Select Git revision
Polynomial1DRootComputer.cpp
-
Stéphane Del Pino authored
- Remains lots of work in 2d and 3d (great progresses in 2d) - Remains to improve some constants evaluations (for Mie-Grunisen) - The case Gamma_infty<1 is not started
Stéphane Del Pino authored- Remains lots of work in 2d and 3d (great progresses in 2d) - Remains to improve some constants evaluations (for Mie-Grunisen) - The case Gamma_infty<1 is not started
SchemeModule.cpp 28.25 KiB
#include <language/modules/SchemeModule.hpp>
#include <analysis/GaussLegendreQuadratureDescriptor.hpp>
#include <analysis/GaussLobattoQuadratureDescriptor.hpp>
#include <analysis/GaussQuadratureDescriptor.hpp>
#include <language/modules/BinaryOperatorRegisterForVh.hpp>
#include <language/modules/MathFunctionRegisterForVh.hpp>
#include <language/modules/UnaryOperatorRegisterForVh.hpp>
#include <language/utils/BinaryOperatorProcessorBuilder.hpp>
#include <language/utils/BuiltinFunctionEmbedder.hpp>
#include <language/utils/TypeDescriptor.hpp>
#include <mesh/Connectivity.hpp>
#include <mesh/IBoundaryDescriptor.hpp>
#include <mesh/IZoneDescriptor.hpp>
#include <mesh/Mesh.hpp>
#include <mesh/MeshData.hpp>
#include <mesh/MeshDataManager.hpp>
#include <mesh/MeshRandomizer.hpp>
#include <scheme/AcousticSolver.hpp>
#include <scheme/AxisBoundaryConditionDescriptor.hpp>
#include <scheme/DirichletBoundaryConditionDescriptor.hpp>
#include <scheme/DiscreteFunctionDescriptorP0.hpp>
#include <scheme/DiscreteFunctionDescriptorP0Vector.hpp>
#include <scheme/DiscreteFunctionIntegrator.hpp>
#include <scheme/DiscreteFunctionInterpoler.hpp>
#include <scheme/DiscreteFunctionP0.hpp>
#include <scheme/DiscreteFunctionUtils.hpp>
#include <scheme/DiscreteFunctionVectorIntegrator.hpp>
#include <scheme/DiscreteFunctionVectorInterpoler.hpp>
#include <scheme/ExternalBoundaryConditionDescriptor.hpp>
#include <scheme/FixedBoundaryConditionDescriptor.hpp>
#include <scheme/FourierBoundaryConditionDescriptor.hpp>
#include <scheme/FreeBoundaryConditionDescriptor.hpp>
#include <scheme/HyperelasticSolver.hpp>
#include <scheme/IBoundaryConditionDescriptor.hpp>
#include <scheme/IDiscreteFunction.hpp>
#include <scheme/IDiscreteFunctionDescriptor.hpp>
#include <scheme/NeumannBoundaryConditionDescriptor.hpp>
#include <scheme/SymmetryBoundaryConditionDescriptor.hpp>
#include <utils/Socket.hpp>
#include <memory>
SchemeModule::SchemeModule()
{
this->_addTypeDescriptor(ast_node_data_type_from<std::shared_ptr<const IDiscreteFunction>>);
this->_addTypeDescriptor(ast_node_data_type_from<std::shared_ptr<const IDiscreteFunctionDescriptor>>);
this->_addTypeDescriptor(ast_node_data_type_from<std::shared_ptr<const IQuadratureDescriptor>>);
this->_addTypeDescriptor(ast_node_data_type_from<std::shared_ptr<const IBoundaryConditionDescriptor>>);
this->_addBuiltinFunction("P0", std::function(
[]() -> std::shared_ptr<const IDiscreteFunctionDescriptor> {
return std::make_shared<DiscreteFunctionDescriptorP0>();
}
));
this->_addBuiltinFunction("P0Vector", std::function(
[]() -> std::shared_ptr<const IDiscreteFunctionDescriptor> {
return std::make_shared<DiscreteFunctionDescriptorP0Vector>();
}
));
this->_addBuiltinFunction("Gauss", std::function(
[](uint64_t degree) -> std::shared_ptr<const IQuadratureDescriptor> { return std::make_shared<GaussQuadratureDescriptor>(degree);
}
));
this->_addBuiltinFunction("GaussLobatto", std::function(
[](uint64_t degree) -> std::shared_ptr<const IQuadratureDescriptor> {
return std::make_shared<GaussLobattoQuadratureDescriptor>(degree);
}
));
this->_addBuiltinFunction("GaussLegendre", std::function(
[](uint64_t degree) -> std::shared_ptr<const IQuadratureDescriptor> {
return std::make_shared<GaussLegendreQuadratureDescriptor>(degree);
}
));
this->_addBuiltinFunction("integrate",
std::function(
[](std::shared_ptr<const IMesh> mesh,
const std::vector<std::shared_ptr<const IZoneDescriptor>>& integration_zone_list,
