boost_1_45_0/libs/python/src/converter/from_python.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 // Copyright David Abrahams 2002.
 // Distributed under the Boost Software License, Version 1.0. (See
 // accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)

 #include <boost/python/converter/from_python.hpp>
 #include <boost/python/converter/registrations.hpp>
 #include <boost/python/converter/rvalue_from_python_data.hpp>

 #include <boost/python/object/find_instance.hpp>

 #include <boost/python/handle.hpp>
 #include <boost/python/detail/raw_pyobject.hpp>
 #include <boost/python/cast.hpp>

 #include <vector>
 #include <algorithm>

 namespace boost { namespace python { namespace converter {

 // rvalue_from_python_stage1 -- do the first stage of a conversion
 // from a Python object to a C++ rvalue.
 //
 //    source     - the Python object to be converted
 //    converters - the registry entry for the target type T
 //
 // Postcondition: where x is the result, one of:
 //
 //   1. x.convertible == 0, indicating failure
 //
 //   2. x.construct == 0, x.convertible is the address of an object of
 //      type T. Indicates a successful lvalue conversion
 //
 //   3. where y is of type rvalue_from_python_data<T>,
 //      x.construct(source, y) constructs an object of type T
 //      in y.storage.bytes and then sets y.convertible == y.storage.bytes,
 //      or else throws an exception and has no effect.
 BOOST_PYTHON_DECL rvalue_from_python_stage1_data rvalue_from_python_stage1(
     PyObject* source
     , registration const& converters)
 {
     rvalue_from_python_stage1_data data;

     // First check to see if it's embedded in an extension class
     // instance, as a special case.
     data.convertible = objects::find_instance_impl(source, converters.target_type, converters.is_shared_ptr);
     if (data.convertible)
     {
         data.construct = 0;
     }
     else
     {
         for (rvalue_from_python_chain const* chain = converters.rvalue_chain;
              chain != 0;
              chain = chain->next)
         {
             void* r = chain->convertible(source);
             if (r != 0)
             {
                 data.convertible = r;
                 data.construct = chain->construct;
                 break;
             }
         }
     }
     return data;
 }

 // rvalue_result_from_python -- return the address of a C++ object which
 // can be used as the result of calling a Python function.
 //
 //      src  - the Python object to be converted
 //
 //      data - a reference to the base part of a
 //             rvalue_from_python_data<T> object, where T is the
 //             target type of the conversion.
 //
 // Requires: data.convertible == &registered<T>::converters
 //
 BOOST_PYTHON_DECL void* rvalue_result_from_python(
     PyObject* src, rvalue_from_python_stage1_data& data)
 {
     // Retrieve the registration
     // Cast in two steps for less-capable compilers
     void const* converters_ = data.convertible;
     registration const& converters = *static_cast<registration const*>(converters_);

     // Look for an eligible converter
     data = rvalue_from_python_stage1(src, converters);
     return rvalue_from_python_stage2(src, data, converters);
 }

 BOOST_PYTHON_DECL void* rvalue_from_python_stage2(
     PyObject* source, rvalue_from_python_stage1_data& data, registration const& converters)
 {
     if (!data.convertible)
     {
         handle<> msg(
 #if PY_VERSION_HEX >= 0x03000000
             ::PyUnicode_FromFormat
 #else
             ::PyString_FromFormat
 #endif
                 (
                 "No registered converter was able to produce a C++ rvalue of type %s from this Python object of type %s"
                 , converters.target_type.name()
                 , source->ob_type->tp_name
                 ));

         PyErr_SetObject(PyExc_TypeError, msg.get());
         throw_error_already_set();
     }

     // If a construct function was registered (i.e. we found an
     // rvalue conversion), call it now.
     if (data.construct != 0)
         data.construct(source, &data);

     // Return the address of the resulting C++ object
     return data.convertible;
 }

