Nektar++
Public Member Functions | Static Public Member Functions | Static Public Attributes | List of all members
Nektar::FieldUtils::ProcessMapping Class Reference

This processing module scales the input fld file. More...

#include <ProcessMapping.h>

Inheritance diagram for Nektar::FieldUtils::ProcessMapping:
[legend]

Public Member Functions

 ProcessMapping (FieldSharedPtr f)
 
virtual ~ProcessMapping ()
 
virtual void Process (po::variables_map &vm)
 Write mesh to output file. More...
 
virtual std::string GetModuleName ()
 
virtual std::string GetModuleDescription ()
 
virtual ModulePriority GetModulePriority ()
 
- Public Member Functions inherited from Nektar::FieldUtils::ProcessModule
 ProcessModule ()
 
 ProcessModule (FieldSharedPtr p_f)
 
- Public Member Functions inherited from Nektar::FieldUtils::Module
FIELD_UTILS_EXPORT Module (FieldSharedPtr p_f)
 
FIELD_UTILS_EXPORT void RegisterConfig (std::string key, std::string value="")
 Register a configuration option with a module. More...
 
FIELD_UTILS_EXPORT void PrintConfig ()
 Print out all configuration options for a module. More...
 
FIELD_UTILS_EXPORT void SetDefaults ()
 Sets default configuration options for those which have not been set. More...
 
FIELD_UTILS_EXPORT void EvaluateTriFieldAtEquiSpacedPts (LocalRegions::ExpansionSharedPtr &exp, const Array< OneD, const NekDouble > &infield, Array< OneD, NekDouble > &outfield)
 

Static Public Member Functions

static std::shared_ptr< Modulecreate (FieldSharedPtr f)
 Creates an instance of this class. More...
 
static GlobalMapping::MappingSharedPtr GetMapping (FieldSharedPtr f)
 

Static Public Attributes

static ModuleKey className
 

Additional Inherited Members

- Protected Member Functions inherited from Nektar::FieldUtils::Module
 Module ()
 
- Protected Attributes inherited from Nektar::FieldUtils::Module
FieldSharedPtr m_f
 Field object. More...
 
std::map< std::string, ConfigOptionm_config
 List of configuration values. More...
 

Detailed Description

This processing module scales the input fld file.

Definition at line 50 of file ProcessMapping.h.

Constructor & Destructor Documentation

◆ ProcessMapping()

Nektar::FieldUtils::ProcessMapping::ProcessMapping ( FieldSharedPtr  f)

Definition at line 55 of file ProcessMapping.cpp.

55  : ProcessModule(f)
56 {
57 }

◆ ~ProcessMapping()

Nektar::FieldUtils::ProcessMapping::~ProcessMapping ( )
virtual

Definition at line 59 of file ProcessMapping.cpp.

60 {
61 }

Member Function Documentation

◆ create()

static std::shared_ptr<Module> Nektar::FieldUtils::ProcessMapping::create ( FieldSharedPtr  f)
inlinestatic

Creates an instance of this class.

Definition at line 54 of file ProcessMapping.h.

References Nektar::MemoryManager< DataType >::AllocateSharedPtr().

55  {
56  return MemoryManager<ProcessMapping>::AllocateSharedPtr(f);
57  }
Nektar::MemoryManager::AllocateSharedPtr
static std::shared_ptr< DataType > AllocateSharedPtr(const Args &...args)
Allocate a shared pointer from the memory pool.
Definition: NekMemoryManager.hpp:161

◆ GetMapping()

GlobalMapping::MappingSharedPtr Nektar::FieldUtils::ProcessMapping::GetMapping ( FieldSharedPtr  f)
static

Definition at line 155 of file ProcessMapping.cpp.

References ASSERTL0, Nektar::StdRegions::find(), Nektar::GlobalMapping::Mapping::Load(), Nektar::GlobalMapping::MappingSharedPtr, and Vmath::Vcopy().

Referenced by GetModulePriority(), Nektar::FieldUtils::ProcessVorticity::Process(), Nektar::FieldUtils::ProcessGrad::Process(), and Process().

