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#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
#include <pybind11/operators.h>
#include <pybind11/functional.h>
#include <pybind11/eigen.h>
#include "teqp/core.hpp"
#include "teqp/models/pcsaft.hpp"
namespace py = pybind11;
template<typename Model>
void add_TDx_derivatives(py::module& m) {
using id = TDXDerivatives<Model, double, Eigen::Array<double, Eigen::Dynamic, 1> >;
//m.def("get_Ar00", &id::get_Ar00, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar10", &id::get_Ar10<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar01", &id::get_Ar01<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar11", &id::get_Ar11<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar02", &id::get_Ar02<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar20", &id::get_Ar20<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar03n", &id::get_Ar0n<3, ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar04n", &id::get_Ar0n<4, ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar05n", &id::get_Ar0n<5, ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_Ar06n", &id::get_Ar0n<6, ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
m.def("get_neff", &id::get_neff<ADBackends::autodiff>, py::arg("model"), py::arg("T"), py::arg("rho"), py::arg("molefrac"));
template<typename Model>
void add_virials(py::module& m) {
using vd = VirialDerivatives<Model>;
m.def("get_B2vir", &vd::get_B2vir, py::arg("model"), py::arg("T"), py::arg("molefrac"));
m.def("get_B12vir", &vd::get_B12vir, py::arg("model"), py::arg("T"), py::arg("molefrac"));
}
template<typename Model, typename Wrapper>
void add_derivatives(py::module &m, Wrapper &cls) {
using id = IsochoricDerivatives<Model, double, Eigen::Array<double,Eigen::Dynamic,1> >;
m.def("get_Ar00", &id::get_Ar00, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("get_Ar10", &id::get_Ar10, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("get_Psir", &id::get_Psir, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("get_pr", &id::get_pr, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("get_splus", &id::get_splus, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("build_Psir_Hessian_autodiff", &id::build_Psir_Hessian_autodiff, py::arg("model"), py::arg("T"), py::arg("rho"));
m.def("build_Psir_gradient_autodiff", &id::build_Psir_gradient_autodiff, py::arg("model"), py::arg("T"), py::arg("rho"));
cls.def("get_Ar01", [](const Model& m, const double T, const Eigen::ArrayXd& rhovec) { return id::get_Ar01(m, T, rhovec); });
cls.def("get_Ar10", [](const Model& m, const double T, const Eigen::ArrayXd& rhovec) { return id::get_Ar10(m, T, rhovec); });
using tdx = TDXDerivatives<Model, double, Eigen::Array<double, Eigen::Dynamic, 1> >;
cls.def("get_Ar01n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<1>(m, T, rho, molefrac); });
cls.def("get_Ar02n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<2>(m, T, rho, molefrac); });
cls.def("get_Ar03n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<3>(m, T, rho, molefrac); });
cls.def("get_Ar04n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<4>(m, T, rho, molefrac); });
cls.def("get_Ar05n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<5>(m, T, rho, molefrac); });
cls.def("get_Ar06n", [](const Model& m, const double T, const double rho, const Eigen::ArrayXd& molefrac) { return tdx::get_Ar0n<6>(m, T, rho, molefrac); });
}
void init_teqp(py::module& m) {
using vdWEOSd = vdWEOS<double>;
auto wvdW = py::class_<vdWEOSd>(m, "vdWEOS")
.def(py::init<const std::valarray<double>&, const std::valarray<double>&>(),py::arg("Tcrit"), py::arg("pcrit"))
;
add_derivatives<vdWEOSd>(m, wvdW);
auto wvdW1 = py::class_<vdWEOS1>(m, "vdWEOS1")
.def(py::init<const double&, const double&>(), py::arg("a"), py::arg("b"))
py::class_<SAFTCoeffs>(m, "SAFTCoeffs")
.def(py::init<>())
.def_readwrite("name", &SAFTCoeffs::name)
.def_readwrite("m", &SAFTCoeffs::m)
.def_readwrite("sigma_Angstrom", &SAFTCoeffs::sigma_Angstrom)
.def_readwrite("epsilon_over_k", &SAFTCoeffs::epsilon_over_k)
.def_readwrite("BibTeXKey", &SAFTCoeffs::BibTeXKey)
;
auto wPCSAFT = py::class_<PCSAFTMixture>(m, "PCSAFTEOS")
.def(py::init<const std::vector<std::string> &>(), py::arg("names"))
.def(py::init<const std::vector<SAFTCoeffs> &>(), py::arg("coeffs"))
.def("print_info", &PCSAFTMixture::print_info)
.def("max_rhoN", &PCSAFTMixture::max_rhoN<Eigen::ArrayXd>)
.def("get_m", &PCSAFTMixture::get_m)
.def("get_sigma_Angstrom", &PCSAFTMixture::get_sigma_Angstrom)
.def("get_epsilon_over_k_K", &PCSAFTMixture::get_epsilon_over_k_K)
add_derivatives<PCSAFTMixture>(m, wPCSAFT);
// Multifluid model
m.def("build_multifluid_model", &build_multifluid_model);
using MultiFluid = decltype(build_multifluid_model(std::vector<std::string>{"",""},"",""));
using idMF = IsochoricDerivatives<MultiFluid, double, Eigen::Array<double, Eigen::Dynamic, 1> >;
auto wMF = py::class_<MultiFluid>(m, "MultiFluid");
add_derivatives<MultiFluid>(m, wMF);
// for timing testing
m.def("mysummer", [](const double &c, const Eigen::ArrayXd &x) { return c*x.sum(); });
m.def("myadder", [](const double& c, const double& d) { return c+d; });