from gen_function import * import string def gen_init_function(args): return ( """// (C) Copyright David Abrahams 2000. Permission to copy, use, modify, sell and // distribute this software is granted provided this copyright notice appears // in all copies. This software is provided "as is" without express or implied // warranty, and with no claim as to its suitability for any purpose. // // The author gratefully acknowleges the support of Dragon Systems, Inc., in // producing this work. // // This file was generated for %d-argument constructors by gen_init_function.py #ifndef INIT_FUNCTION_DWA052000_H_ # define INIT_FUNCTION_DWA052000_H_ # include "pyconfig.h" # include "functions.h" # include "signatures.h" # include namespace py { namespace detail { // parameter_traits - so far, this is a way to pass a const T& when we can be // sure T is not a reference type, and a raw T otherwise. This should be // rolled into boost::call_traits. Ordinarily, parameter_traits would be // written: // // template struct parameter_traits // { // typedef const T& const_reference; // }; // // template struct parameter_traits // { // typedef T& const_reference; // }; // // template <> struct parameter_traits // { // typedef void const_reference; // }; // // ...but since we can't partially specialize on reference types, we need this // long-winded but equivalent incantation. // const_ref_selector -- an implementation detail of parameter_traits (below). This uses // the usual "poor man's partial specialization" hack for MSVC. template struct const_ref_selector { template struct const_ref { typedef const T& type; }; }; template <> struct const_ref_selector { template struct const_ref { typedef T type; }; }; # ifdef BOOST_MSVC # pragma warning(push) # pragma warning(disable: 4181) # endif // BOOST_MSVC template struct parameter_traits { private: typedef const_ref_selector::value> selector; public: typedef typename selector::template const_ref::type const_reference; }; # ifdef BOOST_MSVC # pragma warning(pop) # endif // BOOST_MSVC // Full spcialization for void template <> struct parameter_traits { typedef void const_reference; }; template class reference_parameter { typedef typename parameter_traits::const_reference const_reference; public: reference_parameter(const_reference value) : value(value) {} operator const_reference() { return value; } private: const_reference value; }; class ExtensionInstance; class InstanceHolderBase; class Init; """ + gen_functions('template struct Init%x;\n', args) + """ template struct InitFunction { """ + gen_functions("""%{ template <%(class A%n%:, %)> %} static Init* create(Signature%x%{<%(A%n%:, %)>%}) { return new Init%x::const_reference%)>; } """, args)+"""}; class Init : public Function { private: // override Function hook PyObject* do_call(PyObject* args, PyObject* keywords) const; private: virtual InstanceHolderBase* create_holder(ExtensionInstance* self, PyObject* tail_args, PyObject* keywords) const = 0; }; """ + gen_functions(""" template struct Init%x : Init { virtual InstanceHolderBase* create_holder(ExtensionInstance* self, PyObject* args, PyObject* /*keywords*/) const { %(PyObject* a%n; %)if (!PyArg_ParseTuple(args, const_cast("%(O%)")%(, &a%n%))) throw ArgumentError(); return new T(self%(, py::detail::reference_parameter(from_python(a%n, Type()))%) ); } const char* description() const { return typeid(void (*)(T&%(, A%n%%))).name(); } };""", args) + """ }} // namespace py::detail #endif // INIT_FUNCTION_DWA052000_H_ """) if __name__ == '__main__': import sys if len(sys.argv) == 1: args = 5 else: args = int(sys.argv[1]) print gen_init_function(args)