xda_tet_mesh.template.h
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26 #ifndef OOMPH_XDA_TET_MESH_HEADER
27 #define OOMPH_XDA_TET_MESH_HEADER
28 
29 // Config header generated by autoconfig
30 #ifdef HAVE_CONFIG_H
31 #include <oomph-lib-config.h>
32 #endif
33 
34 
35 #ifdef OOMPH_HAS_MPI
36 // mpi headers
37 #include "mpi.h"
38 #endif
39 
40 #include <string>
41 #include <iterator>
42 #include <algorithm>
43 
44 #include "../generic/mesh.h"
45 #include "../generic/tet_mesh.h"
46 
47 namespace oomph
48 {
49  //========================================================================
50  /// Tet mesh made of quadratic (ten node) tets built from xda input file.
51  //========================================================================
52  template<class ELEMENT>
53  class XdaTetMesh : public virtual TetMeshBase
54  {
55  public:
56  /// Constructor: Pass name of xda file. Note that
57  /// all boundary elements get their own ID -- this is required for
58  /// FSI problems. In this case; the vector containing the oomph-lib
59  /// boundary IDs of all oomph-lib boundaries that collectively form
60  /// a given boundary as specified in the xda input file can be
61  /// obtained from the access function oomph_lib_boundary_ids(...).
62  /// Timestepper defaults to steady pseudo-timestepper.
63  XdaTetMesh(const std::string xda_file_name,
64  TimeStepper* time_stepper_pt = &Mesh::Default_TimeStepper);
65 
66  /// Setup boundary coordinate on boundary b while is
67  /// temporarily flattened to simplex faces. Boundary coordinates are the
68  /// x-y coordinates in the plane of that boundary with the
69  /// x-axis along the line from the (lexicographically)
70  /// "lower left" to the "upper right" node. The y axis
71  /// is obtained by taking the cross-product of the positive
72  /// x direction with the outer unit normal computed by
73  /// the face elements (or its negative if switch_normal is set
74  /// to true).
75  void setup_boundary_coordinates(const unsigned& b,
76  const bool& switch_normal)
77  {
78  std::ofstream outfile;
79  setup_boundary_coordinates(b, switch_normal, outfile);
80  }
81 
82 
83  /// Setup boundary coordinate on boundary b while is
84  /// temporarily flattened to simplex faces. Boundary coordinates are the
85  /// x-y coordinates in the plane of that boundary with the
86  /// x-axis along the line from the (lexicographically)
87  /// "lower left" to the "upper right" node. The y axis
88  /// is obtained by taking the cross-product of the positive
89  /// x direction with the outer unit normal computed by
90  /// the face elements (or its negative if switch_normal is set
91  /// to true). Doc faces in output file.
92  void setup_boundary_coordinates(const unsigned& b,
93  const bool& switch_normal,
94  std::ofstream& outfile);
95 
96  /// Access function to the number of distinct boundaries specified
97  /// in the original xda enumeration.
98  unsigned nxda_boundary()
99  {
100  return Boundary_id.size();
101  }
102 
103  /// Access functions to the Vector of oomph-lib boundary ids
104  /// that make up boundary b in the original xda enumeration
105  Vector<unsigned> oomph_lib_boundary_ids(const unsigned& xda_boundary_id)
106  {
107  return Boundary_id[xda_boundary_id];
108  }
109 
110  private:
111  /// Vector of vectors containing the boundary IDs of
112  /// the overall boundary specified in the xda file.
113  Vector<Vector<unsigned>> Boundary_id;
114  };
115 
116 
117  /// /////////////////////////////////////////////////////////////////
118  /// /////////////////////////////////////////////////////////////////
119  /// /////////////////////////////////////////////////////////////////
120 
121 
122  //==========================================================================
123  /// Xda-based tet mesh upgraded to become a solid mesh.
124  //=========================================================================
125  template<class ELEMENT>
126  class SolidXdaTetMesh : public virtual XdaTetMesh<ELEMENT>,
127  public virtual SolidMesh
128  {
129  public:
130  /// Constructor. Boundary coordinates are setup
131  /// automatically.
132  SolidXdaTetMesh(const std::string xda_file_name,
133  TimeStepper* time_stepper_pt = &Mesh::Default_TimeStepper)
134  : XdaTetMesh<ELEMENT>(xda_file_name, time_stepper_pt)
135  {
136  // Assign the Lagrangian coordinates
137  set_lagrangian_nodal_coordinates();
138  }
139 
140 
141  /// Empty Destructor
142  virtual ~SolidXdaTetMesh() {}
143  };
144 
145 
146  /// /////////////////////////////////////////////////////////////////
147  /// /////////////////////////////////////////////////////////////////
148  /// /////////////////////////////////////////////////////////////////
149 
150 
151 } // namespace oomph
152 
153 #endif
///////////////////////////////////////////////////////////////// ///////////////////////////////////...
SolidXdaTetMesh(const std::string xda_file_name, TimeStepper *time_stepper_pt=&Mesh::Default_TimeStepper)
Constructor. Boundary coordinates are setup automatically.
virtual ~SolidXdaTetMesh()
Empty Destructor.
Tet mesh made of quadratic (ten node) tets built from xda input file.
Vector< Vector< unsigned > > Boundary_id
Vector of vectors containing the boundary IDs of the overall boundary specified in the xda file.
void setup_boundary_coordinates(const unsigned &b, const bool &switch_normal)
Setup boundary coordinate on boundary b while is temporarily flattened to simplex faces....
XdaTetMesh(const std::string xda_file_name, TimeStepper *time_stepper_pt=&Mesh::Default_TimeStepper)
Constructor: Pass name of xda file. Note that all boundary elements get their own ID – this is requir...
Vector< unsigned > oomph_lib_boundary_ids(const unsigned &xda_boundary_id)
Access functions to the Vector of oomph-lib boundary ids that make up boundary b in the original xda ...
unsigned nxda_boundary()
Access function to the number of distinct boundaries specified in the original xda enumeration.
////////////////////////////////////////////////////////////////////// //////////////////////////////...