/[escript]/trunk/ripley/src/ripleycpp.cpp
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revision 4340 by caltinay, Fri Mar 22 04:38:36 2013 UTC revision 4622 by sshaw, Fri Jan 17 04:55:41 2014 UTC
# Line 27  using namespace boost::python; Line 27  using namespace boost::python;
27    
28  namespace ripley {  namespace ripley {
29    
30  void writeBinaryGrid(std::string filename, const escript::Data& d,  template<typename T>
31          const char byteorder, const char datatype, const char datasize)  std::vector<T> extractPyArray(const object& obj, const std::string& name,
32                                  int expectedLength=0)
33  {  {
34      const RipleyDomain* dom=dynamic_cast<const RipleyDomain*>(d.getDomain().get());      std::vector<T> result;
35      if (!dom)      if (extract<tuple>(obj).check() || extract<list>(obj).check()) {
36          throw RipleyException("Function space must be on a ripley domain");          if (expectedLength==0 || len(obj)==expectedLength) {
37                for (int i=0; i<len(obj); i++) {
38      if (datatype != 'f')                  result.push_back(extract<T>(obj[i]));
39          throw RipleyException("only float data supported");              }
40            } else {
41      if (datasize != '4')              std::stringstream ssError;
42          throw RipleyException("only single-precision data supported");              ssError << "argument '" << name << "' has wrong length";
43                std::string error(ssError.str());
44      switch (byteorder) {              throw RipleyException(error.c_str());
45          case '=':          }
46              dom->writeBinaryGrid(d, filename, RIPLEY_BYTE_ORDER);      } else {
47              break;          std::stringstream ssError;
48          case '<':          ssError << "argument '" << name << "' must be a tuple or list";
49              dom->writeBinaryGrid(d, filename, RIPLEY_LITTLE_ENDIAN);          std::string error(ssError.str());
50              break;          throw RipleyException(error.c_str());
         case '>':  
             dom->writeBinaryGrid(d, filename, RIPLEY_BIG_ENDIAN);  
             break;  
         default:  
             throw RipleyException("unrecognized byte order argument");  
51      }      }
52    
53        return result;
54  }  }
55    
56  escript::Data readBinaryGrid(std::string filename, escript::FunctionSpace fs,  escript::Data readBinaryGrid(std::string filename, escript::FunctionSpace fs,
57            const object& pyShape, double fill, int byteOrder, int dataType,
58          const object& pyFirst, const object& pyNum, const object& pyMultiplier,          const object& pyFirst, const object& pyNum, const object& pyMultiplier,
59          const object& pyShape, double fill=0.)          const object& pyReverse)
60  {  {
61      int dim=fs.getDim();      int dim=fs.getDim();
62      std::vector<int> first(dim), numValues(dim), multiplier(dim), shape;      ReaderParameters params;
63    
64      if (extract<tuple>(pyFirst).check() || extract<list>(pyFirst).check()) {      params.first = extractPyArray<int>(pyFirst, "first", dim);
65          if (len(pyFirst)==dim) {      params.numValues = extractPyArray<int>(pyNum, "numValues", dim);
66              for (int i=0; i<dim; i++) {      params.multiplier = extractPyArray<int>(pyMultiplier, "multiplier", dim);
67                  first[i]=extract<int>(pyFirst[i]);      params.reverse = extractPyArray<int>(pyReverse, "reverse", dim);
68              }      params.byteOrder = byteOrder;
69          } else      params.dataType = dataType;
70              throw RipleyException("Argument 'first' has wrong length");      std::vector<int> shape(extractPyArray<int>(pyShape, "shape"));
