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

 //  Copyright David Abrahams 2001.
 // 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/registry.hpp>
 #include <boost/python/converter/registrations.hpp>
 #include <boost/python/converter/builtin_converters.hpp>

 #include <set>
 #include <stdexcept>

 #if defined(__APPLE__) && defined(__MACH__) && defined(__GNUC__) \
  && __GNUC__ == 3 && __GNUC_MINOR__ <= 4 && !defined(__APPLE_CC__)
 # define BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND
 #endif

 #if defined(BOOST_PYTHON_TRACE_REGISTRY) \
  || defined(BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND)
 # include <iostream>
 #endif

 namespace boost { namespace python { namespace converter {
 BOOST_PYTHON_DECL PyTypeObject const* registration::expected_from_python_type() const
 {
     if (this->m_class_object != 0)
         return this->m_class_object;

     std::set<PyTypeObject const*> pool;

     for(rvalue_from_python_chain* r = rvalue_chain; r ; r=r->next)
         if(r->expected_pytype)
             pool.insert(r->expected_pytype());

     //for now I skip the search for common base
     if (pool.size()==1)
         return *pool.begin();

     return 0;

 }

 BOOST_PYTHON_DECL PyTypeObject const* registration::to_python_target_type() const
 {
     if (this->m_class_object != 0)
         return this->m_class_object;

     if (this->m_to_python_target_type != 0)
         return this->m_to_python_target_type();

     return 0;
 }

 BOOST_PYTHON_DECL PyTypeObject* registration::get_class_object() const
 {
     if (this->m_class_object == 0)
     {
         ::PyErr_Format(
             PyExc_TypeError
             , const_cast<char*>("No Python class registered for C++ class %s")
             , this->target_type.name());

         throw_error_already_set();
     }

     return this->m_class_object;
 }

 BOOST_PYTHON_DECL PyObject* registration::to_python(void const volatile* source) const
 {
     if (this->m_to_python == 0)
     {
         handle<> msg(
 #if PY_VERSION_HEX >= 0x3000000
             ::PyUnicode_FromFormat
 #else
             ::PyString_FromFormat
 #endif
             (
                 "No to_python (by-value) converter found for C++ type: %s"
                 , this->target_type.name()
                 )
             );

         PyErr_SetObject(PyExc_TypeError, msg.get());

         throw_error_already_set();
     }

     return source == 0
         ? incref(Py_None)
         : this->m_to_python(const_cast<void*>(source));
 }

 namespace
 {
   template< typename T >
   void delete_node( T* node )
   {
       if( !!node && !!node->next )
           delete_node( node->next );
       delete node;
   }
 }

 registration::~registration()
 {
   delete_node(lvalue_chain);
   delete_node(rvalue_chain);
 }


 namespace // <unnamed>
 {
   typedef registration entry;

   typedef std::set<entry> registry_t;

 #ifndef BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND
   registry_t& entries()
   {
       static registry_t registry;

 # ifndef BOOST_PYTHON_SUPPRESS_REGISTRY_INITIALIZATION
       static bool builtin_converters_initialized = false;
       if (!builtin_converters_initialized)
       {
           // Make this true early because registering the builtin
           // converters will cause recursion.
           builtin_converters_initialized = true;

           initialize_builtin_converters();
       }
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "registry: ";
       for (registry_t::iterator p = registry.begin(); p != registry.end(); ++p)
       {
           std::cout << p->target_type << "; ";
       }
       std::cout << '\n';
 #  endif
 # endif
       return registry;
   }
 #else
   registry_t& static_registry()
   {
     static registry_t result;
     return result;
   }

   bool static_builtin_converters_initialized()
   {
     static bool result = false;
     if (result == false) {
       result = true;
       std::cout << std::flush;
       return false;
     }
     return true;
   }

