-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D
+// Copyright (C) 2007-2016 CEA/DEN, EDF R&D
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
+// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
#include <vector>
-static PyObject* convertMEDFileMesh(ParaMEDMEM::MEDFileMesh* mesh, int owner) throw(INTERP_KERNEL::Exception)
+static PyObject *convertMEDFileMesh(MEDCoupling::MEDFileMesh* mesh, int owner) throw(INTERP_KERNEL::Exception)
{
PyObject *ret=0;
- if(dynamic_cast<ParaMEDMEM::MEDFileUMesh *>(mesh))
- ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_ParaMEDMEM__MEDFileUMesh,owner);
- if(dynamic_cast<ParaMEDMEM::MEDFileCMesh *>(mesh))
- ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_ParaMEDMEM__MEDFileCMesh,owner);
- if(dynamic_cast<ParaMEDMEM::MEDFileCurveLinearMesh *>(mesh))
- ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_ParaMEDMEM__MEDFileCurveLinearMesh,owner);
+ if(!mesh)
+ {
+ Py_XINCREF(Py_None);
+ return Py_None;
+ }
+ if(dynamic_cast<MEDCoupling::MEDFileUMesh *>(mesh))
+ ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_MEDCoupling__MEDFileUMesh,owner);
+ if(dynamic_cast<MEDCoupling::MEDFileCMesh *>(mesh))
+ ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_MEDCoupling__MEDFileCMesh,owner);
+ if(dynamic_cast<MEDCoupling::MEDFileCurveLinearMesh *>(mesh))
+ ret=SWIG_NewPointerObj((void*)mesh,SWIGTYPE_p_MEDCoupling__MEDFileCurveLinearMesh,owner);
if(!ret)
throw INTERP_KERNEL::Exception("Not recognized type of MEDFileMesh on downcast !");
return ret;
}
+static PyObject *convertMEDFileParameter1TS(MEDCoupling::MEDFileParameter1TS* p1ts, int owner) throw(INTERP_KERNEL::Exception)
+{
+ PyObject *ret=0;
+ if(!p1ts)
+ {
+ Py_XINCREF(Py_None);
+ return Py_None;
+ }
+ if(dynamic_cast<MEDFileParameterDouble1TS *>(p1ts))
+ ret=SWIG_NewPointerObj((void*)p1ts,SWIGTYPE_p_MEDCoupling__MEDFileParameterDouble1TS,owner);
+ if(dynamic_cast<MEDFileParameterDouble1TSWTI *>(p1ts))
+ ret=SWIG_NewPointerObj((void*)p1ts,SWIGTYPE_p_MEDCoupling__MEDFileParameterDouble1TSWTI,owner);
+ if(!ret)
+ throw INTERP_KERNEL::Exception("Not recognized type of MEDFileParameter1TS on downcast !");
+ return ret;
+}
+
+static PyObject *convertMEDFileField1TS(MEDCoupling::MEDFileAnyTypeField1TS *p, int owner) throw(INTERP_KERNEL::Exception)
+{
+ PyObject *ret=0;
+ if(!p)
+ {
+ Py_XINCREF(Py_None);
+ return Py_None;
+ }
+ if(dynamic_cast<MEDFileField1TS *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDFileField1TS,owner);
+ if(dynamic_cast<MEDFileIntField1TS *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDFileIntField1TS,owner);
+ if(!ret)
+ throw INTERP_KERNEL::Exception("Not recognized type of MEDFileAnyTypeField1TS on downcast !");
+ return ret;
+}
+
+static PyObject *convertMEDFileFieldMultiTS(MEDCoupling::MEDFileAnyTypeFieldMultiTS *p, int owner) throw(INTERP_KERNEL::Exception)
+{
+ PyObject *ret=0;
+ if(!p)
+ {
+ Py_XINCREF(Py_None);
+ return Py_None;
+ }
