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gsDynamicExplicitEuler.h
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1 
17 #pragma once
18 #include <gsCore/gsLinearAlgebra.h>
20 #include <gsIO/gsOptionList.h>
21 
22 namespace gismo
23 {
24 
32 template <class T, bool _NL>
34 {
35  typedef gsDynamicBase<T> Base;
36 
37 protected:
38 
39  typedef typename gsStructuralAnalysisOps<T>::Force_t Force_t;
40  typedef typename gsStructuralAnalysisOps<T>::TForce_t TForce_t;
41  typedef typename gsStructuralAnalysisOps<T>::Residual_t Residual_t;
42  typedef typename gsStructuralAnalysisOps<T>::TResidual_t TResidual_t;
43  typedef typename gsStructuralAnalysisOps<T>::Mass_t Mass_t;
44  typedef typename gsStructuralAnalysisOps<T>::TMass_t TMass_t;
45  typedef typename gsStructuralAnalysisOps<T>::Damping_t Damping_t;
46  typedef typename gsStructuralAnalysisOps<T>::TDamping_t TDamping_t;
47  typedef typename gsStructuralAnalysisOps<T>::Stiffness_t Stiffness_t;
48  typedef typename gsStructuralAnalysisOps<T>::Jacobian_t Jacobian_t;
49  typedef typename gsStructuralAnalysisOps<T>::TJacobian_t TJacobian_t;
50 
51 public:
52 
53  virtual ~gsDynamicExplicitEuler() {};
54 
57  const Mass_t & Mass,
58  const Damping_t & Damping,
59  const Stiffness_t & Stiffness,
60  const Force_t & Force
61  )
62  :
63  Base(Mass,Damping,Stiffness,Force)
64  {}
65 
68  const Mass_t & Mass,
69  const Damping_t & Damping,
70  const Stiffness_t & Stiffness,
71  const TForce_t & TForce
72  )
73  :
74  Base(Mass,Damping,Stiffness,TForce)
75  {}
76 
79  const Mass_t & Mass,
80  const Damping_t & Damping,
81  const Jacobian_t & Jacobian,
82  const Residual_t & Residual
83  )
84  :
85  Base(Mass,Damping,Jacobian,Residual)
86  {}
87 
90  const Mass_t & Mass,
91  const Damping_t & Damping,
92  const Jacobian_t & Jacobian,
93  const TResidual_t & TResidual
94  )
95  :
96  Base(Mass,Damping,Jacobian,TResidual)
97  {}
98 
101  const Mass_t & Mass,
102  const Damping_t & Damping,
103  const TJacobian_t & TJacobian,
104  const TResidual_t & TResidual
105  )
106  :
107  Base(Mass,Damping,TJacobian,TResidual)
108  {}
109 
112  const TMass_t & TMass,
113  const TDamping_t & TDamping,
114  const TJacobian_t & TJacobian,
115  const TResidual_t & TResidual
116  )
117  :
118  Base(TMass,TDamping,TJacobian,TResidual)
119  {}
120 
121 // General functions
122 protected:
123 
124  gsStatus _step(const T t, const T dt, gsVector<T> & U, gsVector<T> & V, gsVector<T> & A) const override;
125 
126  void _initOutput() const;
127  void _stepOutput(const index_t it, const T resnorm, const T updatenorm) const;
128 
129  gsSparseMatrix<T> m_sysmat;
130 
131  using Base::_computeForce;
133  using Base::_computeMass;
135  using Base::_computeDamping;
137 
138 protected:
139 
140  using Base::m_solver;
141 
142  using Base::m_numIterations;
143 
144  using Base::m_options;
145 
146 
147 private:
148  template <bool _nonlinear>
149  typename std::enable_if<(_nonlinear==false), gsStatus>::type
150  _step_impl(const T t, const T dt, gsVector<T> & U, gsVector<T> & V, gsVector<T> & A) const;
151 
152  template <bool _nonlinear>
153  typename std::enable_if<(_nonlinear==true), gsStatus>::type
154  _step_impl(const T t, const T dt, gsVector<T> & U, gsVector<T> & V, gsVector<T> & A) const;
155 };
156 
157 } // namespace gismo
158 
159 #ifndef GISMO_BUILD_LIB
160 #include GISMO_HPP_HEADER(gsDynamicExplicitEuler.hpp)
161 #endif
std::function< bool(gsVector< T > const &, const T, gsSparseMatrix< T > &) > TJacobian_t
Jacobian.
Definition: gsStructuralAnalysisTypes.h:85
virtual void _computeForce(const T time, gsVector< T > &F) const
Compute the residual.
Definition: gsDynamicBase.h:261
virtual void _computeMassInverse(const gsSparseMatrix< T > &M, gsSparseMatrix< T > &Minv) const
Compute the mass matrix.
