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solvers
VortexWaveInteraction
VortexWaveInteractionSolver.cpp
Go to the documentation of this file.
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///////////////////////////////////////////////////////////////////////////////
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//
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// File VortexWaveInteractionSolver.cpp
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//
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// For more information, please see: http://www.nektar.info
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//
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// The MIT License
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//
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// Copyright (c) 2006 Division of Applied Mathematics, Brown University (USA),
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// Department of Aeronautics, Imperial College London (UK), and Scientific
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// Computing and Imaging Institute, University of Utah (USA).
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//
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// License for the specific language governing rights and limitations under
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// Permission is hereby granted, free of charge, to any person obtaining a
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// copy of this software and associated documentation files (the "Software"),
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// to deal in the Software without restriction, including without limitation
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// the rights to use, copy, modify, merge, publish, distribute, sublicense,
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// and/or sell copies of the Software, and to permit persons to whom the
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// Software is furnished to do so, subject to the following conditions:
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//
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// The above copyright notice and this permission notice shall be included
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// in all copies or substantial portions of the Software.
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//
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// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
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// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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// THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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// DEALINGS IN THE SOFTWARE.
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//
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// Description: Vortex Wave Interaction solver
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//
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///////////////////////////////////////////////////////////////////////////////
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#include<
VortexWaveInteraction/VortexWaveInteraction.h
>
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using namespace
Nektar;
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#if defined(_MSC_VER) && BOOST_VERSION > 104700
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#include <windows.h>
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#undef MoveFile
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#endif
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void
DoFixedForcingIteration
(
VortexWaveInteraction
&vwi);
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void
Mvdir
(
string
dir,
NekDouble
dir_ending);
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int
main
(
int
argc,
char
*argv[])
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{
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try
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{
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VortexWaveInteraction
vwi(argc,argv);
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for
(
int
i = 0; i < vwi.
GetMaxWaveForceMagIter
(); ++i)
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{
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DoFixedForcingIteration
(vwi);
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NekDouble
WaveForce = vwi.
GetWaveForceMag
();
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vwi.
AppendEvlToFile
(
"ConvergedSolns"
,WaveForce);
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vwi.
SetWaveForceMag
(WaveForce + vwi.
GetWaveForceMagStep
());
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vwi.
SetPrevAlpha
(vwi.
GetAlpha
());
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//vwi.SetAlpha(vwi.GetAlpha() + vwi.GetDAlphaDWaveForceMag()*vwi.GetWaveForceMagStep());
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vwi.
SetAlpha
(vwi.
GetAlpha
() + (vwi.
GetWaveForceMagStep
() > 0?vwi.
GetAlphaStep
():(-vwi.
GetAlphaStep
())));
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// Save data directories.
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if
(vwi.
GetVWIIterationType
() ==
eFixedAlphaWaveForcing
)
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{
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Mvdir
(
"Save"
,WaveForce);
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}
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else
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{
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Mvdir
(
"Save_Outer"
,WaveForce);
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// Execute Another loop so that not same initial conditions as last iteration
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vwi.
ExecuteLoop
();
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}
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}
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}
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catch
(
const
std::runtime_error&)
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{
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return
1;
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}
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catch
(
const
std::string& eStr)
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{
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cout <<
"Error: "
<< eStr << endl;
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}
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}
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void
Mvdir
(
string
dir,
NekDouble
dir_ending)
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{
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// save OuterIter.his if exists
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string
saveOuterIter =
"mv -f OuterIter.his "
+ dir;
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if
(system(saveOuterIter.c_str()))
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{
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ASSERTL0
(
false
,saveOuterIter.c_str());
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}
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// Mv directory
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string
newdir = dir + boost::lexical_cast<std::string>(dir_ending);
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string
syscall =
"mv -f "
+ dir +
" "
+ newdir;
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if
(system(syscall.c_str()))
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{
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ASSERTL0
(
false
,syscall.c_str());
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}
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// make new directory
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syscall =
"mkdir "
+ dir;
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system(syscall.c_str());
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}
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void
DoFixedForcingIteration
(
VortexWaveInteraction
&vwi)
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{
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// Reset eigenvalue checker in case used in previous iterations
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vwi.
CheckEigIsStationary
(
true
);
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switch
(vwi.
GetVWIIterationType
())
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{
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case
eFixedAlpha
:
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{
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int
i;
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int
nouter_iter = vwi.
GetNOuterIterations
();
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bool
exit_iteration =
false
;
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while
(exit_iteration ==
false
)
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{
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// Reset eigenvalue checker in case used in previous iterations
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vwi.
CheckEigIsStationary
(
true
);
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for
(i = vwi.
GetIterStart
(); i < vwi.
GetIterEnd
(); ++i)
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{
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vwi.
ExecuteLoop
();
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vwi.
SaveLoopDetails
(
"Save"
, i);
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vwi.
AppendEvlToFile
(
"conv.his"
,i);
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if
(vwi.
CheckEigIsStationary
())
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{
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vwi.
SaveLoopDetails
(
"Save_Outer"
, nouter_iter);
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break
;
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}
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}
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// check to see if growth was converged.
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if
(i == vwi.
GetIterEnd
())
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{
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cout <<
"Failed to converge growth rate in"
<<
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" inner iteration after "
<< vwi.
GetIterEnd
()
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<<
" loops"
<< endl;
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exit(1);
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}
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vwi.
AppendEvlToFile
(
"OuterIter.his"
,nouter_iter++);
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exit_iteration = vwi.
CheckIfAtNeutralPoint
();
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if
(exit_iteration ==
false
)
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{
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vwi.
UpdateWaveForceMag
(nouter_iter);
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}
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if
(nouter_iter >= vwi.
