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355 | /* *****************************************************************
MESQUITE -- The Mesh Quality Improvement Toolkit
Copyright 2004 Sandia Corporation and Argonne National
Laboratory. Under the terms of Contract DE-AC04-94AL85000
with Sandia Corporation, the U.S. Government retains certain
rights in this software.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public License
(lgpl.txt) along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
[email protected], [email protected], [email protected],
[email protected], [email protected], [email protected]
***************************************************************** */
// -*- Mode : c++; tab-width: 3; c-tab-always-indent: t; indent-tabs-mode: nil; c-basic-offset: 3
// -*-
//
// SUMMARY:
// USAGE:
//
// ORIG-DATE: 19-Feb-02 at 10:57:52
// LAST-MOD: 10-Feb-04 at 22:44:58 by Thomas Leurent
//
//
// DESCRIPTION:
// ============
/*! \file main.cpp
describe main.cpp here
*/
// DESCRIP-END.
//
// #define USE_IMESH
#include "Mesquite.hpp"
#ifdef USE_IMESH
#include "MsqIMesh.hpp"
#else
#include "MsqMOAB.hpp"
#endif
#include "MeshImpl.hpp"
#include "MsqError.hpp"
#include "InstructionQueue.hpp"
#include "TerminationCriterion.hpp"
#include "QualityAssessor.hpp"
#include "PlanarDomain.hpp"
#include "MeshWriter.hpp"
#include "TestUtil.hpp"
// algorithms
#include "IdealWeightInverseMeanRatio.hpp"
#include "EdgeLengthQualityMetric.hpp"
#include "LPtoPTemplate.hpp"
#include "FeasibleNewton.hpp"
#include "ConjugateGradient.hpp"
#include "SmartLaplacianSmoother.hpp"
#include <iostream>
using std::cerr;
using std::cout;
using std::endl;
#include "iBase.h"
using namespace MBMesquite;
std::string default_file_name = TestDir + "unittest/mesquite/3D/vtk/large_box_hex_1000.vtk";
void usage()
{
cout << "main [-N] [filename]" << endl;
cout << " -N : Use native representation instead of TSTT implementation\n";
cout << " If no file name is specified, will use \"" << default_file_name << '"' << endl;
exit( 1 );
}
// Construct a MeshTSTT from the file
Mesh* get_imesh_mesh( const char* file_name );
// Construct a MeshImpl from the file
Mesh* get_native_mesh( const char* file_name );
// Run FeasibleNewton solver
int run_global_smoother( Mesh* mesh, MsqError& err );
// Run SmoothLaplacian solver
int run_local_smoother( Mesh* mesh, MsqError& err );
int main( int argc, char* argv[] )
{
MBMesquite::MsqPrintError err( cout );
// command line arguments
const char* file_name = 0;
bool use_native = false, opts_done = false;
for( int arg = 1; arg < argc; ++arg )
{
if( !opts_done && argv[arg][0] == '-' )
{
if( !strcmp( argv[arg], "-N" ) )
use_native = true;
else if( !strcmp( argv[arg], "--" ) )
opts_done = true;
else
usage();
}
else if( !file_name )
file_name = argv[arg];
else
usage();
}
if( !file_name )
{
file_name = default_file_name.c_str();
cout << "No file specified: using default: " << default_file_name << endl;
}
// Try running a global smoother on the mesh
Mesh* mesh = use_native ? get_native_mesh( file_name ) : get_imesh_mesh( file_name );
if( !mesh )
{
std::cerr << "Failed to load input file. Aborting." << std::endl;
return 1;
}
MeshWriter::write_vtk( mesh, "original.vtk", err );
if( err ) return 1;
cout << "Wrote \"original.vtk\"" << endl;
run_global_smoother( mesh, err );
if( err ) return 1;
// Try running a local smoother on the mesh
mesh = use_native ? get_native_mesh( file_name ) : get_imesh_mesh( file_name );
if( !mesh )
{
std::cerr << "Failed to load input file. Aborting." << std::endl;
return 1;
}
run_local_smoother( mesh, err );
if( err ) return 1;
return 0;
}
int run_global_smoother( Mesh* mesh, MsqError& err )
{
double OF_value = 0.0001;
// creates an intruction queue
InstructionQueue queue1;
// creates a mean ratio quality metric ...