     } else  
         throw RipleyException("Argument 'first' must be a tuple or list");  
   
     if (extract<tuple>(pyNum).check() || extract<list>(pyNum).check()) {  
         if (len(pyNum)==dim) {  
             for (int i=0; i<dim; i++) {  
                 numValues[i]=extract<int>(pyNum[i]);  
             }  
         } else  
             throw RipleyException("Argument 'numValues' has wrong length");  
     } else  
         throw RipleyException("Argument 'numValues' must be a tuple or list");  
   
     if (extract<tuple>(pyShape).check() || extract<list>(pyShape).check()) {  
         for (int i=0; i<len(pyShape); i++) {  
             shape.push_back(extract<int>(pyShape[i]));  
         }  
     } else  
         throw RipleyException("Argument 'shape' must be a tuple or list");  
   
     if (extract<tuple>(pyMultiplier).check() || extract<list>(pyMultiplier).check()) {  
         if (len(pyMultiplier)==dim) {  
             for (int i=0; i<dim; i++) {  
                 multiplier[i]=extract<int>(pyMultiplier[i]);  
             }  
         } else  
             throw RipleyException("Argument 'multiplier' has wrong length");  
     } else  
         throw RipleyException("Argument 'multiplier' must be a tuple or list");  
71    
72      const RipleyDomain* dom=dynamic_cast<const RipleyDomain*>(fs.getDomain().get());      const RipleyDomain* dom=dynamic_cast<const RipleyDomain*>(fs.getDomain().get());
73      if (!dom)      if (!dom)
74          throw RipleyException("Function space must be on a ripley domain");          throw RipleyException("Function space must be on a ripley domain");
75    
   
76      escript::Data res(fill, shape, fs, true);      escript::Data res(fill, shape, fs, true);
77        dom->readBinaryGrid(res, filename, params);
     dom->readBinaryGrid(res, filename, first, numValues, multiplier);  
78      return res;      return res;
79  }  }
80    
81  escript::Data readNcGrid(std::string filename, std::string varname,  escript::Data readNcGrid(std::string filename, std::string varname,
82          escript::FunctionSpace fs, const object& pyFirst, const object& pyNum,          escript::FunctionSpace fs, const object& pyShape, double fill,
83          const object& pyMultiplier, const object& pyShape, double fill=0.)          const object& pyFirst, const object& pyNum, const object& pyMultiplier,
84            const object& pyReverse)
85  {  {
86      int dim=fs.getDim();      int dim=fs.getDim();
87      std::vector<int> first(dim), numValues(dim), multiplier(dim), shape;      ReaderParameters params;
   
     if (extract<tuple>(pyFirst).check() || extract<list>(pyFirst).check()) {  
         if (len(pyFirst)==dim) {  
             for (int i=0; i<dim; i++) {  
                 first[i]=extract<int>(pyFirst[i]);  
             }  
         } else  
             throw RipleyException("Argument 'first' has wrong length");  
     } else  
         throw RipleyException("Argument 'first' must be a tuple or list");  
88    
89      if (extract<tuple>(pyNum).check() || extract<list>(pyNum).check()) {      params.first = extractPyArray<int>(pyFirst, "first", dim);
90          if (len(pyNum)==dim) {      params.numValues = extractPyArray<int>(pyNum, "numValues", dim);
91              for (int i=0; i<dim; i++) {      params.multiplier = extractPyArray<int>(pyMultiplier, "multiplier", dim);
92                  numValues[i]=extract<int>(pyNum[i]);      params.reverse = extractPyArray<int>(pyReverse, "reverse", dim);
93              }      std::vector<int> shape(extractPyArray<int>(pyShape, "shape"));
         } else  
             throw RipleyException("Argument 'numValues' has wrong length");  