   registry_t& entries()
   {
 # ifndef BOOST_PYTHON_SUPPRESS_REGISTRY_INITIALIZATION
       if (!static_builtin_converters_initialized())
       {
           initialize_builtin_converters();
       }
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "registry: ";
       for (registry_t::iterator p = static_registry().begin(); p != static_registry().end(); ++p)
       {
           std::cout << p->target_type << "; ";
       }
       std::cout << '\n';
 #  endif
 # endif
       return static_registry();
   }
 #endif // BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND

   entry* get(type_info type, bool is_shared_ptr = false)
   {
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       registry_t::iterator p = entries().find(entry(type));

       std::cout << "looking up " << type << ": "
                 << (p == entries().end() || p->target_type != type
                     ? "...NOT found\n" : "...found\n");
 #  endif
       std::pair<registry_t::const_iterator,bool> pos_ins
           = entries().insert(entry(type,is_shared_ptr));

 #  if __MWERKS__ >= 0x3000
       // do a little invariant checking if a change was made
       if ( pos_ins.second )
           assert(entries().invariants());
 #  endif
       return const_cast<entry*>(&*pos_ins.first);
   }
 } // namespace <unnamed>

 namespace registry
 {
   void insert(to_python_function_t f, type_info source_t, PyTypeObject const* (*to_python_target_type)())
   {
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "inserting to_python " << source_t << "\n";
 #  endif
       entry* slot = get(source_t);

       assert(slot->m_to_python == 0); // we have a problem otherwise
       if (slot->m_to_python != 0)
       {
           std::string msg = (
               std::string("to-Python converter for ")
               + source_t.name()
               + " already registered; second conversion method ignored."
           );

           if ( ::PyErr_Warn( NULL, const_cast<char*>(msg.c_str()) ) )
           {
               throw_error_already_set();
           }
       }
       slot->m_to_python = f;
       slot->m_to_python_target_type = to_python_target_type;
   }

   // Insert an lvalue from_python converter
   void insert(convertible_function convert, type_info key, PyTypeObject const* (*exp_pytype)())
   {
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "inserting lvalue from_python " << key << "\n";
 #  endif
       entry* found = get(key);
       lvalue_from_python_chain *registration = new lvalue_from_python_chain;
       registration->convert = convert;
       registration->next = found->lvalue_chain;
       found->lvalue_chain = registration;

       insert(convert, 0, key,exp_pytype);
   }

   // Insert an rvalue from_python converter
   void insert(convertible_function convertible
               , constructor_function construct
               , type_info key
               , PyTypeObject const* (*exp_pytype)())
   {
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "inserting rvalue from_python " << key << "\n";
 #  endif
       entry* found = get(key);
       rvalue_from_python_chain *registration = new rvalue_from_python_chain;
       registration->convertible = convertible;
       registration->construct = construct;
       registration->expected_pytype = exp_pytype;
       registration->next = found->rvalue_chain;
       found->rvalue_chain = registration;
   }

   // Insert an rvalue from_python converter
   void push_back(convertible_function convertible
               , constructor_function construct
               , type_info key
               , PyTypeObject const* (*exp_pytype)())
   {
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "push_back rvalue from_python " << key << "\n";
 #  endif
       rvalue_from_python_chain** found = &get(key)->rvalue_chain;
       while (*found != 0)
           found = &(*found)->next;

       rvalue_from_python_chain *registration = new rvalue_from_python_chain;
       registration->convertible = convertible;
       registration->construct = construct;
       registration->expected_pytype = exp_pytype;
       registration->next = 0;
       *found = registration;
   }

   registration const& lookup(type_info key)
   {
       return *get(key);
   }

   registration const& lookup_shared_ptr(type_info key)
   {
       return *get(key, true);
   }

   registration const* query(type_info type)
   {
       registry_t::iterator p = entries().find(entry(type));
 #  ifdef BOOST_PYTHON_TRACE_REGISTRY
       std::cout << "querying " << type
                 << (p == entries().end() || p->target_type != type
                     ? "...NOT found\n" : "...found\n");
 #  endif
       return (p == entries().end() || p->target_type != type) ? 0 : &*p;
   }
 } // namespace registry