156 {
157  // Create mapping object
158  Array<OneD, MultiRegions::ExpListSharedPtr> field(1);
159  field[0] = f->m_exp[0];
160  GlobalMapping::MappingSharedPtr mapping =
161  GlobalMapping::Mapping::Load(f->m_session, field);
162 
163  // Get time from metadata
164  NekDouble time;
165  if (f->m_fieldMetaDataMap.count("Time"))
166  {
167  string s_time = f->m_fieldMetaDataMap["Time"];
168  time = atof(s_time.c_str());
169  }
170  else
171  {
172  time = 0.0;
173  }
174 
175  // Get field information
176  int npoints = f->m_exp[0]->GetNpoints();
177  int expdim = f->m_graph->GetMeshDimension();
178  int spacedim = expdim + f->m_numHomogeneousDir;
179 
180  // Declare coordinates storage
181  Array<OneD, Array<OneD, NekDouble> > coords_new(3);
182  Array<OneD, Array<OneD, NekDouble> > coords_vel(3);
183  for (int i = 0; i < 3; i++)
184  {
185  coords_new[i] = Array<OneD, NekDouble>(npoints);
186  coords_vel[i] = Array<OneD, NekDouble>(npoints, 0.0);
187  }
188 
189  string fieldNames[3] = {"x", "y", "z"};
190  string velFieldNames[3] = {"vx", "vy", "vz"};
191 
192  // Evaluate coordinates and coordinates velocity
193  if (f->m_fieldMetaDataMap.count("MappingType"))
194  {
195  if (f->m_fieldMetaDataMap["MappingType"] == "Expression")
196  {
197  // Get name of the functions
198  string funcName;
199  string velFuncName;
200  if (f->m_fieldMetaDataMap.count("MappingExpression"))
201  {
202  funcName = f->m_fieldMetaDataMap["MappingExpression"];
203  }
204  else
205  {
206  funcName = "";
207  }
208  if (f->m_fieldMetaDataMap.count("MappingVelExpression"))
209  {
210  velFuncName = f->m_fieldMetaDataMap["MappingVelExpression"];
211  }
212  else
213  {
214  velFuncName = "";
215  }
216 
217  // Get original coordinates (in case some of them are not changed)
218  Array<OneD, Array<OneD, NekDouble> > coords(3);
219  for (int i = 0; i < 3; i++)
220  {
221  coords[i] = Array<OneD, NekDouble>(npoints);
222  }
223  f->m_exp[0]->GetCoords(coords[0], coords[1], coords[2]);
224 
225  // Load coordinates
226  std::string s_FieldStr;
227  for (int i = 0; i < 3; i++)
228  {
229  s_FieldStr = fieldNames[i];
230  if (f->m_session->DefinesFunction(funcName, s_FieldStr))
231  {
232  LibUtilities::EquationSharedPtr ffunc =
233  f->m_session->GetFunction(funcName, s_FieldStr);
234  ffunc->Evaluate(coords[0], coords[1], coords[2], time,
235  coords_new[i]);
236  }
237  else
238  {
239  // This coordinate is not defined, so use (x^i)' = x^i
240  Vmath::Vcopy(npoints, coords[i], 1, coords_new[i], 1);
241  }
242  }
243  // Load velocities
244  if (f->m_session->DefinesFunction(velFuncName))
245  {
246  for (int i = 0; i < 3; i++)
247  {
248  s_FieldStr = velFieldNames[i];
249  if (f->m_session->DefinesFunction(velFuncName, s_FieldStr))
250  {
251  LibUtilities::EquationSharedPtr ffunc =
252  f->m_session->GetFunction(velFuncName, s_FieldStr);
253  ffunc->Evaluate(coords[0], coords[1], coords[2], time,
254  coords_vel[i]);
255  }
256  }
257  }
258 
259  // Update mapping with coordinates
260  mapping->SetFromFunction(false);
261  mapping->UpdateMapping(time, coords_new, coords_vel);
262  }
263  else if (f->m_fieldMetaDataMap["MappingType"] == "File")
264  {
265  ASSERTL0(f->m_fieldMetaDataMap.count("FileName"),
266  "FileName parameter for Mapping missing in field file.");
267  string fileName = f->m_fieldMetaDataMap["FileName"];
268  std::vector<LibUtilities::FieldDefinitionsSharedPtr> FieldDef;
269  std::vector<std::vector<NekDouble> > FieldData;
270 
271  f->FieldIOForFile(fileName)->Import(fileName, FieldDef, FieldData);
272 
273  for (int j = 0; j < spacedim; ++j)
274  {
275  int ncoeffs = f->m_exp[0]->GetNcoeffs();
276  Array<OneD, NekDouble> fieldcoeffs(ncoeffs, 0.0);
277  for (int i = 0; i < FieldData.size(); ++i)
278  {
279  f->m_exp[j]->ExtractDataToCoeffs(
280  FieldDef[i], FieldData[i], fieldNames[j], fieldcoeffs);
281  }
282  bool wavespace = f->m_exp[0]->GetWaveSpace();
283  f->m_exp[0]->SetWaveSpace(false);
284 
285  f->m_exp[0]->BwdTrans(fieldcoeffs, coords_new[j]);
286 
287  // Load coordinate velocity
288  if (std::find(FieldDef[0]->m_fields.begin(),
289  FieldDef[0]->m_fields.end(),
290  velFieldNames[j]) != FieldDef[0]->m_fields.end())
291  {
292  for (int i = 0; i < FieldData.size(); ++i)
293  {
294  f->m_exp[j]->ExtractDataToCoeffs(
295  FieldDef[i], FieldData[i], velFieldNames[j],
296  fieldcoeffs);
297  }
298  f->m_exp[0]->BwdTrans(fieldcoeffs, coords_vel[j]);
299  }
300  f->m_exp[0]->SetWaveSpace(wavespace);
301  }
302  // Update mapping with coordinates
303  mapping->SetFromFunction(false);
304  mapping->UpdateMapping(time, coords_new, coords_vel);
305  }
306  }
307  else
308  {
309  // Use trivial mapping
310  Array<OneD, Array<OneD, NekDouble> > coords(3);
311  Array<OneD, Array<OneD, NekDouble> > coords_vel(3);
312  for (int i = 0; i < 3; i++)
313  {
314  coords[i] = Array<OneD, NekDouble>(npoints);
315  coords_vel[i] = Array<OneD, NekDouble>(npoints, 0.0);
316  }
317  f->m_exp[0]->GetCoords(coords[0], coords[1], coords[2]);
318  mapping->SetFromFunction(false);
319  mapping->UpdateMapping(time, coords, coords_vel);
320  }
321 
322  return mapping;
323 }
ASSERTL0
#define ASSERTL0(condition, msg)
Definition: ErrorUtil.hpp:216
Nektar::NekDouble
double NekDouble
Definition: NektarUnivTypeDefs.hpp:43
Nektar::LibUtilities::EquationSharedPtr
std::shared_ptr< Equation > EquationSharedPtr
Definition: Equation.h:131
Nektar::StdRegions::find
InputIterator find(InputIterator first, InputIterator last, InputIterator startingpoint, const EqualityComparable &value)
Definition: StdRegions.hpp:358
Nektar::GlobalMapping::MappingSharedPtr
GLOBAL_MAPPING_EXPORT typedef std::shared_ptr< Mapping > MappingSharedPtr
A shared pointer to a Mapping object.
Definition: Mapping.h:50
Vmath::Vcopy
void Vcopy(int n, const T *x, const int incx, T *y, const int incy)
Definition: Vmath.cpp:1064
Nektar::GlobalMapping::Mapping::Load
static GLOBAL_MAPPING_EXPORT MappingSharedPtr Load(const LibUtilities::SessionReaderSharedPtr &pSession, const Array< OneD, MultiRegions::ExpListSharedPtr > &pFields)
Return a pointer to the mapping, creating it on first call.
Definition: Mapping.cpp:268