     } else  
         throw RipleyException("Argument 'numValues' must be a tuple or list");  
   
     if (extract<tuple>(pyMultiplier).check() || extract<list>(pyMultiplier).check()) {  
         if (len(pyMultiplier)==dim) {  
             for (int i=0; i<dim; i++) {  
                 multiplier[i]=extract<int>(pyMultiplier[i]);  
             }  
         } else  
             throw RipleyException("Argument 'multiplier' has wrong length");  
     } else  
         throw RipleyException("Argument 'multiplier' must be a tuple or list");  
   
     if (extract<tuple>(pyShape).check() || extract<list>(pyShape).check()) {  
         for (int i=0; i<len(pyShape); i++) {  
             shape.push_back(extract<int>(pyShape[i]));  
         }  
     } else  
         throw RipleyException("Argument 'shape' must be a tuple or list");  
94    
95      const RipleyDomain* dom=dynamic_cast<const RipleyDomain*>(fs.getDomain().get());      const RipleyDomain* dom=dynamic_cast<const RipleyDomain*>(fs.getDomain().get());
96      if (!dom)      if (!dom)
97          throw RipleyException("Function space must be on a ripley domain");          throw RipleyException("Function space must be on a ripley domain");
98    
   
99      escript::Data res(fill, shape, fs, true);      escript::Data res(fill, shape, fs, true);
100        dom->readNcGrid(res, filename, varname, params);
     dom->readNcGrid(res, filename, varname, first, numValues, multiplier);  
101      return res;      return res;
102  }  }
103    
# Line 171  escript::Data readNcGrid(std::string fil Line 107  escript::Data readNcGrid(std::string fil
107  // The double for n? is just to keep python happy when people need to deal with  // The double for n? is just to keep python happy when people need to deal with
108  // truediv  // truediv
109  escript::Domain_ptr _brick(double _n0, double _n1, double _n2, const object& l0,  escript::Domain_ptr _brick(double _n0, double _n1, double _n2, const object& l0,
110                   const object& l1, const object& l2, int d0, int d1, int d2)                   const object& l1, const object& l2, int d0, int d1, int d2,
111                     const object& objpoints, const object& objtags)
112  {  {
113      int n0=static_cast<int>(_n0), n1=static_cast<int>(_n1), n2=static_cast<int>(_n2);      int n0=static_cast<int>(_n0), n1=static_cast<int>(_n1), n2=static_cast<int>(_n2);
114      double x0=0., x1=1., y0=0., y1=1., z0=0., z1=1.;      double x0=0., x1=1., y0=0., y1=1., z0=0., z1=1.;
# Line 211  escript::Domain_ptr _brick(double _n0, d Line 148  escript::Domain_ptr _brick(double _n0, d
148      } else      } else
149          throw RipleyException("Argument l2 must be a float or 2-tuple");          throw RipleyException("Argument l2 must be a float or 2-tuple");
150    
151      return escript::Domain_ptr(new Brick(n0,n1,n2, x0,y0,z0, x1,y1,z1, d0,d1,d2));      boost::python::list pypoints=extract<boost::python::list>(objpoints);
152        boost::python::list pytags=extract<boost::python::list>(objtags);
153        int numpts=extract<int>(pypoints.attr("__len__")());
154        int numtags=extract<int>(pytags.attr("__len__")());
155        std::vector<double> points;
156        std::vector<int> tags;
157        tags.resize(numtags, -1);
158        for (int i=0;i<numpts;++i) {
159            boost::python::object temp=pypoints[i];
160            int l=extract<int>(temp.attr("__len__")());
161            for (int k=0;k<l;++k) {
162                points.push_back(extract<double>(temp[k]));
163            }
164        }
165        std::map<std::string, int> tagstonames;
166        int curmax=40;
167        // but which order to assign tags to names?????