GetMaxOuterIterations
())
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{
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cerr <<
"Failed to converge after "
<< vwi.
GetMaxOuterIterations
() <<
" outer iterations"
<< endl;
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exit_iteration =
true
;
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}
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}
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}
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case
eFixedWaveForcing
:
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{
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int
i;
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int
nouter_iter = vwi.
GetNOuterIterations
();
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bool
exit_iteration =
false
;
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NekDouble
saveEigRelTol = vwi.
GetEigRelTol
();
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int
saveMinIters = vwi.
GetMinInnerIterations
();
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int
init_search = 0;
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if
(init_search)
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{
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// initial set m_eigelTol to 1e-1 and inner iterations to 1 for
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// quick search
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vwi.
SetEigRelTol
(1e-1);
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vwi.
SetMinInnerIterations
(2);
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}
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while
(exit_iteration ==
false
)
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{
191
// Reset eigenvalue checker in case used in previous iterations
192
vwi.
CheckEigIsStationary
(
true
);
193
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for
(i = vwi.
GetIterStart
(); i < vwi.
GetIterEnd
(); ++i)
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{
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vwi.
ExecuteLoop
();
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vwi.
SaveLoopDetails
(
"Save"
, i);
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vwi.
AppendEvlToFile
(
"conv.his"
,i);
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200
if
(vwi.
CheckEigIsStationary
())
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{
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vwi.
SaveLoopDetails
(
"Save_Outer"
, nouter_iter);
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break
;
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}
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}
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// check to see if growth was converged.
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if
(i == vwi.
GetIterEnd
() )
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{
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cout <<
"Failed to converge growth rate in"
<<
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" inner iteration after "
<< vwi.
GetIterEnd
()
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<<
" loops"
<< endl;
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exit(1);
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}
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vwi.
AppendEvlToFile
(
"OuterIter.his"
,nouter_iter++);
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exit_iteration = vwi.
CheckIfAtNeutralPoint
();
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cout <<
"m_alpha[0] is "
<< vwi.
GetAlpha
() << endl;
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if
(exit_iteration ==
false
)
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{
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vwi.
UpdateAlpha
(nouter_iter);
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if
(vwi.
IfIterInterface
()==
true
)
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{
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vwi.
CalcNonLinearWaveForce
();
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}
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}
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// Redo iteration if at first coarse search
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if
((exit_iteration ==
true
) && (init_search == 1))
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{
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init_search = 0;
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vwi.
SetEigRelTol
(saveEigRelTol);
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vwi.
SetMinInnerIterations
(saveMinIters);
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nouter_iter = 1;
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exit_iteration =
false
;
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}
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if
(nouter_iter >= vwi.
GetMaxOuterIterations
())
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{
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cerr <<
"Failed to converge after "
<< vwi.
GetMaxOuterIterations
() <<
" outer iterations"
<< endl;
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exit_iteration =
true
;
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}
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}
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vwi.
UpdateDAlphaDWaveForceMag
(vwi.
GetPrevAlpha
());
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}
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break
;
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case
eFixedAlphaWaveForcing
:
253
254
for
(
int
i = vwi.
GetIterStart
(); i < vwi.
GetIterEnd
(); ++i)
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{
256
vwi.
ExecuteLoop
();
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vwi.
SaveLoopDetails
(
"Save"
,i);
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vwi.
AppendEvlToFile
(
"conv.his"
,i);
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}
260
break
;
261
case
eFixedWaveForcingWithSubIterationOnAlpha
:
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{
263
int
i;
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int
nouter_iter = vwi.
GetNOuterIterations
();
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bool
exit_iteration =
false
;
266
267
while
(exit_iteration ==
false
)
268
{
269
bool
exit_alphaIter =
false
;
270
271
vwi.
ExecuteLoop
(
false
);
272
273
// Sub iterate Alpha
274
for
(i = 0; i < vwi.
GetIterEnd
(); ++i)
275
{
276
vwi.
SaveLoopDetails
(
"Save"
, i);
277
278
vwi.
AppendEvlToFile
(
"AlphaIter.his"
,i);
279
280
exit_alphaIter = vwi.
CheckIfAtNeutralPoint
();
281
if
(exit_alphaIter ==
false
)
282
{
283
vwi.
UpdateAlpha
(i+1);
284
vwi.
ExecuteWave
();
285
}
286
else
287
{
288
vwi.
CalcNonLinearWaveForce
();
289
break
;
290
}
291
}
292
293
// check to see if growth was converged.
294
if
(i == vwi.
GetIterEnd
())
295
{
296
cout <<
"Failed to converge growth rate in"
<<
297
" inner iteration after "
<< vwi.
GetIterEnd
()
298
<<
" loops"
<< endl;
299
exit(1);
300
}
301
302
vwi.
MoveFile
(
"AlphaIter.his"
,
"Save_Outer"
, nouter_iter);
303
vwi.
SaveLoopDetails
(
"Save_Outer"
, nouter_iter);
304
vwi.
AppendEvlToFile
(
"OuterIter.his"
,nouter_iter++);
305
306
// assume that if only previous inner loop has
307
// only done one iteration then we are at neutral
308
// point
309
if
(i == 0 && vwi.
IfIterInterface
()==
false
)
310
{
311
exit_iteration =
true
;
312
}
313
314
315
if
(nouter_iter >= vwi.
GetMaxOuterIterations
())
316
{
317
cerr <<
"Failed to converge after "
<< vwi.
GetMaxOuterIterations
() <<
" outer iterations"
<< endl;
318
exit_iteration =
true
;
319
}
320
}
321
}
322
break
;
323
default
:
324
ASSERTL0
(
false
,
"Unknown iteration type"
);
325
}
326
327
}
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