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Ifpack2_LinePartitioner_def.hpp
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42 
43 #ifndef IFPACK2_LINE_PARTITIONER_DEF_HPP
44 #define IFPACK2_LINE_PARTITIONER_DEF_HPP
45 
46 #include "Tpetra_CrsGraph.hpp"
47 #include "Tpetra_Util.hpp"
48 
49 namespace Ifpack2 {
50 
51 template<class T>
52 inline typename Teuchos::ScalarTraits<T>::magnitudeType square(T x) {
54 }
55 
56 //==============================================================================
57 // Constructor
58 template<class GraphType,class Scalar>
61  OverlappingPartitioner<GraphType> (graph), NumEqns_(1), threshold_(0.0)
62 {}
63 
64 
65 template<class GraphType,class Scalar>
67 
68 
69 template<class GraphType,class Scalar>
70 void
73  threshold_ = List.get("partitioner: line detection threshold",threshold_);
74  TEUCHOS_TEST_FOR_EXCEPTION(threshold_ < 0.0 || threshold_ > 1.0,
75  std::runtime_error,"Ifpack2::LinePartitioner: threshold not valid");
76 
77  NumEqns_ = List.get("partitioner: PDE equations",NumEqns_);
78  TEUCHOS_TEST_FOR_EXCEPTION(NumEqns_<1,std::runtime_error,"Ifpack2::LinePartitioner: NumEqns not valid");
79 
80  coord_ = List.get("partitioner: coordinates",coord_);
81  TEUCHOS_TEST_FOR_EXCEPTION(coord_.is_null(),std::runtime_error,"Ifpack2::LinePartitioner: coordinates not defined");
82 }
83 
84 
85 template<class GraphType,class Scalar>
87  const local_ordinal_type invalid = Teuchos::OrdinalTraits<local_ordinal_type>::invalid();
88 
89  // Sanity Checks
90  TEUCHOS_TEST_FOR_EXCEPTION(coord_.is_null(),std::runtime_error,"Ifpack2::LinePartitioner: coordinates not defined");
91  TEUCHOS_TEST_FOR_EXCEPTION((size_t)this->Partition_.size() != this->Graph_->getNodeNumRows(),std::runtime_error,"Ifpack2::LinePartitioner: partition size error");
92 
93  // Short circuit
94  if(this->Partition_.size() == 0) {this->NumLocalParts_ = 0; return;}
95 
96  // Set partitions to invalid to initialize algorithm
97  for(size_t i=0; i<this->Graph_->getNodeNumRows(); i++)
98  this->Partition_[i] = invalid;
99 
100  // Use the auto partitioner
101  this->NumLocalParts_ = this->Compute_Blocks_AutoLine(this->Partition_());
102 
103  // Resize Parts_
104  this->Parts_.resize(this->NumLocalParts_);
105 }
106 
107 
108 // ============================================================================
109 template<class GraphType,class Scalar>
111  typedef local_ordinal_type LO;
112  const LO invalid = Teuchos::OrdinalTraits<LO>::invalid();
113  const double zero = Teuchos::ScalarTraits<double>::zero();
114 
115  Teuchos::ArrayRCP<const double> xvalsRCP, yvalsRCP, zvalsRCP;
116  Teuchos::ArrayView<const double> xvals, yvals, zvals;
117  xvalsRCP = coord_->getData(0); xvals = xvalsRCP();
118  if(coord_->getNumVectors() > 1) { yvalsRCP = coord_->getData(1); yvals = yvalsRCP(); }
119  if(coord_->getNumVectors() > 2) { zvalsRCP = coord_->getData(2); zvals = zvalsRCP(); }
120 
121  double tol = threshold_;
122  size_t N = this->Graph_->getNodeNumRows();
123  size_t allocated_space = this->Graph_->getNodeMaxNumRowEntries();
124 
125  Teuchos::Array<LO> cols(allocated_space);
126  Teuchos::Array<LO> indices(allocated_space);
127  Teuchos::Array<double> dist(allocated_space);
