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FilterThresholdMin.cpp
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2 //
3 // File FilterThresholdMin.cpp
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9 // Copyright (c) 2006 Division of Applied Mathematics, Brown University (USA),
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31 //
32 // Description: Outputs time when solution first drops below a threshold value.
33 //
34 ///////////////////////////////////////////////////////////////////////////////
35 
37 
38 using namespace std;
39 
40 namespace Nektar
41 {
42 namespace SolverUtils
43 {
44 
45 std::string FilterThresholdMin::className =
47  "ThresholdMin", FilterThresholdMin::create);
48 
49 
50 /**
51  *
52  */
53 FilterThresholdMin::FilterThresholdMin(
55  const ParamMap &pParams)
56  : Filter(pSession)
57 {
58  ParamMap::const_iterator it;
59 
60  // ThresholdValue
61  it = pParams.find("ThresholdValue");
62  ASSERTL0(it != pParams.end(), "Missing parameter 'ThresholdValue'.");
63  LibUtilities::Equation equ1(m_session, it->second);
64  m_thresholdValue = equ1.Evaluate();
65 
66  // InitialValue
67  it = pParams.find("InitialValue");
68  ASSERTL0(it != pParams.end(), "Missing parameter 'InitialValue'.");
69  LibUtilities::Equation equ2(m_session, it->second);
70  m_initialValue = equ2.Evaluate();
71 
72  // StartTime
73  it = pParams.find("StartTime");
74  m_startTime = 0.0;
75  if (it != pParams.end())
76  {
77  LibUtilities::Equation equ(m_session, it->second);
78  m_startTime = equ.Evaluate();
79  }
80 
81  // OutputFile
82  it = pParams.find("OutputFile");
83  m_outputFile = pSession->GetSessionName() + "_max.fld";
84  if (it != pParams.end())
85  {
86  m_outputFile = it->second;
87  }
88 
89  // ThresholdVar
90  it = pParams.find("ThresholdVar");
91  m_thresholdVar = 0;
92  if (it != pParams.end())
93  {
94  std::string var = it->second.c_str();
95  std::vector<string> varlist = pSession->GetVariables();
96  std::vector<string>::const_iterator x;
97  ASSERTL0((x=std::find(varlist.begin(), varlist.end(), var))
98  != varlist.end(),
99  "Specified variable " + var +
100  " in ThresholdMin filter is not available.");
101  m_thresholdVar = x - varlist.begin();
102  }
103 
105  ::AllocateSharedPtr(pSession->GetComm());
106 }
107 
108 
109 /**
110  *
111  */
113 {
114 
115 }
116 
117 
118 /**
119  *
120  */
123  const NekDouble &time)
124 {
126  pFields[m_thresholdVar]->GetNpoints(), m_initialValue);
127 }
128 
129 
130 /**
131  *
132  */
135  const NekDouble &time)
136 {
137  if (time < m_startTime)
138  {
139  return;
140  }
141 
142  int i;
143  NekDouble timestep = pFields[m_thresholdVar]->GetSession()->GetParameter("TimeStep");
144 
145  for (i = 0; i < pFields[m_thresholdVar]->GetNpoints(); ++i)
146  {
147  if (m_threshold[i] < timestep &&
148  pFields[m_thresholdVar]->GetPhys()[i] > m_thresholdValue)
149  {
150  m_threshold[i] = time;
151  }
152  }
153 }
154 
155 
156 /**
157  *
158  */
161  const NekDouble &time)
162 {
163  std::stringstream vOutputFilename;
164  vOutputFilename << m_outputFile << ".fld";
165 
166  std::vector<LibUtilities::FieldDefinitionsSharedPtr> FieldDef
167  = pFields[0]->GetFieldDefinitions();
168  std::vector<std::vector<NekDouble> > FieldData(FieldDef.size());
169 
170  Array<OneD, NekDouble> vCoeffs(pFields[0]->GetNcoeffs());
171  pFields[0]->FwdTrans_IterPerExp(m_threshold, vCoeffs);
172 
173  // copy Data into FieldData and set variable
174  for(int i = 0; i < FieldDef.size(); ++i)
175  {
176  // Could do a search here to find correct variable
177  FieldDef[i]->m_fields.push_back("m");
178  pFields[0]->AppendFieldData(FieldDef[i], FieldData[i], vCoeffs);
179  }
180 
181  m_fld->Write(vOutputFilename.str(),FieldDef,FieldData);
182 }
183 
184 
185 /**
186  *
187  */
189 {
190  return true;
191 }
192 
193 }
194 }
#define ASSERTL0(condition, msg)
Definition: ErrorUtil.hpp:188
NekDouble m_startTime
Time at which to start recording.
static boost::shared_ptr< DataType > AllocateSharedPtr()
Allocate a shared pointer from the memory pool.
STL namespace.
virtual SOLVER_UTILS_EXPORT void v_Initialise(const Array< OneD, const MultiRegions::ExpListSharedPtr > &pFields, const NekDouble &time)
Initialises the filter.
boost::shared_ptr< SessionReader > SessionReaderSharedPtr
Definition: MeshPartition.h:51
virtual SOLVER_UTILS_EXPORT bool v_IsTimeDependent()
Indicate that this filter is time dependent.
NekDouble m_thresholdValue
Value of threshold.
NekDouble Evaluate() const
Definition: Equation.h:102
int m_thresholdVar
Variable on which to detect threshold.
double NekDouble
NekDouble m_initialValue
Initial value of storage.
std::map< std::string, std::string > ParamMap
Definition: Filter.h:67
LibUtilities::SessionReaderSharedPtr m_session
Definition: Filter.h:84
std::string m_outputFile
File into which to write output data.
virtual SOLVER_UTILS_EXPORT ~FilterThresholdMin()
virtual SOLVER_UTILS_EXPORT void v_Update(const Array< OneD, const MultiRegions::ExpListSharedPtr > &pFields, const NekDouble &time)
For each point in domain test if solution is below threshold.
LibUtilities::FieldIOSharedPtr m_fld
FieldIO object for writing data.
virtual SOLVER_UTILS_EXPORT void v_Finalise(const Array< OneD, const MultiRegions::ExpListSharedPtr > &pFields, const NekDouble &time)
Finalise the filter and write out data.
InputIterator find(InputIterator first, InputIterator last, InputIterator startingpoint, const EqualityComparable &value)
Definition: StdRegions.hpp:315
FilterFactory & GetFilterFactory()
Definition: Filter.cpp:42
Array< OneD, NekDouble > m_threshold
Storage for recording when each point in domain drops below threshold.
tKey RegisterCreatorFunction(tKey idKey, CreatorFunction classCreator, tDescription pDesc="")
Register a class with the factory.
Definition: NekFactory.hpp:215