168        for (int i=0;i<numtags;++i) {
169            extract<int> ex_int(pytags[i]);
170            extract<std::string> ex_str(pytags[i]);
171            if (ex_int.check()) {
172                tags[i]=ex_int();
173                if (tags[i]>= curmax) {
174                    curmax=tags[i]+1;
175                }
176            } else if (ex_str.check()) {
177                std::string s=ex_str();
178                std::map<std::string, int>::iterator it=tagstonames.find(s);
179                if (it!=tagstonames.end()) {
180                    // we have the tag already so look it up
181                    tags[i]=it->second;
182                } else {
183                    tagstonames[s]=curmax;
184                    tags[i]=curmax;
185                    curmax++;
186                }
187            } else {
188                throw RipleyException("Error - Unable to extract tag value.");
189            }
190        }
191        return escript::Domain_ptr(new Brick(n0,n1,n2, x0,y0,z0, x1,y1,z1, d0,d1,d2,
192                                                points, tags, tagstonames));
193  }  }
194    
195  const int _q[]={0x61686969,0x746c4144,0x79616e43};  const int _q[]={0x61686969,0x746c4144,0x79616e43};
196  escript::Domain_ptr _rectangle(double _n0, double _n1, const object& l0,  escript::Domain_ptr _rectangle(double _n0, double _n1, const object& l0,
197                                 const object& l1, int d0, int d1)                                 const object& l1, int d0, int d1,
198                                   const object& objpoints, const object& objtags)
199  {  {
200      int n0=static_cast<int>(_n0), n1=static_cast<int>(_n1);      int n0=static_cast<int>(_n0), n1=static_cast<int>(_n1);
201      double x0=0., x1=1., y0=0., y1=1.;      double x0=0., x1=1., y0=0., y1=1.;
# Line 243  escript::Domain_ptr _rectangle(double _n Line 222  escript::Domain_ptr _rectangle(double _n
222          y1=extract<double>(l1);          y1=extract<double>(l1);
223      } else      } else
224          throw RipleyException("Argument l1 must be a float or 2-tuple");          throw RipleyException("Argument l1 must be a float or 2-tuple");
225            
226      return escript::Domain_ptr(new Rectangle(n0,n1, x0,y0, x1,y1, d0,d1));      boost::python::list pypoints=extract<boost::python::list>(objpoints);
227        boost::python::list pytags=extract<boost::python::list>(objtags);
228        int numpts=extract<int>(pypoints.attr("__len__")());
229        int numtags=extract<int>(pytags.attr("__len__")());
230        std::vector<double> points;
231        std::vector<int> tags;
232        tags.resize(numtags, -1);
233        for (int i=0;i<numpts;++i) {
234            boost::python::object temp=pypoints[i];
235            int l=extract<int>(temp.attr("__len__")());
236            for (int k=0;k<l;++k) {
237                points.push_back(extract<double>(temp[k]));
238            }
239        }
240        std::map<std::string, int> tagstonames;
241        int curmax=40;
242        // but which order to assign tags to names?????
243        for (int i=0;i<numtags;++i) {
244            extract<int> ex_int(pytags[i]);
245            extract<std::string> ex_str(pytags[i]);
246            if (ex_int.check()) {
247                tags[i]=ex_int();
248                if (tags[i]>= curmax) {
249                    curmax=tags[i]+1;
250                }
251            } else if (ex_str.check()) {
252                std::string s=ex_str();
253                std::map<std::string, int>::iterator it=tagstonames.find(s);
254                if (it!=tagstonames.end()) {
255                    // we have the tag already so look it up
