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Thermo-elasticTopologyOptimization
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Thermo-elasticTopologyOptim.../examples/top_thermoelastic/main.cpp

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#include "ConfigMechanicalInterface.h"
#include "ConfigThermalInterface.h"
int main() {
fs_path output_dir(OUTPUT_DIR);
fs_path config_file(
ASSETS_DIR "/top/config_Lshape.json");
spdlog::info("Algo read from '{}'", config_file.string());
spdlog::info("Algo output to '{}'", output_dir.string());
std::shared_ptr<ConfigMechanicalInterface> sp_mech_inter = std::make_shared<ConfigMechanicalInterface>(
config_file.string());
std::shared_ptr<ConfigThermalInterface> sp_ther_inter = std::make_shared<ConfigThermalInterface>(
config_file.string());
std::string ex_name = sp_mech_inter->ex_name_;
spdlog::critical("Thermoelastic TO example: {}", ex_name);
// initialize Top3d
auto sp_mech_top3d = sp_mech_inter->CreatTop();
auto sp_ther_top3d = sp_ther_inter->CreatTop();
spdlog::critical("start to thermoelastic top opt ...");
// init thermoelastic top3d
top::ThermoelasticTop3d mech_ther_top3d(sp_mech_top3d, sp_ther_top3d);
// loop
top::Tensor3d t_meth_rho = mech_ther_top3d.TopOptMainLoop();
// postprocess
{
spdlog::critical("extract compliance and volume each iteration ...");
// extract compliance and volume each iteration
fs_path compliance_path =
output_dir / "txt" / ex_name /
(ex_name + "_MeThTop" + "_compliance.txt");
WriteStdVector(compliance_path, mech_ther_top3d.v_compliance_);
spdlog::info("write compliance txt to: {}", compliance_path.c_str());
fs_path volume_path =
output_dir / "txt" / ex_name /
(ex_name + "_MeThTop" + "_volume.txt");
WriteStdVector(volume_path, mech_ther_top3d.v_volume_);
spdlog::info("write volume txt to: {}", volume_path.c_str());
// extract final rho (txt and vtk)
fs_path rho_txt_path =
output_dir / "txt" / ex_name /
(ex_name + "_MeThTop" + "_rho.txt");
WriteTensor3d(rho_txt_path, t_meth_rho);
spdlog::info("write density txt to: {}", rho_txt_path.c_str());
fs_path rho_vtk_path =
output_dir / "vtk" / ex_name /
(ex_name + "_MeThTop" + "_rho.vtk");
WriteTensorToVtk(rho_vtk_path, t_meth_rho, sp_mech_inter->sp_mesh_);
spdlog::info("write density vtk to: {}", rho_vtk_path.c_str());
}
}