 }}} // namespace boost::python::converter
	// Copyright David Abrahams 2001.
	// 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/registry.hpp>
	#include <boost/python/converter/registrations.hpp>
	#include <boost/python/converter/builtin_converters.hpp>

	#include <set>
	#include <stdexcept>

	#if defined(__APPLE__) && defined(__MACH__) && defined(__GNUC__) \
	&& __GNUC__ == 3 && __GNUC_MINOR__ <= 4 && !defined(__APPLE_CC__)
	# define BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND
	#endif

	#if defined(BOOST_PYTHON_TRACE_REGISTRY) \
	\|\| defined(BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND)
	# include <iostream>
	#endif

	namespace boost { namespace python { namespace converter {
	BOOST_PYTHON_DECL PyTypeObject const* registration::expected_from_python_type() const
	{
	if (this->m_class_object != 0)
	return this->m_class_object;

	std::set<PyTypeObject const*> pool;

	for(rvalue_from_python_chain* r = rvalue_chain; r ; r=r->next)
	if(r->expected_pytype)
	pool.insert(r->expected_pytype());

	//for now I skip the search for common base
	if (pool.size()==1)
	return *pool.begin();

	return 0;

	}

	BOOST_PYTHON_DECL PyTypeObject const* registration::to_python_target_type() const
	{
	if (this->m_class_object != 0)
	return this->m_class_object;

	if (this->m_to_python_target_type != 0)
	return this->m_to_python_target_type();

	return 0;
	}

	BOOST_PYTHON_DECL PyTypeObject* registration::get_class_object() const
	{
	if (this->m_class_object == 0)
	{
	::PyErr_Format(
	PyExc_TypeError
	, const_cast<char*>("No Python class registered for C++ class %s")
	, this->target_type.name());

	throw_error_already_set();
	}

	return this->m_class_object;
	}

	BOOST_PYTHON_DECL PyObject* registration::to_python(void const volatile* source) const
	{
	if (this->m_to_python == 0)
	{
	handle<> msg(
	#if PY_VERSION_HEX >= 0x3000000
	::PyUnicode_FromFormat
	#else
	::PyString_FromFormat
	#endif
	(
	"No to_python (by-value) converter found for C++ type: %s"
	, this->target_type.name()
	)
	);

	PyErr_SetObject(PyExc_TypeError, msg.get());

	throw_error_already_set();
	}

	return source == 0
	? incref(Py_None)
	: this->m_to_python(const_cast<void*>(source));
	}

	namespace
	{
	template< typename T >
	void delete_node( T* node )
	{
	if( !!node && !!node->next )
	delete_node( node->next );
	delete node;
	}
	}

	registration::~registration()
	{
	delete_node(lvalue_chain);
	delete_node(rvalue_chain);
	}


	namespace // <unnamed>
	{
	typedef registration entry;

	typedef std::set<entry> registry_t;

	#ifndef BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND
	registry_t& entries()
	{
	static registry_t registry;

	# ifndef BOOST_PYTHON_SUPPRESS_REGISTRY_INITIALIZATION
	static bool builtin_converters_initialized = false;
	if (!builtin_converters_initialized)
	{
	// Make this true early because registering the builtin
	// converters will cause recursion.
	builtin_converters_initialized = true;

	initialize_builtin_converters();
	}
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "registry: ";
	for (registry_t::iterator p = registry.begin(); p != registry.end(); ++p)
	{
	std::cout << p->target_type << "; ";
	}
	std::cout << '\n';
	# endif
	# endif
	return registry;
	}
	#else
	registry_t& static_registry()
	{
	static registry_t result;
	return result;
	}

	bool static_builtin_converters_initialized()
	{
	static bool result = false;
	if (result == false) {
	result = true;
	std::cout << std::flush;
	return false;
	}
	return true;
	}