IdealWeightInverseMeanRatio* mean_ratio = new IdealWeightInverseMeanRatio( err );
if( err ) return 1;
mean_ratio->set_averaging_method( QualityMetric::SUM, err );
if( err ) return 1;
// ... and builds an objective function with it
LPtoPTemplate* obj_func = new LPtoPTemplate( mean_ratio, 1, err );
if( err ) return 1;<--- Assuming that condition 'err' is not redundant
// creates the feas newt optimization procedures
FeasibleNewton* pass1 = new FeasibleNewton( obj_func );
pass1->use_global_patch();
if( err ) return 1;<--- Condition 'err' is always false<--- Assuming that condition 'err' is not redundant
QualityAssessor stop_qa( mean_ratio );
// **************Set stopping criterion****************
TerminationCriterion tc_inner;
tc_inner.add_absolute_vertex_movement( OF_value );
if( err ) return 1;<--- Condition 'err' is always false
TerminationCriterion tc_outer;
tc_outer.add_iteration_limit( 1 );
pass1->set_inner_termination_criterion( &tc_inner );
pass1->set_outer_termination_criterion( &tc_outer );
queue1.add_quality_assessor( &stop_qa, err );
if( err ) return 1;
// adds 1 pass of pass1 to mesh_set1
queue1.set_master_quality_improver( pass1, err );
if( err ) return 1;
queue1.add_quality_assessor( &stop_qa, err );
if( err ) return 1;
// launches optimization on mesh_set
queue1.run_instructions( mesh, err );
if( err ) return 1;
MeshWriter::write_vtk( mesh, "feasible-newton-result.vtk", err );
if( err ) return 1;
cout << "Wrote \"feasible-newton-result.vtk\"" << endl;
// print_timing_diagnostics( cout );
return 0;
}
int run_local_smoother( Mesh* mesh, MsqError& err )
{
double OF_value = 0.0001;
// creates an intruction queue
InstructionQueue queue1;
// creates a mean ratio quality metric ...
IdealWeightInverseMeanRatio* mean_ratio = new IdealWeightInverseMeanRatio( err );
if( err ) return 1;
mean_ratio->set_averaging_method( QualityMetric::SUM, err );
if( err ) return 1;
// ... and builds an objective function with it
LPtoPTemplate* obj_func = new LPtoPTemplate( mean_ratio, 1, err );
if( err ) return 1;
// creates the smart laplacian optimization procedures
SmartLaplacianSmoother* pass1 = new SmartLaplacianSmoother( obj_func );
QualityAssessor stop_qa( mean_ratio );
// **************Set stopping criterion****************
TerminationCriterion tc_inner;
tc_inner.add_absolute_vertex_movement( OF_value );
TerminationCriterion tc_outer;
tc_outer.add_iteration_limit( 1 );
pass1->set_inner_termination_criterion( &tc_inner );
pass1->set_outer_termination_criterion( &tc_outer );
queue1.add_quality_assessor( &stop_qa, err );
if( err ) return 1;
// adds 1 pass of pass1 to mesh_set
queue1.set_master_quality_improver( pass1, err );
if( err ) return 1;
queue1.add_quality_assessor( &stop_qa, err );
if( err ) return 1;
// launches optimization on mesh_set
queue1.run_instructions( mesh, err );
if( err ) return 1;
MeshWriter::write_vtk( mesh, "smart-laplacian-result.vtk", err );
if( err ) return 1;
cout << "Wrote \"smart-laplacian-result.vtk\"" << endl;
// print_timing_diagnostics( cout );
return 0;
}
Mesh* get_imesh_mesh( const char* file_name )
{
#ifdef USE_IMESH
int ierr;
iMesh_Instance imesh_mesh = 0;
iMesh_newMesh( NULL, &imesh_mesh, &ierr, 0 );
if( iBase_SUCCESS != ierr )
{
return 0;
}
iBase_EntitySetHandle root_set;
iMesh_getRootSet( imesh_mesh, &root_set, &ierr );
if( iBase_SUCCESS != ierr )
{
iMesh_dtor( imesh_mesh, &ierr );
return 0;
}
iMesh_load( imesh_mesh, root_set, file_name, 0, &ierr, strlen( file_name ), 0 );
if( iBase_SUCCESS != ierr )
{
std::cerr << file_name << ": failed to load file." << std::endl;
iMesh_dtor( imesh_mesh, &ierr );
return 0;
}
iBase_TagHandle fixed_tag;
iMesh_getTagHandle( imesh_mesh, "fixed", &fixed_tag, &ierr, strlen( "fixed" ) );
if( iBase_SUCCESS != ierr )
{
iMesh_dtor( imesh_mesh, &ierr );
return 0;
}
MsqError err;
Mesh* result = new MBMesquite::MsqIMesh( imesh_mesh, root_set, iBase_REGION, err, &fixed_tag );
if( MSQ_CHKERR( err ) )
{
delete result;
cerr << err << endl;
return 0;
}
#else
moab::Core* mb = new( std::nothrow ) moab::Core;
if( NULL == mb ) return 0;
moab::ErrorCode rval;
// This file is in the mesh files directory
rval = mb->load_file( file_name );MB_CHK_SET_ERR_RET_VAL( rval, "Failed to read", 0 );
moab::Tag fixed_tag;
rval = mb->tag_get_handle( "fixed", fixed_tag );MB_CHK_SET_ERR_RET_VAL( rval, "Failed to create fixed tag", 0 );
moab::EntityHandle root_set = 0;
MsqError err;
Mesh* result = new MBMesquite::MsqMOAB( mb, root_set, moab::MBHEX, err, &fixed_tag );
if( MSQ_CHKERR( err ) )
{
delete result;
cerr << err << endl;
return 0;
}
#endif
return result;
}
Mesh* get_native_mesh( const char* file_name )
{
MsqError err;
MeshImpl* mesh = new MeshImpl;
if( !mesh )
{
cerr << "Failed during MeshImpl construction.\n";
exit( 2 );
}
mesh->read_vtk( file_name, err );
if( err )
{
cerr << err << endl;
exit( 3 );
}
return mesh;
}
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