std::shared_ptr<const IQuadratureDescriptor> quadrature_descriptor,
std::shared_ptr<const IDiscreteFunctionDescriptor> discrete_function_descriptor,
const std::vector<FunctionSymbolId>& function_id_list)
-> std::shared_ptr<const IDiscreteFunction> {
return DiscreteFunctionVectorIntegrator{mesh, integration_zone_list,
quadrature_descriptor,
discrete_function_descriptor, function_id_list}
.integrate();
}
));
this->_addBuiltinFunction("integrate",
std::function(
[](std::shared_ptr<const IMesh> mesh,
std::shared_ptr<const IQuadratureDescriptor> quadrature_descriptor,
std::shared_ptr<const IDiscreteFunctionDescriptor> discrete_function_descriptor,
const std::vector<FunctionSymbolId>& function_id_list)
-> std::shared_ptr<const IDiscreteFunction> {
return DiscreteFunctionVectorIntegrator{mesh, quadrature_descriptor,
discrete_function_descriptor, function_id_list}
.integrate();
}
));
this->_addBuiltinFunction(
"integrate",
std::function(
[](std::shared_ptr<const IMesh> mesh,
const std::vector<std::shared_ptr<const IZoneDescriptor>>& integration_zone_list,
std::shared_ptr<const IQuadratureDescriptor> quadrature_descriptor,
const FunctionSymbolId& function_id) -> std::shared_ptr<const IDiscreteFunction> {
return DiscreteFunctionIntegrator{mesh, integration_zone_list, quadrature_descriptor, function_id}.integrate();
}
));
this->_addBuiltinFunction("integrate",
std::function(
[](std::shared_ptr<const IMesh> mesh, std::shared_ptr<const IQuadratureDescriptor> quadrature_descriptor,
const FunctionSymbolId& function_id) -> std::shared_ptr<const IDiscreteFunction> {
return DiscreteFunctionIntegrator{mesh, quadrature_descriptor, function_id}.integrate();
}
));
this->_addBuiltinFunction("interpolate",
std::function(
[](std::shared_ptr<const IMesh> mesh,
const std::vector<std::shared_ptr<const IZoneDescriptor>>& interpolation_zone_list,
std::shared_ptr<const IDiscreteFunctionDescriptor> discrete_function_descriptor,
const std::vector<FunctionSymbolId>& function_id_list)
-> std::shared_ptr<const IDiscreteFunction> {
switch (discrete_function_descriptor->type()) {
case DiscreteFunctionType::P0: {
if (function_id_list.size() != 1) {
throw NormalError("invalid function descriptor type");
}
return DiscreteFunctionInterpoler{mesh, interpolation_zone_list,
discrete_function_descriptor, function_id_list[0]}
.interpolate();
}
case DiscreteFunctionType::P0Vector: {
return DiscreteFunctionVectorInterpoler{mesh, interpolation_zone_list,
discrete_function_descriptor,
function_id_list}
.interpolate();
}
default: {
throw NormalError("invalid function descriptor type");
}
}
}
));
this->_addBuiltinFunction(
"interpolate",
std::function(
[](std::shared_ptr<const IMesh> mesh,
std::shared_ptr<const IDiscreteFunctionDescriptor> discrete_function_descriptor,
const std::vector<FunctionSymbolId>& function_id_list) -> std::shared_ptr<const IDiscreteFunction> {
switch (discrete_function_descriptor->type()) {
case DiscreteFunctionType::P0: {
if (function_id_list.size() != 1) {
throw NormalError("invalid function descriptor type");
}
return DiscreteFunctionInterpoler{mesh, discrete_function_descriptor, function_id_list[0]}.interpolate();
}
case DiscreteFunctionType::P0Vector: {
return DiscreteFunctionVectorInterpoler{mesh, discrete_function_descriptor, function_id_list}.interpolate();
}
default: {
throw NormalError("invalid function descriptor type");
}
}
}
));
this->_addBuiltinFunction("randomizeMesh",
std::function(
[](std::shared_ptr<const IMesh> p_mesh,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list) -> std::shared_ptr<const IMesh> {
MeshRandomizerHandler handler; return handler.getRandomizedMesh(*p_mesh, bc_descriptor_list);
}
));
this->_addBuiltinFunction("randomizeMesh",
std::function(
[](std::shared_ptr<const IMesh> p_mesh,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list,
const FunctionSymbolId& function_symbol_id) -> std::shared_ptr<const IMesh> {
MeshRandomizerHandler handler;
return handler.getRandomizedMesh(*p_mesh, bc_descriptor_list, function_symbol_id);