256                    tags[i]=it->second;
257                } else {
258                    tagstonames[s]=curmax;
259                    tags[i]=curmax;
260                    curmax++;
261                }
262            } else {
263                throw RipleyException("Error - Unable to extract tag value.");
264            }
265        }
266        return escript::Domain_ptr(new Rectangle(n0,n1, x0,y0, x1,y1, d0,d1,
267                                                 points, tags, tagstonames));
268  }  }
269  std::string _who(){int a[]={_q[0]^42,_q[1]^42,_q[2]^42,0};return (char*)&a[0];}  std::string _who(){int a[]={_q[0]^42,_q[1]^42,_q[2]^42,0};return (char*)&a[0];}
270    
271  } // end of namespace  } // end of namespace ripley
272    
273    
274  BOOST_PYTHON_MODULE(ripleycpp)  BOOST_PYTHON_MODULE(ripleycpp)
# Line 262  BOOST_PYTHON_MODULE(ripleycpp) Line 282  BOOST_PYTHON_MODULE(ripleycpp)
282      register_exception_translator<ripley::RipleyException>(&(esysUtils::esysExceptionTranslator));      register_exception_translator<ripley::RipleyException>(&(esysUtils::esysExceptionTranslator));
283    
284      scope().attr("__doc__") = "To use this module, please import esys.ripley";      scope().attr("__doc__") = "To use this module, please import esys.ripley";
285        scope().attr("BYTEORDER_NATIVE") = (int)ripley::BYTEORDER_NATIVE;
286        scope().attr("BYTEORDER_LITTLE_ENDIAN") = (int)ripley::BYTEORDER_LITTLE_ENDIAN;
287        scope().attr("BYTEORDER_BIG_ENDIAN") = (int)ripley::BYTEORDER_BIG_ENDIAN;
288        scope().attr("DATATYPE_INT32") = (int)ripley::DATATYPE_INT32;
289        scope().attr("DATATYPE_FLOAT32") = (int)ripley::DATATYPE_FLOAT32;
290        scope().attr("DATATYPE_FLOAT64") = (int)ripley::DATATYPE_FLOAT64;
291    
292      def("Brick", ripley::_brick, (arg("n0"),arg("n1"),arg("n2"),arg("l0")=1.0,arg("l1")=1.0,arg("l2")=1.0,arg("d0")=-1,arg("d1")=-1,arg("d2")=-1),      def("Brick", ripley::_brick, (arg("n0"),arg("n1"),arg("n2"),arg("l0")=1.0,arg("l1")=1.0,arg("l2")=1.0,arg("d0")=-1,arg("d1")=-1,arg("d2")=-1,arg("diracPoints")=list(),arg("diracTags")=list()),
293  "Creates a hexagonal mesh with n0 x n1 x n2 elements over the brick [0,l0] x [0,l1] x [0,l2].\n\n"  "Creates a hexagonal mesh with n0 x n1 x n2 elements over the brick [0,l0] x [0,l1] x [0,l2].\n\n"
294  ":param n0: number of elements in direction 0\n:type n0: ``int``\n"  ":param n0: number of elements in direction 0\n:type n0: ``int``\n"
295  ":param n1: number of elements in direction 1\n:type n1: ``int``\n"  ":param n1: number of elements in direction 1\n:type n1: ``int``\n"
# Line 275  BOOST_PYTHON_MODULE(ripleycpp) Line 301  BOOST_PYTHON_MODULE(ripleycpp)
301  ":param d1: number of subdivisions in direction 1\n:type d1: ``int``\n"  ":param d1: number of subdivisions in direction 1\n:type d1: ``int``\n"
302  ":param d2: number of subdivisions in direction 2\n:type d2: ``int``");  ":param d2: number of subdivisions in direction 2\n:type d2: ``int``");
303    
304      def("Rectangle", ripley::_rectangle, (arg("n0"),arg("n1"),arg("l0")=1.0,arg("l1")=1.0,arg("d0")=-1,arg("d1")=-1),      def("Rectangle", ripley::_rectangle, (arg("n0"),arg("n1"),arg("l0")=1.0,arg("l1")=1.0,arg("d0")=-1,arg("d1")=-1,arg("diracPoints")=list(),arg("diracTags")=list()),
305  "Creates a rectangular mesh with n0 x n1 elements over the rectangle [0,l0] x [0,l1].\n\n"  "Creates a rectangular mesh with n0 x n1 elements over the rectangle [0,l0] x [0,l1].\n\n"
306  ":param n0: number of elements in direction 0\n:type n0: ``int``\n"  ":param n0: number of elements in direction 0\n:type n0: ``int``\n"
307  ":param n1: number of elements in direction 1\n:type n1: ``int``\n"  ":param n1: number of elements in direction 1\n:type n1: ``int``\n"