 BOOST_PYTHON_DECL void* get_lvalue_from_python(
     PyObject* source
     , registration const& converters)
 {
     // Check to see if it's embedded in a class instance
     void* x = objects::find_instance_impl(source, converters.target_type);
     if (x)
         return x;

     lvalue_from_python_chain const* chain = converters.lvalue_chain;
     for (;chain != 0; chain = chain->next)
     {
         void* r = chain->convert(source);
         if (r != 0)
             return r;
     }
     return 0;
 }

 namespace
 {
   // Prevent looping in implicit conversions. This could/should be
   // much more efficient, but will work for now.
   typedef std::vector<rvalue_from_python_chain const*> visited_t;
   static visited_t visited;

   inline bool visit(rvalue_from_python_chain const* chain)
   {
       visited_t::iterator const p = std::lower_bound(visited.begin(), visited.end(), chain);
       if (p != visited.end() && *p == chain)
           return false;
       visited.insert(p, chain);
       return true;
   }

   // RAII class for managing global visited marks.
   struct unvisit
   {
       unvisit(rvalue_from_python_chain const* chain)
           : chain(chain) {}

       ~unvisit()
       {
           visited_t::iterator const p = std::lower_bound(visited.begin(), visited.end(), chain);
           assert(p != visited.end());
           visited.erase(p);
       }
    private:
       rvalue_from_python_chain const* chain;
   };
 }


 BOOST_PYTHON_DECL bool implicit_rvalue_convertible_from_python(
     PyObject* source
     , registration const& converters)
 {
     if (objects::find_instance_impl(source, converters.target_type))
         return true;

     rvalue_from_python_chain const* chain = converters.rvalue_chain;

     if (!visit(chain))
         return false;

     unvisit protect(chain);

     for (;chain != 0; chain = chain->next)
     {
         if (chain->convertible(source))
             return true;
     }

     return false;
 }

 namespace
 {
   void throw_no_lvalue_from_python(PyObject* source, registration const& converters, char const* ref_type)
   {
       handle<> msg(
 #if PY_VERSION_HEX >= 0x03000000
           ::PyUnicode_FromFormat
 #else
           ::PyString_FromFormat
 #endif
               (
               "No registered converter was able to extract a C++ %s to type %s"
               " from this Python object of type %s"
               , ref_type
               , converters.target_type.name()
               , source->ob_type->tp_name
               ));

       PyErr_SetObject(PyExc_TypeError, msg.get());

       throw_error_already_set();
   }

   void* lvalue_result_from_python(
       PyObject* source
       , registration const& converters
       , char const* ref_type)
   {
       handle<> holder(source);
       if (source->ob_refcnt <= 1)
       {
           handle<> msg(
 #if PY_VERSION_HEX >= 0x3000000
               ::PyUnicode_FromFormat
 #else
               ::PyString_FromFormat
 #endif
                   (
                   "Attempt to return dangling %s to object of type: %s"
                   , ref_type
                   , converters.target_type.name()));

           PyErr_SetObject(PyExc_ReferenceError, msg.get());

           throw_error_already_set();
       }

       void* result = get_lvalue_from_python(source, converters);
       if (!result)
           (throw_no_lvalue_from_python)(source, converters, ref_type);
       return result;
   }

 }

 BOOST_PYTHON_DECL void throw_no_pointer_from_python(PyObject* source, registration const& converters)
 {
     (throw_no_lvalue_from_python)(source, converters, "pointer");
 }

 BOOST_PYTHON_DECL void throw_no_reference_from_python(PyObject* source, registration const& converters)
 {
     (throw_no_lvalue_from_python)(source, converters, "reference");
 }

 BOOST_PYTHON_DECL void* reference_result_from_python(
     PyObject* source
     , registration const& converters)
 {
     return (lvalue_result_from_python)(source, converters, "reference");
 }

 BOOST_PYTHON_DECL void* pointer_result_from_python(
     PyObject* source
     , registration const& converters)
 {
     if (source == Py_None)
     {
         Py_DECREF(source);
         return 0;
     }
     return (lvalue_result_from_python)(source, converters, "pointer");
 }

 BOOST_PYTHON_DECL void void_result_from_python(PyObject* o)
 {
     Py_DECREF(expect_non_null(o));
 }

 } // namespace boost::python::converter

 BOOST_PYTHON_DECL PyObject*
 pytype_check(PyTypeObject* type_, PyObject* source)
 {
     if (!PyObject_IsInstance(source, python::upcast<PyObject>(type_)))
     {
         ::PyErr_Format(
             PyExc_TypeError
             , "Expecting an object of type %s; got an object of type %s instead"
             , type_->tp_name
             , source->ob_type->tp_name
             );
         throw_error_already_set();
     }
     return source;
 }

