Chaste  Release::2017.1
BidomainTissue.cpp
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35 
36 #include "BidomainTissue.hpp"
37 
38 #include "DistributedVector.hpp"
39 #include "AxisymmetricConductivityTensors.hpp"
40 #include "OrthotropicConductivityTensors.hpp"
41 #include "ChastePoint.hpp"
42 #include "AbstractChasteRegion.hpp"
43 
44 template <unsigned SPACE_DIM>
45 BidomainTissue<SPACE_DIM>::BidomainTissue(
46  AbstractCardiacCellFactory<SPACE_DIM>* pCellFactory,
47  bool exchangeHalos)
48  : AbstractCardiacTissue<SPACE_DIM>(pCellFactory, exchangeHalos)
49 {
50  CreateExtracellularConductivityTensors();
51 }
52 
53 template <unsigned SPACE_DIM>
54 BidomainTissue<SPACE_DIM>::BidomainTissue(AbstractTetrahedralMesh<SPACE_DIM,SPACE_DIM>* pMesh)
55  : AbstractCardiacTissue<SPACE_DIM>(pMesh)
56 {
57  CreateExtracellularConductivityTensors();
58 }
59 
60 template <unsigned SPACE_DIM>
61 void BidomainTissue<SPACE_DIM>::CreateExtracellularConductivityTensors()
62 {
63  if (this->mpConfig->IsMeshProvided() && this->mpConfig->GetLoadMesh())
64  {
65  assert(this->mFibreFilePathNoExtension != "");
66 
67  switch (this->mpConfig->GetConductivityMedia())
68  {
69  case cp::media_type::Orthotropic:
70  {
71  mpExtracellularConductivityTensors = new OrthotropicConductivityTensors<SPACE_DIM,SPACE_DIM>;
72  FileFinder ortho_file(this->mFibreFilePathNoExtension + ".ortho", RelativeTo::AbsoluteOrCwd);
73  assert(ortho_file.Exists());
74  mpExtracellularConductivityTensors->SetFibreOrientationFile(ortho_file);
75  break;
76  }
77 
78  case cp::media_type::Axisymmetric:
79  {
80  mpExtracellularConductivityTensors = new AxisymmetricConductivityTensors<SPACE_DIM,SPACE_DIM>;
81  FileFinder axi_file(this->mFibreFilePathNoExtension + ".axi", RelativeTo::AbsoluteOrCwd);
82  assert(axi_file.Exists());
83  mpExtracellularConductivityTensors->SetFibreOrientationFile(axi_file);
84  break;
85  }
86 
87  case cp::media_type::NoFibreOrientation:
88  mpExtracellularConductivityTensors = new OrthotropicConductivityTensors<SPACE_DIM,SPACE_DIM>;
89  break;
90 
91  default :
92  NEVER_REACHED;
93  }
94  }
95  else // Slab defined in config file or SetMesh() called; no fibre orientation assumed
96  {
97  mpExtracellularConductivityTensors = new OrthotropicConductivityTensors<SPACE_DIM,SPACE_DIM>;
98  }
99 
100  c_vector<double, SPACE_DIM> extra_conductivities;
101  this->mpConfig->GetExtracellularConductivities(extra_conductivities);
102 
103  // this definition must be here (and not inside the if statement) because SetNonConstantConductivities() will keep
104  // a pointer to it and we don't want it to go out of scope before Init() is called
105  unsigned num_local_elements = this->mpMesh->GetNumLocalElements();
106  std::vector<c_vector<double, SPACE_DIM> > hetero_extra_conductivities;
107 
108  if (this->mpConfig->GetConductivityHeterogeneitiesProvided())
109  {
110  try
111  {
112  assert(hetero_extra_conductivities.size()==0);
113  //initialise with the values of the default conductivity tensor
114  hetero_extra_conductivities.resize(num_local_elements, extra_conductivities);
115  }
116  // LCOV_EXCL_START
117  catch(std::bad_alloc &r_bad_alloc)
118  {