+ if(dynamic_cast<MEDFileFieldMultiTS *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDFileFieldMultiTS,owner);
+ if(dynamic_cast<MEDFileIntFieldMultiTS *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDFileIntFieldMultiTS,owner);
+ if(!ret)
+ throw INTERP_KERNEL::Exception("Not recognized type of MEDFileAnyTypeFieldMultiTS on downcast !");
+ return ret;
+}
+
+static PyObject *convertMEDMeshMultiLev(MEDCoupling::MEDMeshMultiLev *p, int owner) throw(INTERP_KERNEL::Exception)
+{
+ PyObject *ret=0;
+ if(!p)
+ {
+ Py_XINCREF(Py_None);
+ return Py_None;
+ }
+ if(dynamic_cast<MEDUMeshMultiLev *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDUMeshMultiLev,owner);
+ if(dynamic_cast<MEDCMeshMultiLev *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDCMeshMultiLev,owner);
+ if(dynamic_cast<MEDCurveLinearMeshMultiLev *>(p))
+ ret=SWIG_NewPointerObj((void*)p,SWIGTYPE_p_MEDCoupling__MEDCurveLinearMeshMultiLev,owner);
+ if(!ret)
+ throw INTERP_KERNEL::Exception("Not recognized type of MEDMeshMultiLev on downcast !");
+ return ret;
+}
+
static std::vector<std::pair<int,int> > convertTimePairIdsFromPy(PyObject *pyLi) throw(INTERP_KERNEL::Exception)
{
std::vector<std::pair<int,int> > ret;
}
}
-static PyObject *convertFieldDoubleVecToPy(const std::vector<ParaMEDMEM::MEDCouplingFieldDouble *>& li)
+static PyObject *convertFieldDoubleVecToPy(const std::vector<MEDCoupling::MEDCouplingFieldDouble *>& li)
{
int sz=li.size();
PyObject *ret=PyList_New(sz);
for(int i=0;i<sz;i++)
{
- PyObject *o=SWIG_NewPointerObj((void*)li[i],SWIGTYPE_p_ParaMEDMEM__MEDCouplingFieldDouble,SWIG_POINTER_OWN | 0);
+ PyObject *o=SWIG_NewPointerObj((void*)li[i],SWIGTYPE_p_MEDCoupling__MEDCouplingFieldDouble,SWIG_POINTER_OWN | 0);
PyList_SetItem(ret,i,o);
}
return ret;
}
+PyObject *convertVecPairIntToPy(const std::vector< std::pair<int,int> >& vec)
+{
+ PyObject *ret(PyList_New(vec.size()));
+ int rk=0;
+ for(std::vector< std::pair<int,int> >::const_iterator iter=vec.begin();iter!=vec.end();iter++,rk++)
+ {
+ PyObject *elt=PyTuple_New(2);
+ PyTuple_SetItem(elt,0,SWIG_From_int((*iter).first));
+ PyTuple_SetItem(elt,1,SWIG_From_int((*iter).second));
+ PyList_SetItem(ret,rk,elt);
+ }
+ return ret;
+}
+
PyObject *convertVecPairVecStToPy(const std::vector< std::pair<std::vector<std::string>, std::string > >& vec)
{
int sz=(int)vec.size();
throw INTERP_KERNEL::Exception(msg);
PyObject *o0=PyTuple_GetItem(o,0);
if(PyString_Check(o0))
- p.second=std::string(PyString_AsString(o0));
+ p.first=std::string(PyString_AsString(o0));
else
throw INTERP_KERNEL::Exception(msg);
PyObject *o1=PyTuple_GetItem(o,1);
PyObject *o0=PyTuple_GetItem(o,0);
if(PyList_Check(o0))
{
- int size2=PyList_Size(o0);
- p.first.resize(size2);
- for(int j=0;j<size2;j++)
+ int size3=PyList_Size(o0);
+ p.first.resize(size3);
+ for(int j=0;j<size3;j++)
{
PyObject *o0j=PyList_GetItem(o0,j);
if(PyString_Check(o0j))
}
throw INTERP_KERNEL::Exception(msg);
}
+
+/*!
+ * Called by MEDFileAnyTypeFieldMultiTS::__getitem__ when \a elt0 is neither a list nor a slice.