◆ GetModuleDescription()

virtual std::string Nektar::FieldUtils::ProcessMapping::GetModuleDescription ( )
inlinevirtual

Reimplemented from Nektar::FieldUtils::Module.

Definition at line 71 of file ProcessMapping.h.

72  {
73  return "Applying mapping to field";
74  }

◆ GetModuleName()

virtual std::string Nektar::FieldUtils::ProcessMapping::GetModuleName ( )
inlinevirtual

Implements Nektar::FieldUtils::Module.

Definition at line 66 of file ProcessMapping.h.

67  {
68  return "ProcessMapping";
69  }

◆ GetModulePriority()

virtual ModulePriority Nektar::FieldUtils::ProcessMapping::GetModulePriority ( )
inlinevirtual

Implements Nektar::FieldUtils::Module.

Definition at line 76 of file ProcessMapping.h.

References Nektar::FieldUtils::eModifyExp, GetMapping(), and Nektar::GlobalMapping::MappingSharedPtr.

77  {
78  return eModifyExp;
79  }

◆ Process()

void Nektar::FieldUtils::ProcessMapping::Process ( po::variables_map &  vm)
virtual

Write mesh to output file.

Implements Nektar::FieldUtils::Module.

Definition at line 63 of file ProcessMapping.cpp.

References GetMapping(), Nektar::FieldUtils::Module::m_f, Nektar::GlobalMapping::MappingSharedPtr, and Vmath::Vcopy().