# Line 285  BOOST_PYTHON_MODULE(ripleycpp) Line 311  BOOST_PYTHON_MODULE(ripleycpp)
311  ":param d1: number of subdivisions in direction 1\n:type d1: ``int``");  ":param d1: number of subdivisions in direction 1\n:type d1: ``int``");
312      def("_theculprit_", ripley::_who);      def("_theculprit_", ripley::_who);
313    
314      def("_readBinaryGrid", &ripley::readBinaryGrid, (arg("filename"), arg("functionspace"), arg("first"), arg("numValues"), arg("multiplier"), arg("shape"), arg("fill")=0.));      def("_readBinaryGrid", &ripley::readBinaryGrid, (arg("filename"),
315                    arg("functionspace"), arg("shape"), arg("fill")=0.,
316      def("_readNcGrid", &ripley::readNcGrid, (arg("filename"), arg("varname"), arg("functionspace"), arg("first"), arg("numValues"), arg("multiplier"), arg("shape"), arg("fill")=0.));                  arg("byteOrder"), arg("dataType"), arg("first"),
317                    arg("numValues"), arg("multiplier"), arg("reverse")),
318      def("_writeBinaryGrid", &ripley::writeBinaryGrid);  "Reads a binary Grid");
319    
320        def("_readNcGrid", &ripley::readNcGrid, (arg("filename"), arg("varname"),
321                    arg("functionspace"), arg("shape"), arg("fill"), arg("first"),
322                    arg("numValues"), arg("multiplier"), arg("reverse")),
323    "Reads a grid from a netCDF file");
324    
325      class_<ripley::RipleyDomain, bases<escript::AbstractContinuousDomain>, boost::noncopyable >      class_<ripley::RipleyDomain, bases<escript::AbstractContinuousDomain>, boost::noncopyable >
326          ("RipleyDomain", "", no_init)          ("RipleyDomain", "", no_init)
327          .def("print_mesh_info", &ripley::RipleyDomain::Print_Mesh_Info, (arg("full")=false),          .def("print_mesh_info", &ripley::RipleyDomain::Print_Mesh_Info, (arg("full")=false),
328                  "Prints out a summary about the mesh.\n"                  "Prints out a summary about the mesh.\n"
329                  ":param full: whether to output additional data\n:type full: ``bool``")                  ":param full: whether to output additional data\n:type full: ``bool``")
330            .def("writeBinaryGrid", &ripley::RipleyDomain::writeBinaryGrid)
331    
332          .def("dump", &ripley::RipleyDomain::dump, args("filename"),          .def("dump", &ripley::RipleyDomain::dump, args("filename"),
333                  "Dumps the mesh to a file with the given name.")                  "Dumps the mesh to a file with the given name.")
334          .def("getGridParameters", &ripley::RipleyDomain::getGridParameters,          .def("getGridParameters", &ripley::RipleyDomain::getGridParameters,
# Line 312  BOOST_PYTHON_MODULE(ripleycpp) Line 345  BOOST_PYTHON_MODULE(ripleycpp)
345          .def("getNumDataPointsGlobal", &ripley::RipleyDomain::getNumDataPointsGlobal,          .def("getNumDataPointsGlobal", &ripley::RipleyDomain::getNumDataPointsGlobal,
346  ":return: the number of data points summed across all MPI processes\n"  ":return: the number of data points summed across all MPI processes\n"
347  ":rtype: ``int``")  ":rtype: ``int``")
348            .def("addToSystem",&ripley::RipleyDomain::addToSystemFromPython,
349                args("mat", "rhs", "data"),
350                "adds a PDE to the system, results depend on domain\n\n"
351                ":param mat:\n:type mat: `OperatorAdapter`\n"
352                ":param rhs:\n:type rhs: `Data`\n"
353                ":param data:\ntype data: `list`")
354          .def("addPDEToSystem",&ripley::RipleyDomain::addPDEToSystem,          .def("addPDEToSystem",&ripley::RipleyDomain::addPDEToSystem,