+ * In this case a MEDFileAnyTypeField1TS object is returned.
+ */
+int MEDFileAnyTypeFieldMultiTSgetitemSingleTS__(const MEDFileAnyTypeFieldMultiTS *self, PyObject *elt0) throw(INTERP_KERNEL::Exception)
+{
+ if(elt0 && PyInt_Check(elt0))
+ {//fmts[3]
+ return InterpreteNegativeInt(PyInt_AS_LONG(elt0),self->getNumberOfTS());
+ }
+ else if(elt0 && PyTuple_Check(elt0))
+ {
+ if(PyTuple_Size(elt0)==2)
+ {
+ PyObject *o0=PyTuple_GetItem(elt0,0);
+ PyObject *o1=PyTuple_GetItem(elt0,1);
+ if(PyInt_Check(o0) && PyInt_Check(o1))
+ {//fmts(1,-1)
+ int iter=PyInt_AS_LONG(o0);
+ int order=PyInt_AS_LONG(o1);
+ return self->getPosOfTimeStep(iter,order);
+ }
+ else
+ throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::__getitem__ : invalid input param ! input is a tuple of size 2 but two integers are expected in this tuple to request a time steps !");
+ }
+ else
+ throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::__getitem__ : invalid input param ! input is a tuple of size != 2 ! two integers are expected in this tuple to request a time steps !");
+ }
+ else if(elt0 && PyFloat_Check(elt0))
+ {
+ double val=PyFloat_AS_DOUBLE(elt0);
+ return self->getPosGivenTime(val);
+ }
+ else
+ throw INTERP_KERNEL::Exception("MEDFileAnyTypeFieldMultiTS::__getitem__ : invalid input params ! expected fmts[int], fmts[int,int], or fmts[double] to request one time step ! To request a series of time steps invoke fmts[slice], fmts[list of int], fmts[list of double], or fmts[list of int,int] !");
+}
+
+/*!
+ * Called by MEDFileAnyTypeFieldMultiTS::__getitem__ when \a obj is neither a list nor a slice.
+ * In this case a MEDFileAnyTypeField1TS object is returned.
+ */
+int MEDFileFieldsgetitemSingleTS__(const MEDFileFields *self, PyObject *obj) throw(INTERP_KERNEL::Exception)
+{
+ if(PyInt_Check(obj))
+ {
+ return InterpreteNegativeInt((int)PyInt_AS_LONG(obj),self->getNumberOfFields());
+ }
+ else if(PyString_Check(obj))
+ {
+ return self->getPosFromFieldName(PyString_AsString(obj));
+ }
+ else
+ throw INTERP_KERNEL::Exception("MEDFileFields::__getitem__ : only integer or string with fieldname supported !");
+}
+
+void convertToMapIntDataArrayInt(PyObject *pyMap, std::map<int, MCAuto<DataArrayInt> >& cppMap)
+{
+ if(!PyDict_Check(pyMap))
+ throw INTERP_KERNEL::Exception("convertToMapIntDataArrayInt : input is not a python map !");
+ PyObject *key, *value;
+ Py_ssize_t pos(0);
+ cppMap.clear();
+ while (PyDict_Next(pyMap,&pos,&key,&value))
+ {
+ if(!PyInt_Check(key))
+ throw INTERP_KERNEL::Exception("convertToMapIntDataArrayInt : keys in map must be PyInt !");
+ long k(PyInt_AS_LONG(key));
+ void *argp(0);
+ int status(SWIG_ConvertPtr(value,&argp,SWIGTYPE_p_MEDCoupling__DataArrayInt,0|0));
+ if(!SWIG_IsOK(status))
+ {
+ std::ostringstream oss; oss << "convertToMapIntDataArrayInt : values in map must be DataArrayInt !";
+ throw INTERP_KERNEL::Exception(oss.str().c_str());
+ }
+ DataArrayInt *arg(reinterpret_cast<DataArrayInt*>(argp));
+ MCAuto<DataArrayInt> arg2(arg);
+ if(arg)
+ arg->incrRef();
+ cppMap[k]=arg2;
+ }
+}
+