64 {
65  boost::ignore_unused(vm);
66 
67  // Determine dimensions of mesh, solution, etc...
68  int npoints = m_f->m_exp[0]->GetNpoints();
69  int expdim = m_f->m_graph->GetMeshDimension();
70  int spacedim = expdim;
71  if ((m_f->m_numHomogeneousDir) == 1 || (m_f->m_numHomogeneousDir) == 2)
72  {
73  spacedim = 3;
74  }
75  int nfields = m_f->m_variables.size();
76  int addfields = expdim;
77 
78  string fieldNames[3] = {"xCoord", "yCoord", "zCoord"};
79  for (int i = 0; i < addfields; ++i)
80  {
81  m_f->m_variables.push_back(fieldNames[i]);
82  }
83 
84  // Skip in case of empty partition
85  if (m_f->m_exp[0]->GetNumElmts() == 0)
86  {
87  return;
88  }
89 
90  m_f->m_exp.resize(nfields + addfields);
91 
92  // Load mapping
93  GlobalMapping::MappingSharedPtr mapping = GetMapping(m_f);
94 
95  // Convert velocity to Cartesian system
96  if (m_f->m_fieldMetaDataMap.count("MappingCartesianVel"))
97  {
98  if (m_f->m_fieldMetaDataMap["MappingCartesianVel"] == "False")
99  {
100  m_f->m_fieldMetaDataMap["MappingCartesianVel"] = "True";
101 
102  Array<OneD, Array<OneD, NekDouble> > vel(spacedim);
103  // Initialize arrays and copy velocity
104  for (int i = 0; i < spacedim; ++i)
105  {
106  vel[i] = Array<OneD, NekDouble>(npoints);
107  if (m_f->m_exp[0]->GetWaveSpace())
108  {
109  m_f->m_exp[0]->HomogeneousBwdTrans(m_f->m_exp[i]->GetPhys(),
110  vel[i]);
111  }
112  else
113  {
114  Vmath::Vcopy(npoints, m_f->m_exp[i]->GetPhys(), 1, vel[i],
115  1);
116  }
117  }
118  // Convert velocity to cartesian system
119  mapping->ContravarToCartesian(vel, vel);
120  // Copy result back
121  for (int i = 0; i < spacedim; ++i)
122  {
123  if (m_f->m_exp[0]->GetWaveSpace())
124  {
125  m_f->m_exp[0]->HomogeneousFwdTrans(
126  vel[i], m_f->m_exp[i]->UpdatePhys());
127  }
128  else
129  {
130  Vmath::Vcopy(npoints, vel[i], 1,
131  m_f->m_exp[i]->UpdatePhys(), 1);
132  }
133  m_f->m_exp[i]->FwdTrans_IterPerExp(
134  m_f->m_exp[i]->GetPhys(), m_f->m_exp[i]->UpdateCoeffs());
135  }
136  }
137  }
138 
139  // Get coordinates from mapping
140  Array<OneD, Array<OneD, NekDouble> > coords(3);
141  mapping->GetCartesianCoordinates(coords[0], coords[1], coords[2]);
142 
143  // Add new information to m_f
144  for (int i = 0; i < addfields; ++i)
145  {
146  m_f->m_exp[nfields + i] =
147  m_f->AppendExpList(m_f->m_numHomogeneousDir);
148  Vmath::Vcopy(npoints, coords[i], 1,
149  m_f->m_exp[nfields + i]->UpdatePhys(), 1);
150  m_f->m_exp[nfields + i]->FwdTrans_IterPerExp(
151  coords[i], m_f->m_exp[nfields + i]->UpdateCoeffs());
152  }
153 }
Nektar::FieldUtils::ProcessMapping::GetMapping
static GlobalMapping::MappingSharedPtr GetMapping(FieldSharedPtr f)
Definition: ProcessMapping.cpp:155
Nektar::GlobalMapping::MappingSharedPtr
GLOBAL_MAPPING_EXPORT typedef std::shared_ptr< Mapping > MappingSharedPtr
A shared pointer to a Mapping object.
Definition: Mapping.h:50
Vmath::Vcopy
void Vcopy(int n, const T *x, const int incx, T *y, const int incy)
Definition: Vmath.cpp:1064
Nektar::FieldUtils::Module::m_f
FieldSharedPtr m_f
Field object.
Definition: FieldUtils/Module.h:209

Member Data Documentation

◆ className

ModuleKey Nektar::FieldUtils::ProcessMapping::className
static
Initial value:
=
GetModuleFactory().RegisterCreatorFunction(
ModuleKey(eProcessModule, "mapping"),
ProcessMapping::create,
"Add mapping coordinates to output file.")

Definition at line 58 of file ProcessMapping.h.

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