	registry_t& entries()
	{
	# ifndef BOOST_PYTHON_SUPPRESS_REGISTRY_INITIALIZATION
	if (!static_builtin_converters_initialized())
	{
	initialize_builtin_converters();
	}
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "registry: ";
	for (registry_t::iterator p = static_registry().begin(); p != static_registry().end(); ++p)
	{
	std::cout << p->target_type << "; ";
	}
	std::cout << '\n';
	# endif
	# endif
	return static_registry();
	}
	#endif // BOOST_PYTHON_CONVERTER_REGISTRY_APPLE_MACH_WORKAROUND

	entry* get(type_info type, bool is_shared_ptr = false)
	{
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	registry_t::iterator p = entries().find(entry(type));

	std::cout << "looking up " << type << ": "
	<< (p == entries().end() \|\| p->target_type != type
	? "...NOT found\n" : "...found\n");
	# endif
	std::pair<registry_t::const_iterator,bool> pos_ins
	= entries().insert(entry(type,is_shared_ptr));

	# if __MWERKS__ >= 0x3000
	// do a little invariant checking if a change was made
	if ( pos_ins.second )
	assert(entries().invariants());
	# endif
	return const_cast<entry>(&pos_ins.first);
	}
	} // namespace <unnamed>

	namespace registry
	{
	void insert(to_python_function_t f, type_info source_t, PyTypeObject const* (*to_python_target_type)())
	{
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "inserting to_python " << source_t << "\n";
	# endif
	entry* slot = get(source_t);

	assert(slot->m_to_python == 0); // we have a problem otherwise
	if (slot->m_to_python != 0)
	{
	std::string msg = (
	std::string("to-Python converter for ")
	+ source_t.name()
	+ " already registered; second conversion method ignored."
	);

	if ( ::PyErr_Warn( NULL, const_cast<char*>(msg.c_str()) ) )
	{
	throw_error_already_set();
	}
	}
	slot->m_to_python = f;
	slot->m_to_python_target_type = to_python_target_type;
	}

	// Insert an lvalue from_python converter
	void insert(convertible_function convert, type_info key, PyTypeObject const* (*exp_pytype)())
	{
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "inserting lvalue from_python " << key << "\n";
	# endif
	entry* found = get(key);
	lvalue_from_python_chain *registration = new lvalue_from_python_chain;
	registration->convert = convert;
	registration->next = found->lvalue_chain;
	found->lvalue_chain = registration;

	insert(convert, 0, key,exp_pytype);
	}

	// Insert an rvalue from_python converter
	void insert(convertible_function convertible
	, constructor_function construct
	, type_info key
	, PyTypeObject const* (*exp_pytype)())
	{
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "inserting rvalue from_python " << key << "\n";
	# endif
	entry* found = get(key);
	rvalue_from_python_chain *registration = new rvalue_from_python_chain;
	registration->convertible = convertible;
	registration->construct = construct;
	registration->expected_pytype = exp_pytype;
	registration->next = found->rvalue_chain;
	found->rvalue_chain = registration;
	}

	// Insert an rvalue from_python converter
	void push_back(convertible_function convertible
	, constructor_function construct
	, type_info key
	, PyTypeObject const* (*exp_pytype)())
	{
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "push_back rvalue from_python " << key << "\n";
	# endif
	rvalue_from_python_chain** found = &get(key)->rvalue_chain;
	while (*found != 0)
	found = &(*found)->next;

	rvalue_from_python_chain *registration = new rvalue_from_python_chain;
	registration->convertible = convertible;
	registration->construct = construct;
	registration->expected_pytype = exp_pytype;
	registration->next = 0;
	*found = registration;
	}

	registration const& lookup(type_info key)
	{
	return *get(key);
	}

	registration const& lookup_shared_ptr(type_info key)
	{
	return *get(key, true);
	}

	registration const* query(type_info type)
	{
	registry_t::iterator p = entries().find(entry(type));
	# ifdef BOOST_PYTHON_TRACE_REGISTRY
	std::cout << "querying " << type
	<< (p == entries().end() \|\| p->target_type != type
	? "...NOT found\n" : "...found\n");
	# endif
	return (p == entries().end() \|\| p->target_type != type) ? 0 : &*p;
	}
	} // namespace registry

	}}} // namespace boost::python::converter