calculate_prescribed_bc_3DOF_constraint.hpp Source File

Kynema API: /home/runner/work/kynema/kynema/kynema/src/constraints/calculate_prescribed_bc_3DOF_constraint.hpp Source File

Kynema API

A flexible multibody structural dynamics code for wind turbines

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#pragma once
 
#include <Kokkos_Core.hpp>
 
#include "math/quaternion_operations.hpp"
 
namespace kynema::constraints {
 
template <typename DeviceType>
struct CalculatePrescribedBC3DOFConstraint {
    template <typename ValueType>
    using View = Kokkos::View<ValueType, DeviceType>;
    template <typename ValueType>
    using ConstView = typename View<ValueType>::const_type;
 
    KOKKOS_FUNCTION static void invoke(
        const ConstView<double[3]>& X0, const ConstView<double[7]>& inputs,
        const ConstView<double[7]>& node_u, const View<double[6]>& residual_terms,
        const View<double[6][6]>& target_gradient_terms
    ) {
        using Kokkos::Array;
 
        const auto u1_data = Array<double, 3>{inputs(0), inputs(1), inputs(2)};
        const auto R1_data = Array<double, 4>{inputs(3), inputs(4), inputs(5), inputs(6)};
        const auto u2_data = Array<double, 3>{node_u(0), node_u(1), node_u(2)};
        const auto R2_data = Array<double, 4>{node_u(3), node_u(4), node_u(5), node_u(6)};
        auto R1t_data = Array<double, 4>{};
        auto R1_X0_data = Array<double, 4>{};
        auto R2_R1t_data = Array<double, 4>{};
        auto A_data = Array<double, 9>{};
        auto C_data = Array<double, 9>{};
        auto V3_data = Array<double, 3>{};
 
        const auto u1 = ConstView<double[3]>{u1_data.data()};
        const auto R1 = ConstView<double[4]>{R1_data.data()};
        const auto u2 = ConstView<double[3]>{u2_data.data()};
        const auto R2 = ConstView<double[4]>{R2_data.data()};
        const auto R1t = View<double[4]>{R1t_data.data()};
        const auto R1_X0 = View<double[4]>{R1_X0_data.data()};
        const auto R2_R1t = View<double[4]>{R2_R1t_data.data()};
        const auto A = View<double[3][3]>{A_data.data()};
        const auto C = View<double[3][3]>{C_data.data()};
        const auto V3 = View<double[3]>{V3_data.data()};
 
        //----------------------------------------------------------------------
        // Residual Vector
        //----------------------------------------------------------------------
 
        // Phi(0:3) = u2 + X0 - u1 - R1*X0
        math::QuaternionInverse(R1, R1t);
        math::RotateVectorByQuaternion(R1, X0, R1_X0);
        for (auto component = 0; component < 3; ++component) {
            residual_terms(component) =
                u2(component) + X0(component) - u1(component) - R1_X0(component);
        }
 
        //----------------------------------------------------------------------
        // Constraint Gradient Matrix
        //----------------------------------------------------------------------
 
        //---------------------------------
        // Target Node
        //---------------------------------
 
        // B(0:3,0:3) = I
        for (auto component = 0; component < 3; ++component) {
            target_gradient_terms(component, component) = 1.;
        }
    }
};
 
}  // namespace kynema::constraints