119  std::cout << "Failed to allocate std::vector of size " << num_local_elements << std::endl;
120  PetscTools::ReplicateException(true);
121  throw r_bad_alloc;
122  }
123  // LCOV_EXCL_STOP
124 
125  PetscTools::ReplicateException(false);
126 
127  std::vector<boost::shared_ptr<AbstractChasteRegion<SPACE_DIM> > > conductivities_heterogeneity_areas;
128  std::vector< c_vector<double,3> > intra_h_conductivities;
129  std::vector< c_vector<double,3> > extra_h_conductivities;
130  HeartConfig::Instance()->GetConductivityHeterogeneities(conductivities_heterogeneity_areas,
131  intra_h_conductivities,
132  extra_h_conductivities);
133 
134  unsigned local_element_index = 0;
135 
136  for (typename AbstractTetrahedralMesh<SPACE_DIM,SPACE_DIM>::ElementIterator iter = (this->mpMesh)->GetElementIteratorBegin();
137  iter != (this->mpMesh)->GetElementIteratorEnd();
138  ++iter)
139  {
140  // If element centroid is contained in the region
141  ChastePoint<SPACE_DIM> element_centroid(iter->CalculateCentroid());
142  for (unsigned region_index=0; region_index< conductivities_heterogeneity_areas.size(); region_index++)
143  {
144  // If element centroid is contained in the region
145  if (conductivities_heterogeneity_areas[region_index]->DoesContain(element_centroid))
146  {
147  //We don't use ublas vector assignment here, because we might be getting a subvector of a 3-vector
148  for (unsigned i=0; i<SPACE_DIM; i++)
149  {
150  hetero_extra_conductivities[local_element_index][i] = extra_h_conductivities[region_index][i];
151  }
152  }
153  }
154  local_element_index++;
155  }
156  mpExtracellularConductivityTensors->SetNonConstantConductivities(&hetero_extra_conductivities);
157  }
158  else
159  {
160  mpExtracellularConductivityTensors->SetConstantConductivities(extra_conductivities);
161  }
162 
163  mpExtracellularConductivityTensors->Init(this->mpMesh);
164 }
165 
166 template <unsigned SPACE_DIM>
167 BidomainTissue<SPACE_DIM>::~BidomainTissue()
168 {
169  if (mpExtracellularConductivityTensors)
170  {
171  delete mpExtracellularConductivityTensors;
172  }
173 }
174 
175 
176 template <unsigned SPACE_DIM>
177 const c_matrix<double, SPACE_DIM, SPACE_DIM>& BidomainTissue<SPACE_DIM>::rGetExtracellularConductivityTensor(unsigned elementIndex)
178 {
179  assert(mpExtracellularConductivityTensors);
180  if (this->mpConductivityModifier==NULL)
181  {
182  return (*mpExtracellularConductivityTensors)[elementIndex];
183  }
184  else
185  {
186  return this->mpConductivityModifier->rGetModifiedConductivityTensor(elementIndex, (*mpExtracellularConductivityTensors)[elementIndex], 1u);
187  }
188 }
189 
190 // Explicit instantiation
191 template class BidomainTissue<1>;
192 template class BidomainTissue<2>;
193 template class BidomainTissue<3>;
194 
195 // Serialization for Boost >= 1.36
196 #include "SerializationExportWrapperForCpp.hpp"
197 EXPORT_TEMPLATE_CLASS_SAME_DIMS(BidomainTissue)
AbstractConductivityTensors::SetFibreOrientationFile
void SetFibreOrientationFile(const FileFinder &rFibreOrientationFile)
Definition: AbstractConductivityTensors.cpp:61
BidomainTissue::BidomainTissue
BidomainTissue(AbstractCardiacCellFactory< SPACE_DIM > *pCellFactory, bool exchangeHalos=false)