 }} // namespace boost::python
	// Copyright David Abrahams 2002.
	// Distributed under the Boost Software License, Version 1.0. (See
	// accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)

	#include <boost/python/converter/from_python.hpp>
	#include <boost/python/converter/registrations.hpp>
	#include <boost/python/converter/rvalue_from_python_data.hpp>

	#include <boost/python/object/find_instance.hpp>

	#include <boost/python/handle.hpp>
	#include <boost/python/detail/raw_pyobject.hpp>
	#include <boost/python/cast.hpp>

	#include <vector>
	#include <algorithm>

	namespace boost { namespace python { namespace converter {

	// rvalue_from_python_stage1 -- do the first stage of a conversion
	// from a Python object to a C++ rvalue.
	//
	// source - the Python object to be converted
	// converters - the registry entry for the target type T
	//
	// Postcondition: where x is the result, one of:
	//
	// 1. x.convertible == 0, indicating failure
	//
	// 2. x.construct == 0, x.convertible is the address of an object of
	// type T. Indicates a successful lvalue conversion
	//
	// 3. where y is of type rvalue_from_python_data<T>,
	// x.construct(source, y) constructs an object of type T
	// in y.storage.bytes and then sets y.convertible == y.storage.bytes,
	// or else throws an exception and has no effect.
	BOOST_PYTHON_DECL rvalue_from_python_stage1_data rvalue_from_python_stage1(
	PyObject* source
	, registration const& converters)
	{
	rvalue_from_python_stage1_data data;

	// First check to see if it's embedded in an extension class
	// instance, as a special case.
	data.convertible = objects::find_instance_impl(source, converters.target_type, converters.is_shared_ptr);
	if (data.convertible)
	{
	data.construct = 0;
	}
	else
	{
	for (rvalue_from_python_chain const* chain = converters.rvalue_chain;
	chain != 0;
	chain = chain->next)
	{
	void* r = chain->convertible(source);
	if (r != 0)
	{
	data.convertible = r;
	data.construct = chain->construct;
	break;
	}
	}
	}
	return data;
	}

	// rvalue_result_from_python -- return the address of a C++ object which
	// can be used as the result of calling a Python function.
	//
	// src - the Python object to be converted
	//
	// data - a reference to the base part of a
	// rvalue_from_python_data<T> object, where T is the
	// target type of the conversion.
	//
	// Requires: data.convertible == &registered<T>::converters
	//
	BOOST_PYTHON_DECL void* rvalue_result_from_python(
	PyObject* src, rvalue_from_python_stage1_data& data)
	{
	// Retrieve the registration
	// Cast in two steps for less-capable compilers
	void const* converters_ = data.convertible;
	registration const& converters = static_cast<registration const>(converters_);

	// Look for an eligible converter
	data = rvalue_from_python_stage1(src, converters);
	return rvalue_from_python_stage2(src, data, converters);
	}

	BOOST_PYTHON_DECL void* rvalue_from_python_stage2(
	PyObject* source, rvalue_from_python_stage1_data& data, registration const& converters)
	{
	if (!data.convertible)
	{
	handle<> msg(
	#if PY_VERSION_HEX >= 0x03000000
	::PyUnicode_FromFormat
	#else
	::PyString_FromFormat
	#endif
	(
	"No registered converter was able to produce a C++ rvalue of type %s from this Python object of type %s"
	, converters.target_type.name()
	, source->ob_type->tp_name
	));

	PyErr_SetObject(PyExc_TypeError, msg.get());
	throw_error_already_set();
	}

	// If a construct function was registered (i.e. we found an
	// rvalue conversion), call it now.
	if (data.construct != 0)
	data.construct(source, &data);

	// Return the address of the resulting C++ object
	return data.convertible;
	}

	BOOST_PYTHON_DECL void* get_lvalue_from_python(
	PyObject* source
	, registration const& converters)
	{
	// Check to see if it's embedded in a class instance
	void* x = objects::find_instance_impl(source, converters.target_type);
	if (x)
	return x;

	lvalue_from_python_chain const* chain = converters.lvalue_chain;
	for (;chain != 0; chain = chain->next)
	{
	void* r = chain->convert(source);
	if (r != 0)
	return r;
	}
	return 0;
	}

	namespace
	{
	// Prevent looping in implicit conversions. This could/should be
	// much more efficient, but will work for now.
	typedef std::vector<rvalue_from_python_chain const*> visited_t;
	static visited_t visited;

	inline bool visit(rvalue_from_python_chain const* chain)
	{
	visited_t::iterator const p = std::lower_bound(visited.begin(), visited.end(), chain);
	if (p != visited.end() && *p == chain)
	return false;
	visited.insert(p, chain);
	return true;
	}

