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#include "nlohmann/json.hpp"
inline AllowedModels build_model(const nlohmann::json& json) {
auto build_square_matrix = [](const std::valarray<std::valarray<double>>& m){
// First assume that the matrix is square, resize
Eigen::ArrayXXd mat(m.size(), m.size());
if (m.size() == 0){
return mat;
}
// Then copy elements over
for (auto i = 0; i < m.size(); ++i){
auto row = m[i];
if (row.size() != mat.rows()){
throw std::invalid_argument("provided matrix is not square");
}
for (auto j = 0; j < row.size(); ++j){
mat(i, j) = row[j];
// Extract the name of the model and the model parameters
std::string kind = json.at("kind");
auto spec = json.at("model");
if (kind == "vdW1") {
return vdWEOS1(spec.at("a"), spec.at("b"));
}
else if (kind == "vdW") {
return vdWEOS<double>(spec.at("Tcrit / K"), spec.at("pcrit / Pa"));
}
else if (kind == "PR") {
std::valarray<double> Tc_K = spec.at("Tcrit / K"), pc_Pa = spec.at("pcrit / Pa"), acentric = spec.at("acentric");
if (spec.contains("kmat")){
kmat = build_square_matrix(spec["kmat"]);
}
return canonical_PR(Tc_K, pc_Pa, acentric, kmat);
}
else if (kind == "SRK") {
std::valarray<double> Tc_K = spec.at("Tcrit / K"), pc_Pa = spec.at("pcrit / Pa"), acentric = spec.at("acentric");
if (spec.contains("kmat")){
kmat = build_square_matrix(spec["kmat"]);
}
return canonical_SRK(Tc_K, pc_Pa, acentric, kmat);
}
else if (kind == "CPA") {
return CPA::CPAfactory(spec);
}
else if (kind == "PCSAFT") {
using namespace PCSAFT;
Eigen::ArrayXXd kmat(0, 0);
if (spec.contains("kmat")){
kmat = build_square_matrix(spec["kmat"]);
}
if (spec.contains("names")){
return PCSAFTMixture(spec["names"], kmat);
}
else if (spec.contains("coeffs")){
std::vector<SAFTCoeffs> coeffs;
for (auto j : spec["coeffs"]) {
SAFTCoeffs c;
c.name = j.at("name");
c.m = j.at("m");
c.sigma_Angstrom = j.at("sigma_Angstrom");
c.epsilon_over_k = j.at("epsilon_over_k");
c.BibTeXKey = j.at("BibTeXKey");
coeffs.push_back(c);
}
return PCSAFTMixture(coeffs, kmat);
}
else{
throw std::invalid_argument("you must provide names or coeffs, but not both");
}
else if (kind == "multifluid") {
return multifluidfactory(spec);
}
else if (kind == "SW_EspindolaHeredia2009"){
return squarewell::EspindolaHeredia2009(spec.at("lambda"));
}
else if (kind == "EXP6_Kataoka1992"){
return exp6::Kataoka1992(spec.at("alpha"));
}
else if (kind == "AmmoniaWaterTillnerRoth"){
return AmmoniaWaterTillnerRoth();
}
else if (kind == "LJ126_TholJPCRD2016"){
return build_LJ126_TholJPCRD2016();
}
else if (kind == "LJ126_KolafaNezbeda1994"){
return LJ126KolafaNezbeda1994();
}
else if (kind == "LJ126_Johnson1993"){
return LJ126Johnson1993();
}
else if (kind == "Mie_Pohl2023"){
return Mie::Mie6Pohl2023(spec.at("lambda_a"));
}
return twocenterljf::build_two_center_model_dipole(spec.at("author"), spec.at("L^*"), spec.at("(mu^*)^2"));
}
return twocenterljf::build_two_center_model_quadrupole(spec.at("author"), spec.at("L^*"), spec.at("(mu^*)^2"));
}
else if (kind == "IdealHelmholtz"){
return IdealHelmholtz(spec);
}
else {
throw teqpcException(30, "Unknown kind:" + kind);
}