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dft_tools/triqs/arrays/python/numpy_extractor.hpp
Olivier Parcollet f2c7d449cc First commit : triqs libs version 1.0 alpha1
for earlier commits, see TRIQS0.x repository.
2013-07-17 19:24:07 +02:00

173 lines
7.4 KiB
C++

/*******************************************************************************
*
* TRIQS: a Toolbox for Research in Interacting Quantum Systems
*
* Copyright (C) 2011 by O. Parcollet
*
* TRIQS is free software: you can redistribute it and/or modify it under the
* terms of the GNU General Public License as published by the Free Software
* Foundation, either version 3 of the License, or (at your option) any later
* version.
*
* TRIQS is distributed in the hope that it will be useful, but WITHOUT ANY
* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
* details.
*
* You should have received a copy of the GNU General Public License along with
* TRIQS. If not, see <http://www.gnu.org/licenses/>.
*
******************************************************************************/
#ifndef TRIQS_ARRAYS_NUMPY_EXTRACTOR_H
#define TRIQS_ARRAYS_NUMPY_EXTRACTOR_H
#ifdef TRIQS_WITH_PYTHON_SUPPORT
#include "../storages/shared_block.hpp"
#include "triqs/utility/exceptions.hpp"
#include "numpy/arrayobject.h"
namespace triqs { namespace arrays { namespace numpy_interface {
inline std::string object_to_string (PyObject * p) {
if (!PyString_Check(p)) TRIQS_RUNTIME_ERROR<<" Internal error, expected a python string .....";
return PyString_AsString(p);
}
template <class T> struct numpy_to_C_type;
#define CONVERT(C,P) template <> struct numpy_to_C_type<C> { enum {arraytype = P}; }
CONVERT(bool, NPY_BOOL);
CONVERT(char, NPY_CHAR);
CONVERT(signed char, NPY_BYTE);
CONVERT(unsigned char, NPY_UBYTE);
CONVERT(short, NPY_SHORT);
CONVERT(unsigned short, NPY_USHORT);
CONVERT(int, NPY_INT);
CONVERT(unsigned int, NPY_UINT);
CONVERT(long, NPY_LONG);
CONVERT(unsigned long, NPY_ULONG);
CONVERT(long long, NPY_LONGLONG);
CONVERT(unsigned long long, NPY_ULONGLONG);
CONVERT(float, NPY_FLOAT);
CONVERT(double, NPY_DOUBLE);
CONVERT(long double, NPY_LONGDOUBLE);
CONVERT(std::complex<float>, NPY_CFLOAT);
CONVERT(std::complex<double>, NPY_CDOUBLE);
CONVERT(std::complex<long double>, NPY_CLONGDOUBLE);
#undef CONVERT
struct copy_exception : public triqs::runtime_error {};
// return a NEW (owned) reference
//
inline PyObject * numpy_extractor_impl ( PyObject * X, bool allow_copy, std::string type_name,
int elementsType, int rank, size_t * lengths, std::ptrdiff_t * strides, size_t size_of_ValueType) {
PyObject * numpy_obj;
if (X==NULL) TRIQS_RUNTIME_ERROR<<"numpy interface : the python object is NULL !";
if (_import_array()!=0) TRIQS_RUNTIME_ERROR <<"Internal Error in importing numpy";
static const char * error_msg = " A deep copy of the object would be necessary while views are supposed to guarantee to present a *view* of the python data.\n";
if (!allow_copy) {
if (!PyArray_Check(X)) throw copy_exception () << error_msg<<" Indeed the object was not even an array !\n";
if ( elementsType != PyArray_TYPE((PyArrayObject*)X))
throw copy_exception () << error_msg<<" The deep copy is caused by a type mismatch of the elements. Expected "<< type_name<< " and found XXX \n";
PyArrayObject *arr = (PyArrayObject *)X;
#ifdef TRIQS_NUMPY_VERSION_LT_17
if ( arr->nd != rank) throw copy_exception () << error_msg<<" Rank mismatch . numpy array is of rank "<< arr->nd << "while you ask for rank "<< rank<<". \n";
#else
if ( PyArray_NDIM(arr) != rank) throw copy_exception () << error_msg<<" Rank mismatch . numpy array is of rank "<< PyArray_NDIM(arr) << "while you ask for rank "<< rank<<". \n";
#endif
numpy_obj = X; Py_INCREF(X);
}
else {
// From X, we ask the numpy library to make a numpy, and of the correct type.
// This handles automatically the cases where :
// - we have list, or list of list/tuple
// - the numpy type is not the one we want.
