 CANTERA_CAPI
int kin_del(
int n);
128 CANTERA_CAPI
size_t kin_nSpecies(
int n);
129 CANTERA_CAPI
size_t kin_nReactions(
int n);
130 CANTERA_CAPI
size_t kin_nPhases(
int n);
131 CANTERA_CAPI
size_t kin_phaseIndex(
int n,
const char* ph);
132 CANTERA_CAPI
size_t kin_reactionPhaseIndex(
int n);
133 CANTERA_CAPI
double kin_reactantStoichCoeff(
int n,
int i,
int k);
134 CANTERA_CAPI
double kin_productStoichCoeff(
int n,
int i,
int k);
135 CANTERA_CAPI
int kin_getReactionType(
int n,
int i,
size_t len,
char* name);
136 CANTERA_CAPI
int kin_getFwdRatesOfProgress(
int n,
size_t len,
double* fwdROP);
137 CANTERA_CAPI
int kin_getRevRatesOfProgress(
int n,
size_t len,
double* revROP);
138 CANTERA_CAPI
int kin_getNetRatesOfProgress(
int n,
size_t len,
double* netROP);
139 CANTERA_CAPI
int kin_getEquilibriumConstants(
int n,
size_t len,
double* kc);
141 CANTERA_CAPI
int kin_getFwdRateConstants(
int n,
size_t len,
double* kfwd);
142 CANTERA_CAPI
int kin_getRevRateConstants(
int n,
int doIrreversible,
size_t len,
double* krev);
143 CANTERA_CAPI
int kin_getDelta(
int n,
int job,
size_t len,
double* delta);
144 CANTERA_CAPI
int kin_getCreationRates(
int n,
size_t len,
double* cdot);
145 CANTERA_CAPI
int kin_getDestructionRates(
int n,
size_t len,
double* ddot);
146 CANTERA_CAPI
int kin_getNetProductionRates(
int n,
size_t len,
double* wdot);
147 CANTERA_CAPI
int kin_getSourceTerms(
int n,
size_t len,
double* ydot);
148 CANTERA_CAPI
double kin_multiplier(
int n,
int i);
149 CANTERA_CAPI
int kin_getReactionString(
int n,
int i,
int len,
char* buf);
150 CANTERA_CAPI
int kin_setMultiplier(
int n,
int i,
double v);
152 CANTERA_CAPI
int kin_isReversible(
int n,
int i);
153 CANTERA_CAPI
int kin_getType(
int n,
size_t len,
char* name);
154 CANTERA_CAPI
size_t kin_start(
int n,
int p);
155 CANTERA_CAPI
size_t kin_speciesIndex(
int n,
const char* nm,
const char* ph);
156 CANTERA_CAPI
int kin_advanceCoverages(
int n,
double tstep);
157 CANTERA_CAPI
size_t kin_phase(
int n,
size_t i);
159 CANTERA_CAPI
int trans_newDefault(
int th,
int loglevel);
160 CANTERA_CAPI
int trans_new(
const char* model,
int th,
int loglevel);
161 CANTERA_CAPI
int trans_del(
int n);
162 CANTERA_CAPI
int trans_transportModel(
int n,
int lennm,
char* nm);
163 CANTERA_CAPI
double trans_viscosity(
int n);
164 CANTERA_CAPI
double trans_electricalConductivity(
int n);
165 CANTERA_CAPI
double trans_thermalConductivity(
int n);
166 CANTERA_CAPI
int trans_getThermalDiffCoeffs(
int n,
int ldt,
double* dt);
167 CANTERA_CAPI
int trans_getMixDiffCoeffs(
int n,
int ld,
double* d);
168 CANTERA_CAPI
int trans_getBinDiffCoeffs(
int n,
int ld,
double* d);
169 CANTERA_CAPI
int trans_getMultiDiffCoeffs(
int n,
int ld,
double* d);
170 CANTERA_CAPI
int trans_getMolarFluxes(
int n,
const double* state1,
171 const double* state2,
double delta,
double* fluxes);
172 CANTERA_CAPI
int trans_getMassFluxes(
int n,
const double* state1,
173 const double* state2,
double delta,
double* fluxes);
175 CANTERA_CAPI
int ct_getCanteraError(
int buflen,
char* buf);
176 CANTERA_CAPI
int ct_setLogWriter(
void* logger);
177 CANTERA_CAPI
int ct_setLogCallback(
LogCallback writer);
178 CANTERA_CAPI
int ct_addCanteraDirectory(
size_t buflen,
const char* buf);
179 CANTERA_CAPI
int ct_getDataDirectories(
int buflen,
char* buf,
const char* sep);
180 CANTERA_CAPI
int ct_getCanteraVersion(
int buflen,
char* buf);
181 CANTERA_CAPI
int ct_getGitCommit(
int buflen,
char* buf);
182 CANTERA_CAPI
int ct_suppress_thermo_warnings(
int suppress);
183 CANTERA_CAPI
int ct_use_legacy_rate_constants(
int legacy);
184 CANTERA_CAPI
int ct_clearStorage();
185 CANTERA_CAPI
int ct_resetStorage();
void(* LogCallback)(enum LogLevel logLevel, const char *category, const char *message)
Represents a callback that is invoked to produce log output.
CANTERA_CAPI int soln_del(int n)
note that linked objects are deleted as well
CANTERA_CAPI int kin_newFromFile(const char *filename, const char *phasename, int reactingPhase, int neighbor1, int neighbor2, int neighbor3, int neighbor4)
CANTERA_CAPI int soln_setTransportModel(int n, const char *model)
note that soln_setTransportModel deletes the previous transport model