// Copyright (C) 2013 Davis E. King (davis@dlib.net) // License: Boost Software License See LICENSE.txt for the full license. #include #include #include #include #include #include #include #include #include #include "serialize_pickle.h" #include "pyassert.h" using namespace std; using namespace dlib; using namespace boost::python; boost::shared_ptr > array_from_object(object obj) { extract thesize(obj); if (thesize.check()) { long nr = thesize; boost::shared_ptr > temp(new std::vector(nr)); return temp; } else { const long nr = len(obj); boost::shared_ptr > temp(new std::vector(nr)); for ( long r = 0; r < nr; ++r) { (*temp)[r] = extract(obj[r]); } return temp; } } string array__str__ (const std::vector& v) { std::ostringstream sout; for (unsigned long i = 0; i < v.size(); ++i) { sout << v[i]; if (i+1 < v.size()) sout << "\n"; } return sout.str(); } string array__repr__ (const std::vector& v) { std::ostringstream sout; sout << "dlib.array(["; for (unsigned long i = 0; i < v.size(); ++i) { sout << v[i]; if (i+1 < v.size()) sout << ", "; } sout << "])"; return sout.str(); } string range__str__ (const std::pair& p) { std::ostringstream sout; sout << p.first << ", " << p.second; return sout.str(); } string range__repr__ (const std::pair& p) { std::ostringstream sout; sout << "dlib.range(" << p.first << ", " << p.second << ")"; return sout.str(); } struct range_iter { std::pair range; unsigned long cur; unsigned long next() { if (cur < range.second) { return cur++; } else { PyErr_SetString(PyExc_StopIteration, "No more data."); boost::python::throw_error_already_set(); return 0; } } }; range_iter make_range_iterator (const std::pair& p) { range_iter temp; temp.range = p; temp.cur = p.first; return temp; } string pair__str__ (const std::pair& p) { std::ostringstream sout; sout << p.first << ": " << p.second; return sout.str(); } string pair__repr__ (const std::pair& p) { std::ostringstream sout; sout << "dlib.pair(" << p.first << ", " << p.second << ")"; return sout.str(); } string sparse_vector__str__ (const std::vector >& v) { std::ostringstream sout; for (unsigned long i = 0; i < v.size(); ++i) { sout << v[i].first << ": " << v[i].second; if (i+1 < v.size()) sout << "\n"; } return sout.str(); } string sparse_vector__repr__ (const std::vector >& v) { std::ostringstream sout; sout << "< dlib.sparse_vector containing: \n" << sparse_vector__str__(v) << " >"; return sout.str(); } template void resize(T& v, unsigned long n) { v.resize(n); } void bind_basic_types() { class_ >("array", init<>()) .def(vector_indexing_suite >()) .def("__init__", make_constructor(&array_from_object)) .def("__str__", array__str__) .def("__repr__", array__repr__) .def("clear", &std::vector::clear) .def("resize", resize >) .def_pickle(serialize_pickle >()); class_ > >("vectors", "This object is an array of vector objects.") .def(vector_indexing_suite > >()) .def("clear", &std::vector >::clear) .def("resize", resize > >) .def_pickle(serialize_pickle > >()); { typedef std::vector > > type; class_("vectorss", "This object is an array of arrays of vector objects.") .def(vector_indexing_suite()) .def("clear", &type::clear) .def("resize", resize) .def_pickle(serialize_pickle()); } typedef pair range_type; class_("range", "This object is used to represent a range of elements in an array.", init<>() ) .def(init()) .def_readwrite("begin",&range_type::first, "The index of the first element in the range.") .def_readwrite("end",&range_type::second, "One past the index of the last element in the range.") .def("__str__", range__str__) .def("__repr__", range__repr__) .def("__iter__", &make_range_iterator) .def_pickle(serialize_pickle()); class_("_range_iter") .def("next", &range_iter::next); { typedef std::vector > type; class_("ranges", "This object is an array of range objects.") .def(vector_indexing_suite()) .def("clear", &type::clear) .def("resize", resize) .def_pickle(serialize_pickle()); } { typedef std::vector > > type; class_("rangess", "This object is an array of arrays of range objects.") .def(vector_indexing_suite()) .def("clear", &type::clear) .def("resize", resize) .def_pickle(serialize_pickle()); } typedef pair pair_type; class_("pair", "This object is used to represent the elements of a sparse_vector.", init<>() ) .def(init()) .def_readwrite("first",&pair_type::first, "This field represents the index/dimension number.") .def_readwrite("second",&pair_type::second, "This field contains the value in a vector at dimension specified by the first field.") .def("__str__", pair__str__) .def("__repr__", pair__repr__) .def_pickle(serialize_pickle()); class_ >("sparse_vector", "This object represents the mathematical idea of a column vector.") .def(vector_indexing_suite >()) .def("__str__", sparse_vector__str__) .def("__repr__", sparse_vector__repr__) .def("clear", &std::vector::clear) .def("resize", resize >) .def_pickle(serialize_pickle >()); class_ > >("sparse_vectors", "This object is an array of sparse_vector objects.") .def(vector_indexing_suite > >()) .def("clear", &std::vector >::clear) .def("resize", resize > >) .def_pickle(serialize_pickle > >()); { typedef std::vector > > type; class_("sparse_vectorss", "This object is an array of arrays of sparse_vector objects.") .def(vector_indexing_suite()) .def("clear", &type::clear) .def("resize", resize) .def_pickle(serialize_pickle()); } }