Definition: gsDynamicBase.h:282
std::function< bool(gsVector< T > const &, const T, gsVector< T > &)> TResidual_t
Time-dependent Residual Fint(t)-Fext(t)
Definition: gsStructuralAnalysisTypes.h:69
Base class to perform time integration of second-order structural dynamics systems.
Performs the arc length method to solve a nonlinear system of equations.
Definition: gsDynamicBase.h:34
virtual void _computeMass(const T time, gsSparseMatrix< T > &M) const
Compute the mass matrix.
Definition: gsDynamicBase.h:275
#define index_t
Definition: gsConfig.h:32
gsStatus
Definition: gsStructuralAnalysisTypes.h:20
Performs the arc length method to solve a nonlinear system of equations.
Definition: gsDynamicExplicitEuler.h:33
std::function< bool(gsVector< T > const &, gsVector< T > &)> Residual_t
Residual, Fint-Fext.
Definition: gsStructuralAnalysisTypes.h:65
std::function< bool(gsSparseMatrix< T > &) > Mass_t
Mass matrix.
Definition: gsStructuralAnalysisTypes.h:72
std::function< bool(gsVector< T > const &, gsSparseMatrix< T > &) > Jacobian_t
Jacobian.
Definition: gsStructuralAnalysisTypes.h:83
gsStatus _step(const T t, const T dt, gsVector< T > &U, gsVector< T > &V, gsVector< T > &A) const override
Initialize the ALM.
Definition: gsDynamicExplicitEuler.hpp:128
std::function< bool(gsVector< T > const &, gsSparseMatrix< T > &) > Damping_t
Damping matrix.
Definition: gsStructuralAnalysisTypes.h:76
gsDynamicExplicitEuler(const Mass_t &Mass, const Damping_t &Damping, const Jacobian_t &Jacobian, const TResidual_t &TResidual)
Constructor.
Definition: gsDynamicExplicitEuler.h:89
Provides a list of labeled parameters/options that can be set and accessed easily.
virtual void _computeDamping(const gsVector< T > &U, const T time, gsSparseMatrix< T > &C) const
Compute the damping matrix.
Definition: gsDynamicBase.h:297
gsDynamicExplicitEuler(const Mass_t &Mass, const Damping_t &Damping, const Stiffness_t &Stiffness, const Force_t &Force)
Constructor.
Definition: gsDynamicExplicitEuler.h:56
std::function< bool(gsVector< T > &)> Force_t
Force.
Definition: gsStructuralAnalysisTypes.h:60
std::function< bool(const T, gsSparseMatrix< T > &) > TMass_t
Time-dependent mass matrix.
Definition: gsStructuralAnalysisTypes.h:74
gsDynamicExplicitEuler(const Mass_t &Mass, const Damping_t &Damping, const Stiffness_t &Stiffness, const TForce_t &TForce)
Constructor.
Definition: gsDynamicExplicitEuler.h:67
std::function< bool(gsSparseMatrix< T > &) > Stiffness_t
Stiffness matrix.
Definition: gsStructuralAnalysisTypes.h:81
gsDynamicExplicitEuler(const Mass_t &Mass, const Damping_t &Damping, const TJacobian_t &TJacobian, const TResidual_t &TResidual)
Constructor.
Definition: gsDynamicExplicitEuler.h:100
std::function< bool(const T, gsVector< T > &)> TForce_t
Time-dependent force.
Definition: gsStructuralAnalysisTypes.h:62
virtual void _computeJacobian(const gsVector< T > &U, const T time, gsSparseMatrix< T > &K) const
Compute the Jacobian matrix.
Definition: gsDynamicBase.h:304
index_t m_numIterations
Number of iterations performed.
Definition: gsDynamicBase.h:348
gsDynamicExplicitEuler(const TMass_t &TMass, const TDamping_t &TDamping, const TJacobian_t &TJacobian, const TResidual_t &TResidual)
Constructor.
Definition: gsDynamicExplicitEuler.h:111
This is the main header file that collects wrappers of Eigen for linear algebra.
std::function< bool(gsVector< T > const &, const T, gsSparseMatrix< T > &) > TDamping_t
Time-dependent Damping matrix.
Definition: gsStructuralAnalysisTypes.h:78
gsDynamicExplicitEuler(const Mass_t &Mass, const Damping_t &Damping, const Jacobian_t &Jacobian, const Residual_t &Residual)
Constructor.
Definition: gsDynamicExplicitEuler.h:78
virtual void _computeResidual(const gsVector< T > &U, const T time, gsVector< T > &R) const
Compute the residual.
Definition: gsDynamicBase.h:268