128 
129  Teuchos::Array<LO> itemp(2*allocated_space);
130  Teuchos::Array<double> dtemp(allocated_space);
131 
132  LO num_lines = 0;
133 
134  for(LO i=0; i<(LO)N; i+=NumEqns_) {
135  size_t nz=0;
136  // Short circuit if I've already been blocked
137  if(blockIndices[i] != invalid) continue;
138 
139  // Get neighbors and sort by distance
140  this->Graph_->getLocalRowCopy(i,cols(),nz);
141  double x0 = (!xvals.is_null()) ? xvals[i/NumEqns_] : zero;
142  double y0 = (!yvals.is_null()) ? yvals[i/NumEqns_] : zero;
143  double z0 = (!zvals.is_null()) ? zvals[i/NumEqns_] : zero;
144 
145  LO neighbor_len=0;
146  for(size_t j=0; j<nz; j+=NumEqns_) {
147  double mydist = zero;
148  LO nn = cols[j] / NumEqns_;
149  if(cols[j] >=(LO)N) continue; // Check for off-proc entries
150  if(!xvals.is_null()) mydist += square<double>(x0 - xvals[nn]);
151  if(!yvals.is_null()) mydist += square<double>(y0 - yvals[nn]);
152  if(!zvals.is_null()) mydist += square<double>(z0 - zvals[nn]);
153  dist[neighbor_len] = Teuchos::ScalarTraits<double>::squareroot(mydist);
154  indices[neighbor_len]=cols[j];
155  neighbor_len++;
156  }
157 
158  Teuchos::ArrayView<double> dist_view = dist(0,neighbor_len);
159  Tpetra::sort2(dist_view.begin(),dist_view.end(),indices.begin());
160 
161  // Number myself
162  for(LO k=0; k<NumEqns_; k++)
163  blockIndices[i + k] = num_lines;
164 
165  // Fire off a neighbor line search (nearest neighbor)
166  if(neighbor_len > 2 && dist[1]/dist[neighbor_len-1] < tol) {
167  local_automatic_line_search(NumEqns_,blockIndices,i,indices[1],num_lines,tol,itemp,dtemp);
168  }
169  // Fire off a neighbor line search (second nearest neighbor)
170  if(neighbor_len > 3 && dist[2]/dist[neighbor_len-1] < tol) {
171  local_automatic_line_search(NumEqns_,blockIndices,i,indices[2],num_lines,tol,itemp,dtemp);
172  }
173 
174  num_lines++;
175  }
176  return num_lines;
177 }
178 // ============================================================================
179 template<class GraphType,class Scalar>
180 void LinePartitioner<GraphType,Scalar>::local_automatic_line_search(int NumEqns, Teuchos::ArrayView <local_ordinal_type> blockIndices, local_ordinal_type last, local_ordinal_type next, local_ordinal_type LineID, double tol, Teuchos::Array<local_ordinal_type> itemp, Teuchos::Array<double> dtemp) const {
181  typedef local_ordinal_type LO;
182  const LO invalid = Teuchos::OrdinalTraits<LO>::invalid();
183  const double zero = Teuchos::ScalarTraits<double>::zero();
184 
185  Teuchos::ArrayRCP<const double> xvalsRCP, yvalsRCP, zvalsRCP;
186  Teuchos::ArrayView<const double> xvals, yvals, zvals;
187  xvalsRCP = coord_->getData(0); xvals = xvalsRCP();
188  if(coord_->getNumVectors() > 1) { yvalsRCP = coord_->getData(1); yvals = yvalsRCP(); }
189  if(coord_->getNumVectors() > 2) { zvalsRCP = coord_->getData(2); zvals = zvalsRCP(); }
190 
191  size_t N = this->Graph_->getNodeNumRows();
192  size_t allocated_space = this->Graph_->getNodeMaxNumRowEntries();
193  Teuchos::ArrayView<LO> cols = itemp();
194  Teuchos::ArrayView<LO> indices = itemp.view(allocated_space,allocated_space);
195  Teuchos::ArrayView<double> dist= dtemp();
196 
197  while (blockIndices[next] == invalid) {