Definition: BidomainTissue.cpp:45
HeartConfig::GetConductivityMedia
cp::media_type GetConductivityMedia() const
Definition: HeartConfig.cpp:976
BidomainTissue::CreateExtracellularConductivityTensors
void CreateExtracellularConductivityTensors()
Definition: BidomainTissue.cpp:61
AbstractConductivityTensors::SetNonConstantConductivities
void SetNonConstantConductivities(std::vector< c_vector< double, SPACE_DIM > > *pNonConstantConductivities)
Definition: AbstractConductivityTensors.cpp:104
HeartConfig::GetExtracellularConductivities
void GetExtracellularConductivities(c_vector< double, 3 > &rExtraConductivities) const
Definition: HeartConfig.cpp:1488
AbstractConductivityTensors::Init
virtual void Init(AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM > *pMesh)=0
NEVER_REACHED
#define NEVER_REACHED
Definition: Exception.hpp:206
AbstractTetrahedralMesh::GetNumLocalElements
virtual unsigned GetNumLocalElements() const
Definition: AbstractTetrahedralMesh.cpp:93
HeartConfig::GetConductivityHeterogeneities
void GetConductivityHeterogeneities(std::vector< boost::shared_ptr< AbstractChasteRegion< DIM > > > &conductivitiesHeterogeneityAreas, std::vector< c_vector< double, 3 > > &intraConductivities, std::vector< c_vector< double, 3 > > &extraConductivities) const
Definition: HeartConfig.cpp:1298
EXPORT_TEMPLATE_CLASS_SAME_DIMS
#define EXPORT_TEMPLATE_CLASS_SAME_DIMS(CLASS)
Definition: SerializationExportWrapper.hpp:352
AbstractConductivityModifier::rGetModifiedConductivityTensor
c_matrix< double, SPACE_DIM, SPACE_DIM > & rGetModifiedConductivityTensor(unsigned elementIndex, const c_matrix< double, SPACE_DIM, SPACE_DIM > &rOriginalConductivity, unsigned domainIndex)
Definition: AbstractConductivityModifier.hpp:65
AbstractConductivityTensors::SetConstantConductivities
void SetConstantConductivities(c_vector< double, 1 > constantConductivities)
Definition: AbstractConductivityTensors.cpp:68
PetscTools::ReplicateException
static void ReplicateException(bool flag)
Definition: PetscTools.cpp:198
AbstractCardiacTissue< SPACE_DIM >::mpMesh
AbstractTetrahedralMesh< ELEMENT_DIM, ELEMENT_DIM > * mpMesh
Definition: AbstractCardiacTissue.hpp:229
HeartConfig::IsMeshProvided
bool IsMeshProvided() const
Definition: HeartConfig.cpp:851
AbstractCardiacTissue< SPACE_DIM >::mpConductivityModifier
AbstractConductivityModifier< ELEMENT_DIM, ELEMENT_DIM > * mpConductivityModifier
Definition: AbstractCardiacTissue.hpp:289
BidomainTissue::mpExtracellularConductivityTensors
AbstractConductivityTensors< SPACE_DIM, SPACE_DIM > * mpExtracellularConductivityTensors
Definition: BidomainTissue.hpp:78
FileFinder::Exists
bool Exists() const
Definition: FileFinder.cpp:180
HeartConfig::GetLoadMesh
bool GetLoadMesh() const
Definition: HeartConfig.cpp:890
HeartConfig::Instance
static HeartConfig * Instance()
Definition: HeartConfig.cpp:207
HeartConfig::GetConductivityHeterogeneitiesProvided
bool GetConductivityHeterogeneitiesProvided() const
Definition: HeartConfig.cpp:1291
BidomainTissue::rGetExtracellularConductivityTensor
const c_matrix< double, SPACE_DIM, SPACE_DIM > & rGetExtracellularConductivityTensor(unsigned elementIndex)
Definition: BidomainTissue.cpp:177