#pragma once
#include
namespace internal
{
// local: plane x=0
struct plane_t final : subface {
static constexpr uint64_t max_degree = 1;
static constexpr equation_system_type eq_sys_type = equation_system_type::implicit;
std::function fetch_sdf_evaluator() const override;
std::function fetch_sdf_grad_evaluator() const override;
// u: planar local x-axis
// v: planar local y-axis
std::function fetch_point_by_param_evaluator() const override;
std::function fetch_curve_constraint_evaluator(parameter_u_t constraint_var_type,
double u) const override;
std::function fetch_curve_constraint_evaluator(parameter_v_t constraint_var_type,
double v) const override;
std::function fetch_solver_evaluator() const override;
};
struct plane_paired_model_matrix {
internal::paired_model_matrix *data{};
};
} // namespace internal
namespace detail
{
template <>
struct hasher {
size_t operator()(const internal::plane_paired_model_matrix &block) const
{
const auto& mat = block.data->local_to_world.matrix();
Eigen::Matrix character_col;
character_col.col(0) = mat.col(0);
character_col.col(1) = mat.col(3);
return XXH3_64bits(character_col.data(), sizeof(Eigen::Matrix));
}
};
template <>
struct default_elem_ctor {
internal::plane_t operator()(const internal::plane_paired_model_matrix &k) const
{
internal::plane_t res{};
res.model_matrices = const_cast(k.data);
return res;
}
};
} // namespace detail