}
));
this->_addBuiltinFunction("fixed", std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<FixedBoundaryConditionDescriptor>(boundary);
}
));
this->_addBuiltinFunction("axis", std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<AxisBoundaryConditionDescriptor>(boundary);
}
));
this->_addBuiltinFunction("symmetry", std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<SymmetryBoundaryConditionDescriptor>(boundary);
}
));
this->_addBuiltinFunction("pressure", std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary,
const FunctionSymbolId& pressure_id)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<DirichletBoundaryConditionDescriptor>("pressure",
boundary,
pressure_id);
}
));
this->_addBuiltinFunction("normal-stress",
std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary,
const FunctionSymbolId& normal_stress_id)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<DirichletBoundaryConditionDescriptor>("normal-stress", boundary,
normal_stress_id);
}
));
this->_addBuiltinFunction("velocity", std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary,
const FunctionSymbolId& velocity_id)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<DirichletBoundaryConditionDescriptor>("velocity",
boundary,
velocity_id);
}
));
this->_addBuiltinFunction("external_fsi_velocity",
std::function(
[](std::shared_ptr<const IBoundaryDescriptor> boundary,
const std::shared_ptr<const Socket>& socket)
-> std::shared_ptr<const IBoundaryConditionDescriptor> {
return std::make_shared<ExternalBoundaryConditionDescriptor>("external_fsi_velocity",
boundary, socket);
}
));
this->_addBuiltinFunction("glace_fluxes", std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& c,
const std::shared_ptr<const IDiscreteFunction>& p,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list)
-> std::tuple<std::shared_ptr<const ItemValueVariant>,
std::shared_ptr<const SubItemValuePerItemVariant>> {
return AcousticSolverHandler{getCommonMesh({rho, c, u, p})}
.solver()
.compute_fluxes(AcousticSolverHandler::SolverType::Glace, rho, c, u,
p, bc_descriptor_list);
}
));
this->_addBuiltinFunction("glace_solver",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& E,
const std::shared_ptr<const IDiscreteFunction>& c,
const std::shared_ptr<const IDiscreteFunction>& p,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list,
const double& dt)
-> std::tuple<std::shared_ptr<const IMesh>, std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>> {
return AcousticSolverHandler{getCommonMesh({rho, u, E, c, p})}
.solver()
.apply(AcousticSolverHandler::SolverType::Glace, dt, rho, u, E, c, p,
bc_descriptor_list);
}
));
this->_addBuiltinFunction("eucclhyd_fluxes",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& c,
const std::shared_ptr<const IDiscreteFunction>& p, const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list)
-> std::tuple<std::shared_ptr<const ItemValueVariant>,
std::shared_ptr<const SubItemValuePerItemVariant>> {
return AcousticSolverHandler{getCommonMesh({rho, c, u, p})}
.solver()
.compute_fluxes(AcousticSolverHandler::SolverType::Eucclhyd, rho, c, u, p,
bc_descriptor_list);
}
));
this->_addBuiltinFunction("eucclhyd_solver",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& E,
const std::shared_ptr<const IDiscreteFunction>& c,
const std::shared_ptr<const IDiscreteFunction>& p,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list,
const double& dt)
-> std::tuple<std::shared_ptr<const IMesh>, std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>> {
return AcousticSolverHandler{getCommonMesh({rho, u, E, c, p})}
.solver()
.apply(AcousticSolverHandler::SolverType::Eucclhyd, dt, rho, u, E, c, p,
bc_descriptor_list);
}
));
this->_addBuiltinFunction("hyperelastic_eucclhyd_solver",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& E,
const std::shared_ptr<const IDiscreteFunction>& CG,
const std::shared_ptr<const IDiscreteFunction>& aL,
