diff --git a/pytriqs/wrap_generator/wrapper.mako.cpp b/pytriqs/wrap_generator/wrapper.mako.cpp index 100ad370..c68b9431 100644 --- a/pytriqs/wrap_generator/wrapper.mako.cpp +++ b/pytriqs/wrap_generator/wrapper.mako.cpp @@ -133,7 +133,7 @@ static PyObject * ${c.py_type}_${op_name} (PyObject* v, PyObject *w); // start class : ${c.py_type} // ---------------------------- -//--------------------- define all the types and the py_converters ----------------------------- +//--------------------- define all the types and the converter functions ----------------------------- // the python type @@ -354,7 +354,7 @@ static PyTypeObject ${c.py_type}Type = { }; -//--------------------- py_converter of the class c ----------------------------- +//--------------------- converters for the class c ----------------------------- namespace triqs { namespace py_tools { @@ -370,14 +370,15 @@ template <> struct py_converter<${c.c_type}> { } static ${c.c_type} & py2c(PyObject * ob){ return *(((${c.py_type}*)ob)->_c);} - + static bool is_convertible(PyObject *ob, bool raise_exception){ - if (PyObject_TypeCheck(ob, & ${c.py_type}Type)) return true; - if (raise_exception) PyErr_SetString(PyExc_TypeError, "Python object is not a ${c.py_type}"); - return false; -} + if (PyObject_TypeCheck(ob, & ${c.py_type}Type)) return true; + if (raise_exception) PyErr_SetString(PyExc_TypeError, "Python object is not a ${c.py_type}"); + return false; + } }; +// TO BE MOVED IN GENERAL HPP %if c.implement_regular_type_converter : // ${c.py_type} is wrapping a view, we are also implementing the converter of the associated regular type template<> struct py_converter<${c.regular_type}> { @@ -450,24 +451,23 @@ template <> struct py_converter<${en.c_name}> { // return 1 (success), 0 (failure). If fails, also set the python exception which will be analyzed later. template static int converter_for_parser_non_wrapped_type(PyObject * ob, T * p) { - if (!py_converter::is_convertible(ob,true)) return 0; - *p = py_converter::py2c(ob); + if (!convertible_from_python(ob,true)) return 0; + *p = convert_from_python(ob); return 1; } template static int converter_for_parser_wrapped_type(PyObject * ob, T ** p) { - if (!py_converter::is_convertible(ob,true)) return 0; + if (!convertible_from_python(ob,true)) return 0; *p = &(convert_from_python(ob)); // wrapped types are manipulated by pointers. return 1; } template static int converter_for_parser_view_type(PyObject * ob, T * p) { - if (!py_converter::is_convertible(ob,true)) return 0; + if (!convertible_from_python(ob,true)) return 0; p->rebind(convert_from_python(ob)); return 1; } - //--------------------- define all functions/methods with args, kwds, including constructors ----------------------------- %for py_meth, module_or_class_name, self_c_type in module.all_args_kw_functions() : @@ -630,11 +630,10 @@ static PyObject * ${c.py_type}__get_member_${m.py_name} (PyObject *self, void *c %if not m.read_only: static int ${c.py_type}__set_member_${m.py_name} (PyObject *self, PyObject *value, void *closure) { if (value == NULL) { PyErr_SetString(PyExc_TypeError, "Cannot delete the attribute ${m.py_name}"); return -1; } - using conv = py_converter<${m.c_type}>; - if (!conv::is_convertible(value, true)) return -1;// exception is set by the converter + if (!convertible_from_python<${m.c_type}>(value, true)) return -1;// exception is set by the converter auto & self_c = convert_from_python<${c.c_type}>(self); try { - self_c.${m.c_name} = conv::py2c(value); + self_c.${m.c_name} = convert_from_python<${m.c_type}>(value); } CATCH_AND_RETURN("in setting the attribute '${m.py_name}'",-1); return 0; @@ -661,11 +660,10 @@ static PyObject * ${c.py_type}__get_prop_${p.name} (PyObject *self, void *closur %if p.setter : static int ${c.py_type}__set_prop_${p.name} (PyObject *self, PyObject *value, void *closure) { if (value == NULL) { PyErr_SetString(PyExc_AttributeError, "Cannot delete the attribute ${p.name}"); return -1; } - using conv = py_converter<${p.setter.args[0][0]}>; - if (!conv::is_convertible(value, true)) return -1; + if (!convertible_from_python<${p.setter.args[0][0]}>(value, true)) return -1; auto & self_c = convert_from_python<${c.c_type}>(self); try { - self_c.${p.setter.c_name} (conv::py2c(value)); + self_c.${p.setter.c_name} (convert_from_python<${p.setter.args[0][0]}>(value)); } CATCH_AND_RETURN("in setting the attribute '${m.py_name}'",-1); return 0; @@ -849,7 +847,7 @@ static PyObject * ${c.py_type}_${op_name} (PyObject* v, PyObject *w){ %endif %for overload in op.overloads : - if (py_converter<${overload.args[0][0]}>::is_convertible(v,false) && py_converter<${overload.args[1][0]}>::is_convertible(w,false)) { + if (convertible_from_python<${overload.args[0][0]}>(v,false) && convertible_from_python<${overload.args[1][0]}>(w,false)) { try { ${regular_type_if_view_else_type(overload.rtype)} r = convert_from_python<${overload.args[0][0]}>(v) ${overload.calling_pattern()} convert_from_python<${overload.args[1][0]}>(w); return convert_to_python(std::move(r)); // in two steps to force type for expression templates in C++ diff --git a/triqs/python_tools/wrapper_tools.hpp b/triqs/python_tools/wrapper_tools.hpp index 05be25f9..0bfdb3c8 100644 --- a/triqs/python_tools/wrapper_tools.hpp +++ b/triqs/python_tools/wrapper_tools.hpp @@ -56,10 +56,11 @@ class pyref { //--------------------- py_converters ----------------------------- +// default version for a wrapped type. To be specialized later. template struct py_converter { static void ** init(); static PyObject * c2py(T const & x); - static T py2c(PyObject * ob); + static T & py2c(PyObject * ob); static bool is_convertible(PyObject * ob, bool raise_exception); };