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src
meshes
xda_tet_mesh.template.h
Go to the documentation of this file.
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// LIC// ====================================================================
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// LIC// This file forms part of oomph-lib, the object-oriented,
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// LIC// multi-physics finite-element library, available
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// LIC// at http://www.oomph-lib.org.
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// LIC//
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// LIC// Copyright (C) 2006-2024 Matthias Heil and Andrew Hazel
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// LIC//
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// LIC// This library is free software; you can redistribute it and/or
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// LIC// modify it under the terms of the GNU Lesser General Public
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// LIC// License as published by the Free Software Foundation; either
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// LIC// version 2.1 of the License, or (at your option) any later version.
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// LIC//
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// LIC// This library is distributed in the hope that it will be useful,
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// LIC// but WITHOUT ANY WARRANTY; without even the implied warranty of
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// LIC// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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// LIC// Lesser General Public License for more details.
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// LIC//
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// LIC// You should have received a copy of the GNU Lesser General Public
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// LIC// License along with this library; if not, write to the Free Software
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// LIC// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
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// LIC// 02110-1301 USA.
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// LIC//
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// LIC// The authors may be contacted at oomph-lib@maths.man.ac.uk.
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// LIC//
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// LIC//====================================================================
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#ifndef OOMPH_XDA_TET_MESH_HEADER
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#define OOMPH_XDA_TET_MESH_HEADER
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// Config header generated by autoconfig
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#ifdef HAVE_CONFIG_H
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#include <oomph-lib-config.h>
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#endif
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#ifdef OOMPH_HAS_MPI
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// mpi headers
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#include "mpi.h"
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#endif
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#include <string>
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#include <iterator>
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#include <algorithm>
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#include "../generic/mesh.h"
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#include "../generic/tet_mesh.h"
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namespace
oomph
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{
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//========================================================================
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/// Tet mesh made of quadratic (ten node) tets built from xda input file.
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//========================================================================
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template
<
class
ELEMENT>
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class
XdaTetMesh
:
public
virtual
TetMeshBase
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{
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public
:
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/// Constructor: Pass name of xda file. Note that
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/// all boundary elements get their own ID -- this is required for
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/// FSI problems. In this case; the vector containing the oomph-lib
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/// boundary IDs of all oomph-lib boundaries that collectively form
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/// a given boundary as specified in the xda input file can be
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/// obtained from the access function oomph_lib_boundary_ids(...).
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/// Timestepper defaults to steady pseudo-timestepper.
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XdaTetMesh
(
const
std::string xda_file_name,
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TimeStepper* time_stepper_pt = &Mesh::Default_TimeStepper);
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/// Setup boundary coordinate on boundary b while is
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/// temporarily flattened to simplex faces. Boundary coordinates are the
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/// x-y coordinates in the plane of that boundary with the
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/// x-axis along the line from the (lexicographically)
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/// "lower left" to the "upper right" node. The y axis
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/// is obtained by taking the cross-product of the positive
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/// x direction with the outer unit normal computed by
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/// the face elements (or its negative if switch_normal is set
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/// to true).
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void
setup_boundary_coordinates
(
const
unsigned
& b,
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const
bool
& switch_normal)
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{
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std::ofstream outfile;
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setup_boundary_coordinates
(b, switch_normal, outfile);
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}
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/// Setup boundary coordinate on boundary b while is
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/// temporarily flattened to simplex faces. Boundary coordinates are the
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/// x-y coordinates in the plane of that boundary with the
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/// x-axis along the line from the (lexicographically)
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/// "lower left" to the "upper right" node. The y axis
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/// is obtained by taking the cross-product of the positive
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/// x direction with the outer unit normal computed by
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/// the face elements (or its negative if switch_normal is set
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/// to true). Doc faces in output file.
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void
setup_boundary_coordinates
(
const
unsigned
& b,
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const
bool
& switch_normal,
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std::ofstream& outfile);
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/// Access function to the number of distinct boundaries specified
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/// in the original xda enumeration.
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unsigned
nxda_boundary
()
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{
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return
Boundary_id
.size();
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}
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/// Access functions to the Vector of oomph-lib boundary ids
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/// that make up boundary b in the original xda enumeration
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Vector<unsigned>
oomph_lib_boundary_ids
(
const
unsigned
& xda_boundary_id)
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{
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return
Boundary_id
[xda_boundary_id];
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}
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private
:
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/// Vector of vectors containing the boundary IDs of
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/// the overall boundary specified in the xda file.
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Vector<Vector<unsigned>>
Boundary_id
;
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};
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/// /////////////////////////////////////////////////////////////////
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/// /////////////////////////////////////////////////////////////////
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/// /////////////////////////////////////////////////////////////////
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//==========================================================================
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/// Xda-based tet mesh upgraded to become a solid mesh.
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//=========================================================================
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template
<
class
ELEMENT>
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class
SolidXdaTetMesh
:
public
virtual
XdaTetMesh
<ELEMENT>,
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public
virtual
SolidMesh
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{
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public
:
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/// Constructor. Boundary coordinates are setup
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/// automatically.
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SolidXdaTetMesh
(
const
std::string xda_file_name,
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TimeStepper* time_stepper_pt = &Mesh::Default_TimeStepper)
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:
XdaTetMesh
<ELEMENT>(xda_file_name, time_stepper_pt)
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{
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// Assign the Lagrangian coordinates
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set_lagrangian_nodal_coordinates();
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}
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/// Empty Destructor
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virtual
~SolidXdaTetMesh
() {}
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};
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/// /////////////////////////////////////////////////////////////////
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/// /////////////////////////////////////////////////////////////////
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/// /////////////////////////////////////////////////////////////////
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}
// namespace oomph
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#endif
oomph::SolidXdaTetMesh
///////////////////////////////////////////////////////////////// ///////////////////////////////////...
Definition:
xda_tet_mesh.template.h:128
oomph::SolidXdaTetMesh::SolidXdaTetMesh
SolidXdaTetMesh(const std::string xda_file_name, TimeStepper *time_stepper_pt=&Mesh::Default_TimeStepper)
Constructor. Boundary coordinates are setup automatically.
Definition:
xda_tet_mesh.template.h:132
oomph::SolidXdaTetMesh::~SolidXdaTetMesh
virtual ~SolidXdaTetMesh()
Empty Destructor.
Definition:
xda_tet_mesh.template.h:142
oomph::XdaTetMesh
Tet mesh made of quadratic (ten node) tets built from xda input file.
Definition:
xda_tet_mesh.template.h:54
oomph::XdaTetMesh::Boundary_id
Vector< Vector< unsigned > > Boundary_id
Vector of vectors containing the boundary IDs of the overall boundary specified in the xda file.
Definition:
xda_tet_mesh.template.h:113
oomph::XdaTetMesh::setup_boundary_coordinates
void setup_boundary_coordinates(const unsigned &b, const bool &switch_normal)
Setup boundary coordinate on boundary b while is temporarily flattened to simplex faces....
Definition:
xda_tet_mesh.template.h:75
oomph::XdaTetMesh::XdaTetMesh
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...
Definition:
xda_tet_mesh.template.cc:46
oomph::XdaTetMesh::oomph_lib_boundary_ids
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 ...
Definition:
xda_tet_mesh.template.h:105
oomph::XdaTetMesh::nxda_boundary
unsigned nxda_boundary()
Access function to the number of distinct boundaries specified in the original xda enumeration.
Definition:
xda_tet_mesh.template.h:98
oomph
////////////////////////////////////////////////////////////////////// //////////////////////////////...
Definition:
annular_domain.h:35