const std::shared_ptr<const IDiscreteFunction>& aT,
const std::shared_ptr<const IDiscreteFunction>& sigma,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>&
bc_descriptor_list,
const double& dt)
-> std::tuple<std::shared_ptr<const IMesh>, std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>> {
return HyperelasticSolverHandler{getCommonMesh({rho, u, E, CG, aL, aT, sigma})}
.solver()
.apply(HyperelasticSolverHandler::SolverType::Eucclhyd, dt, rho, u, E, CG, aL, aT,
sigma, bc_descriptor_list);
}
));
this->_addBuiltinFunction("hyperelastic_glace_solver",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho,
const std::shared_ptr<const IDiscreteFunction>& u,
const std::shared_ptr<const IDiscreteFunction>& E,
const std::shared_ptr<const IDiscreteFunction>& CG,
const std::shared_ptr<const IDiscreteFunction>& aL,
const std::shared_ptr<const IDiscreteFunction>& aT,
const std::shared_ptr<const IDiscreteFunction>& sigma,
const std::vector<std::shared_ptr<const IBoundaryConditionDescriptor>>& bc_descriptor_list,
const double& dt)
-> std::tuple<std::shared_ptr<const IMesh>, std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>> {
return HyperelasticSolverHandler{getCommonMesh({rho, u, E, CG, aL, aT, sigma})}
.solver()
.apply(HyperelasticSolverHandler::SolverType::Glace, dt, rho, u, E, CG, aL, aT, sigma,
bc_descriptor_list);
}
));
this->_addBuiltinFunction("apply_acoustic_fluxes",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& rho, //
const std::shared_ptr<const IDiscreteFunction>& u, //
const std::shared_ptr<const IDiscreteFunction>& E, //
const std::shared_ptr<const ItemValueVariant>& ur, //
const std::shared_ptr<const SubItemValuePerItemVariant>& Fjr, //
const double& dt)
-> std::tuple<std::shared_ptr<const IMesh>, std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>,
std::shared_ptr<const IDiscreteFunction>> {
return AcousticSolverHandler{getCommonMesh({rho, u, E})} //
.solver()
.apply_fluxes(dt, rho, u, E, ur, Fjr);
}
));
this->_addBuiltinFunction("lagrangian",
std::function(
[](const std::shared_ptr<const IMesh>& mesh,
const std::shared_ptr<const IDiscreteFunction>& v)
-> std::shared_ptr<const IDiscreteFunction> { return shallowCopy(mesh, v); }
));
this->_addBuiltinFunction("acoustic_dt",
std::function(
[](const std::shared_ptr<const IDiscreteFunction>& c) -> double { return acoustic_dt(c); }
));
this->_addBuiltinFunction("hyperelastic_dt", std::function(
[](const std::shared_ptr<const IDiscreteFunction>& c) -> double {
return hyperelastic_dt(c);
}
));
this
->_addBuiltinFunction("cell_volume",
std::function(
[](const std::shared_ptr<const IMesh>& i_mesh) -> std::shared_ptr<const IDiscreteFunction> {
switch (i_mesh->dimension()) {
case 1: {
constexpr size_t Dimension = 1;
using MeshType = Mesh<Connectivity<Dimension>>;
std::shared_ptr<const MeshType> mesh =
std::dynamic_pointer_cast<const Mesh<Connectivity<Dimension>>>(i_mesh);
return std::make_shared<const DiscreteFunctionP0< Dimension, double>>(mesh, copy(MeshDataManager::instance().getMeshData(*mesh).Vj()));
}
case 2: {
constexpr size_t Dimension = 2;
using MeshType = Mesh<Connectivity<Dimension>>;
std::shared_ptr<const MeshType> mesh =
std::dynamic_pointer_cast<const Mesh<Connectivity<Dimension>>>(i_mesh);
return std::make_shared<const DiscreteFunctionP0<
Dimension, double>>(mesh, copy(MeshDataManager::instance().getMeshData(*mesh).Vj()));
}
case 3: {
constexpr size_t Dimension = 3;
using MeshType = Mesh<Connectivity<Dimension>>;
std::shared_ptr<const MeshType> mesh =
std::dynamic_pointer_cast<const Mesh<Connectivity<Dimension>>>(i_mesh);
return std::make_shared<const DiscreteFunctionP0<
Dimension, double>>(mesh, copy(MeshDataManager::instance().getMeshData(*mesh).Vj()));
}
default: {
throw UnexpectedError("invalid mesh dimension");
}
}
}
));
MathFunctionRegisterForVh{*this};
}
void
SchemeModule::registerOperators() const
{
BinaryOperatorRegisterForVh{};
UnaryOperatorRegisterForVh{};
}