355  args("mat", "rhs", "A", "B", "C", "D", "X", "Y", "d", "y", "d_contact", "y_contact"),  args("mat", "rhs", "A", "B", "C", "D", "X", "Y", "d", "y", "d_contact", "y_contact"),
356  "adds a PDE onto the stiffness matrix mat and a rhs\n\n"  "adds a PDE onto the stiffness matrix mat and a rhs\n\n"
# Line 326  args("mat", "rhs", "A", "B", "C", "D", " Line 365  args("mat", "rhs", "A", "B", "C", "D", "
365  ":param d_contact:\n:type d_contact: `Data`\n"  ":param d_contact:\n:type d_contact: `Data`\n"
366  ":param y_contact:\n:type y_contact: `Data`"  ":param y_contact:\n:type y_contact: `Data`"
367  )  )
368    
369          .def("addPDEToRHS",&ripley::RipleyDomain::addPDEToRHS,          .def("addPDEToRHS",&ripley::RipleyDomain::addPDEToRHS,
370  args("rhs", "X", "Y", "y", "y_contact"),  args("rhs", "X", "Y", "y", "y_contact"),
371  "adds a PDE onto the stiffness matrix mat and a rhs\n\n"  "adds a PDE onto the stiffness matrix mat and a rhs\n\n"
# Line 335  args("rhs", "X", "Y", "y", "y_contact"), Line 375  args("rhs", "X", "Y", "y", "y_contact"),
375  ":param y:\n:type y: `Data`\n"  ":param y:\n:type y: `Data`\n"
376  ":param y_contact:\n:type y_contact: `Data`"  ":param y_contact:\n:type y_contact: `Data`"
377  )  )
378            .def("addToRHS",&ripley::RipleyDomain::addToRHSFromPython,
379                args("rhs", "data"),
380                "adds a PDE onto the stiffness matrix mat and a rhs, "
381                "results depends on domain\n\n"
382                ":param rhs:\n:type rhs: `Data`\n"
383                ":param data:\ntype data: `list`")
384            .def("setAssembler", &ripley::RipleyDomain::setAssemblerFromPython,
385                args("typename", "options"),
386                "sets the domain to use the named assembler, if supported, using"
387                "the options if provided"
388                ":param typename:\n:type typename: `string`\n"
389                ":param options:\n:type options: `list`\n")
390          .def("addPDEToTransportProblem",&ripley::RipleyDomain::addPDEToTransportProblem,          .def("addPDEToTransportProblem",&ripley::RipleyDomain::addPDEToTransportProblem,
391  args( "tp", "source", "M", "A", "B", "C", "D", "X", "Y", "d", "y", "d_contact", "y_contact"),  args( "tp", "source", "M", "A", "B", "C", "D", "X", "Y", "d", "y", "d_contact", "y_contact"),
392  ":param tp:\n:type tp: `TransportProblemAdapter`\n"  ":param tp:\n:type tp: `TransportProblemAdapter`\n"
# Line 407  args("solver", "preconditioner", "packag Line 459  args("solver", "preconditioner", "packag
459          .def("onMasterProcessor",&ripley::RipleyDomain::onMasterProcessor,":return: True if this code is executing on the master process\n:rtype: `bool`");          .def("onMasterProcessor",&ripley::RipleyDomain::onMasterProcessor,":return: True if this code is executing on the master process\n:rtype: `bool`");
460    
461      class_<ripley::Brick, bases<ripley::RipleyDomain> >("RipleyBrick", "", no_init);      class_<ripley::Brick, bases<ripley::RipleyDomain> >("RipleyBrick", "", no_init);
462      class_<ripley::Rectangle, bases<ripley::RipleyDomain> >("RipleyRectangle", "", no_init);      class_<ripley::Rectangle, bases<ripley::RipleyDomain> >("RipleyRectangle", "", no_init)
463        .def("randomFill", &ripley::Rectangle::randomFill,":return: random data\n:rtype: `Data`\n:param seed: pass zero to use system generated seed\n:type seed: `int`\n"
464    ":param details: more info about the type of randomness\nCurrently, the only acceptable value for this tuple is ('gaussian', r, s) where r is the radius of the"
465    "guassian blur and s is the sigma parameter."
466        );
467  }  }
468    

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