// - adjust the dimension if needed
// If X is an array :
// - if Order is same, don't change it
// - else impose it (may provoque a copy).
// if X is not array :
// - Order = FortranOrder or SameOrder - > Fortran order otherwise C
//bool ForceCast = false;// Unless FORCECAST is present in flags, this call will generate an error if the data type cannot be safely obtained from the object.
int flags = 0; //(ForceCast ? NPY_FORCECAST : 0) ;// do NOT force a copy | (make_copy ? NPY_ENSURECOPY : 0);
if (!(PyArray_Check(X) ))
//flags |= ( IndexMapType::traversal_order == indexmaps::mem_layout::c_order(rank) ? NPY_C_CONTIGUOUS : NPY_F_CONTIGUOUS); //impose mem order
#ifdef TRIQS_NUMPY_VERSION_LT_17
flags |= (NPY_C_CONTIGUOUS); //impose mem order
#else
flags |= (NPY_ARRAY_C_CONTIGUOUS); //impose mem order
#endif
numpy_obj= PyArray_FromAny(X,PyArray_DescrFromType(elementsType), rank,rank, flags , NULL );
// do several checks
if (!numpy_obj) {// The convertion of X to a numpy has failed !
if (PyErr_Occurred()) {PyErr_Print();PyErr_Clear();}
TRIQS_RUNTIME_ERROR<<"numpy interface : the python object is not convertible to a numpy. ";
}
assert (PyArray_Check(numpy_obj)); assert((numpy_obj->ob_refcnt==1) || ((numpy_obj ==X)));
PyArrayObject *arr_obj;
arr_obj = (PyArrayObject *)numpy_obj;
try {
#ifdef TRIQS_NUMPY_VERSION_LT_17
if (arr_obj->nd!=rank) TRIQS_RUNTIME_ERROR<<"numpy interface : internal error : dimensions do not match";
if (arr_obj->descr->type_num != elementsType)
TRIQS_RUNTIME_ERROR<<"numpy interface : internal error : incorrect type of element :" <<arr_obj->descr->type_num <<" vs "<<elementsType;
#else
if ( PyArray_NDIM(arr_obj) !=rank) TRIQS_RUNTIME_ERROR<<"numpy interface : internal error : dimensions do not match";
if ( PyArray_DESCR(arr_obj)->type_num != elementsType)
TRIQS_RUNTIME_ERROR<<"numpy interface : internal error : incorrect type of element :" <<PyArray_DESCR(arr_obj)->type_num <<" vs "<<elementsType;
#endif
}
catch(...) { Py_DECREF(numpy_obj); throw;} // make sure that in case of problem, the reference counting of python is still ok...
}
// extract strides and lengths
PyArrayObject *arr_obj;
arr_obj = (PyArrayObject *)numpy_obj;
#ifdef TRIQS_NUMPY_VERSION_LT_17
const size_t dim =arr_obj->nd; // we know that dim == rank
for (size_t i=0; i< dim ; ++i) {
lengths[i] = size_t(arr_obj-> dimensions[i]);
strides[i] = std::ptrdiff_t(arr_obj-> strides[i])/ size_of_ValueType;
}
#else
const size_t dim = PyArray_NDIM(arr_obj); // we know that dim == rank
for (size_t i=0; i< dim ; ++i) {
lengths[i] = size_t( PyArray_DIMS(arr_obj)[i]);
strides[i] = std::ptrdiff_t( PyArray_STRIDES(arr_obj)[i])/ size_of_ValueType;
}
#endif
return numpy_obj;
}
// a little template class
template<typename IndexMapType, typename ValueType > struct numpy_extractor {
numpy_extractor (PyObject * X, bool allow_copy) {
numpy_obj = numpy_extractor_impl (X, allow_copy, typeid(ValueType).name(), numpy_to_C_type<typename boost::remove_const<ValueType>::type>::arraytype, IndexMapType::rank,
&lengths[0], &strides[0],sizeof(ValueType));
}
~numpy_extractor(){ Py_DECREF(numpy_obj);}
IndexMapType indexmap() const { return IndexMapType (lengths,strides,0); }
storages::shared_block<ValueType> storage() const { return storages::shared_block<ValueType> (numpy_obj,true); }
// true means borrowed : object is owned by this class, which will decref it in case of exception ...
private:
PyObject * numpy_obj;
mini_vector<size_t,IndexMapType::rank> lengths;
mini_vector<std::ptrdiff_t,IndexMapType::rank> strides;
};
}}}
#endif
#endif