198  // Get the next row
199  size_t nz=0;
200  LO neighbors_in_line=0;
201 
202  this->Graph_->getLocalRowCopy(next,cols(),nz);
203  double x0 = (!xvals.is_null()) ? xvals[next/NumEqns_] : zero;
204  double y0 = (!yvals.is_null()) ? yvals[next/NumEqns_] : zero;
205  double z0 = (!zvals.is_null()) ? zvals[next/NumEqns_] : zero;
206 
207  // Calculate neighbor distances & sort
208  LO neighbor_len=0;
209  for(size_t i=0; i<nz; i+=NumEqns) {
210  double mydist = zero;
211  if(cols[i] >=(LO)N) continue; // Check for off-proc entries
212  LO nn = cols[i] / NumEqns;
213  if(blockIndices[nn]==LineID) neighbors_in_line++;
214  if(!xvals.is_null()) mydist += square<double>(x0 - xvals[nn]);
215  if(!yvals.is_null()) mydist += square<double>(y0 - yvals[nn]);
216  if(!zvals.is_null()) mydist += square<double>(z0 - zvals[nn]);
217  dist[neighbor_len] = Teuchos::ScalarTraits<double>::squareroot(mydist);
218  indices[neighbor_len]=cols[i];
219  neighbor_len++;
220  }
221  // If more than one of my neighbors is already in this line. I
222  // can't be because I'd create a cycle
223  if(neighbors_in_line > 1) break;
224 
225  // Otherwise add me to the line
226  for(LO k=0; k<NumEqns; k++)
227  blockIndices[next + k] = LineID;
228 
229  // Try to find the next guy in the line (only check the closest two that aren't element 0 (diagonal))
230  Teuchos::ArrayView<double> dist_view = dist(0,neighbor_len);
231  Tpetra::sort2(dist_view.begin(),dist_view.end(),indices.begin());
232 
233  if(neighbor_len > 2 && indices[1] != last && blockIndices[indices[1]] == -1 && dist[1]/dist[neighbor_len-1] < tol) {
234  last=next;
235  next=indices[1];
236  }
237  else if(neighbor_len > 3 && indices[2] != last && blockIndices[indices[2]] == -1 && dist[2]/dist[neighbor_len-1] < tol) {
238  last=next;
239  next=indices[2];
240  }
241  else {
242  // I have no further neighbors in this line
243  break;
244  }
245  }
246 }
247 
248 
249 
250 }// namespace Ifpack2
251 
252 #define IFPACK2_LINEPARTITIONER_INSTANT(S,LO,GO,N) \
253  template class Ifpack2::LinePartitioner<Tpetra::CrsGraph< LO, GO, N >,S >; \
254  template class Ifpack2::LinePartitioner<Tpetra::RowGraph< LO, GO, N >,S >;
255 
256 #endif // IFPACK2_LINEPARTITIONER_DEF_HPP
bool is_null() const
iterator begin() const
LinePartitioner(const Teuchos::RCP< const row_graph_type > &graph)
Constructor.
Definition: Ifpack2_LinePartitioner_def.hpp:60
T & get(const std::string &name, T def_value)
ArrayView< T > view(size_type offset, size_type size)
static T squareroot(T x)
void computePartitions()
Compute the partitions.
Definition: Ifpack2_LinePartitioner_def.hpp:86
#define TEUCHOS_TEST_FOR_EXCEPTION(throw_exception_test, Exception, msg)
virtual ~LinePartitioner()
Destructor.
Definition: Ifpack2_LinePartitioner_def.hpp:66
static magnitudeType magnitude(T a)
iterator end() const
Create overlapping partitions of a local graph.
Definition: Ifpack2_OverlappingPartitioner_decl.hpp:78
void setPartitionParameters(Teuchos::ParameterList &List)
Set the partitioner&#39;s parameters (none for linear partitioning).
Definition: Ifpack2_LinePartitioner_def.hpp:72
Ifpack2::LinePartitioner: A class to define partitions into a set of lines.
Definition: Ifpack2_LinePartitioner_decl.hpp:77