	// RAII class for managing global visited marks.
	struct unvisit
	{
	unvisit(rvalue_from_python_chain const* chain)
	: chain(chain) {}

	~unvisit()
	{
	visited_t::iterator const p = std::lower_bound(visited.begin(), visited.end(), chain);
	assert(p != visited.end());
	visited.erase(p);
	}
	private:
	rvalue_from_python_chain const* chain;
	};
	}


	BOOST_PYTHON_DECL bool implicit_rvalue_convertible_from_python(
	PyObject* source
	, registration const& converters)
	{
	if (objects::find_instance_impl(source, converters.target_type))
	return true;

	rvalue_from_python_chain const* chain = converters.rvalue_chain;

	if (!visit(chain))
	return false;

	unvisit protect(chain);

	for (;chain != 0; chain = chain->next)
	{
	if (chain->convertible(source))
	return true;
	}

	return false;
	}

	namespace
	{
	void throw_no_lvalue_from_python(PyObject* source, registration const& converters, char const* ref_type)
	{
	handle<> msg(
	#if PY_VERSION_HEX >= 0x03000000
	::PyUnicode_FromFormat
	#else
	::PyString_FromFormat
	#endif
	(
	"No registered converter was able to extract a C++ %s to type %s"
	" from this Python object of type %s"
	, ref_type
	, converters.target_type.name()
	, source->ob_type->tp_name
	));

	PyErr_SetObject(PyExc_TypeError, msg.get());

	throw_error_already_set();
	}

	void* lvalue_result_from_python(
	PyObject* source
	, registration const& converters
	, char const* ref_type)
	{
	handle<> holder(source);
	if (source->ob_refcnt <= 1)
	{
	handle<> msg(
	#if PY_VERSION_HEX >= 0x3000000
	::PyUnicode_FromFormat
	#else
	::PyString_FromFormat
	#endif
	(
	"Attempt to return dangling %s to object of type: %s"
	, ref_type
	, converters.target_type.name()));

	PyErr_SetObject(PyExc_ReferenceError, msg.get());

	throw_error_already_set();
	}

	void* result = get_lvalue_from_python(source, converters);
	if (!result)
	(throw_no_lvalue_from_python)(source, converters, ref_type);
	return result;
	}

	}

	BOOST_PYTHON_DECL void throw_no_pointer_from_python(PyObject* source, registration const& converters)
	{
	(throw_no_lvalue_from_python)(source, converters, "pointer");
	}

	BOOST_PYTHON_DECL void throw_no_reference_from_python(PyObject* source, registration const& converters)
	{
	(throw_no_lvalue_from_python)(source, converters, "reference");
	}

	BOOST_PYTHON_DECL void* reference_result_from_python(
	PyObject* source
	, registration const& converters)
	{
	return (lvalue_result_from_python)(source, converters, "reference");
	}

	BOOST_PYTHON_DECL void* pointer_result_from_python(
	PyObject* source
	, registration const& converters)
	{
	if (source == Py_None)
	{
	Py_DECREF(source);
	return 0;
	}
	return (lvalue_result_from_python)(source, converters, "pointer");
	}

	BOOST_PYTHON_DECL void void_result_from_python(PyObject* o)
	{
	Py_DECREF(expect_non_null(o));
	}

	} // namespace boost::python::converter

	BOOST_PYTHON_DECL PyObject*
	pytype_check(PyTypeObject* type_, PyObject* source)
	{
	if (!PyObject_IsInstance(source, python::upcast<PyObject>(type_)))
	{
	::PyErr_Format(
	PyExc_TypeError
	, "Expecting an object of type %s; got an object of type %s instead"
	, type_->tp_name
	, source->ob_type->tp_name
	);
	throw_error_already_set();
	}
	return source;
	}

	}} // namespace boost::python