Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/python/converter/rvalue_from_python_data.hpp @ 133:4acb5d8d80b6 tip

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents 2665513ce2d3
children
rev   line source
Chris@16 1 // Copyright David Abrahams 2002.
Chris@16 2 // Distributed under the Boost Software License, Version 1.0. (See
Chris@16 3 // accompanying file LICENSE_1_0.txt or copy at
Chris@16 4 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 5 #ifndef FROM_PYTHON_AUX_DATA_DWA2002128_HPP
Chris@16 6 # define FROM_PYTHON_AUX_DATA_DWA2002128_HPP
Chris@16 7
Chris@16 8 # include <boost/python/converter/constructor_function.hpp>
Chris@16 9 # include <boost/python/detail/referent_storage.hpp>
Chris@16 10 # include <boost/python/detail/destroy.hpp>
Chris@16 11 # include <boost/static_assert.hpp>
Chris@16 12 # include <boost/type_traits/add_reference.hpp>
Chris@16 13 # include <boost/type_traits/add_cv.hpp>
Chris@16 14 # include <cstddef>
Chris@16 15
Chris@16 16 // Data management for potential rvalue conversions from Python to C++
Chris@16 17 // types. When a client requests a conversion to T* or T&, we
Chris@16 18 // generally require that an object of type T exists in the source
Chris@16 19 // Python object, and the code here does not apply**. This implements
Chris@16 20 // conversions which may create new temporaries of type T. The classic
Chris@16 21 // example is a conversion which converts a Python tuple to a
Chris@16 22 // std::vector. Since no std::vector lvalue exists in the Python
Chris@16 23 // object -- it must be created "on-the-fly" by the converter, and
Chris@16 24 // which must manage the lifetime of the created object.
Chris@16 25 //
Chris@16 26 // Note that the client is not precluded from using a registered
Chris@16 27 // lvalue conversion to T in this case. In other words, we will
Chris@16 28 // happily accept a Python object which /does/ contain a std::vector
Chris@16 29 // lvalue, provided an appropriate converter is registered. So, while
Chris@16 30 // this is an rvalue conversion from the client's point-of-view, the
Chris@16 31 // converter registry may serve up lvalue or rvalue conversions for
Chris@16 32 // the target type.
Chris@16 33 //
Chris@16 34 // ** C++ argument from_python conversions to T const& are an
Chris@16 35 // exception to the rule for references: since in C++, const
Chris@16 36 // references can bind to temporary rvalues, we allow rvalue
Chris@16 37 // converters to be chosen when the target type is T const& for some
Chris@16 38 // T.
Chris@16 39 namespace boost { namespace python { namespace converter {
Chris@16 40
Chris@16 41 // Conversions begin by filling in and returning a copy of this
Chris@16 42 // structure. The process looks up a converter in the rvalue converter
Chris@16 43 // registry for the target type. It calls the convertible() function
Chris@16 44 // of each registered converter, passing the source PyObject* as an
Chris@16 45 // argument, until a non-null result is returned. This result goes in
Chris@16 46 // the convertible field, and the converter's construct() function is
Chris@16 47 // stored in the construct field.
Chris@16 48 //
Chris@16 49 // If no appropriate converter is found, conversion fails and the
Chris@16 50 // convertible field is null. When used in argument conversion for
Chris@16 51 // wrapped C++ functions, it causes overload resolution to reject the
Chris@16 52 // current function but not to fail completely. If an exception is
Chris@16 53 // thrown, overload resolution stops and the exception propagates back
Chris@16 54 // through the caller.
Chris@16 55 //
Chris@16 56 // If an lvalue converter is matched, its convertible() function is
Chris@16 57 // expected to return a pointer to the stored T object; its
Chris@16 58 // construct() function will be NULL. The convertible() function of
Chris@16 59 // rvalue converters may return any non-singular pointer; the actual
Chris@16 60 // target object will only be available once the converter's
Chris@16 61 // construct() function is called.
Chris@16 62 struct rvalue_from_python_stage1_data
Chris@16 63 {
Chris@16 64 void* convertible;
Chris@16 65 constructor_function construct;
Chris@16 66 };
Chris@16 67
Chris@16 68 // Augments rvalue_from_python_stage1_data by adding storage for
Chris@16 69 // constructing an object of remove_reference<T>::type. The
Chris@16 70 // construct() function of rvalue converters (stored in m_construct
Chris@16 71 // above) will cast the rvalue_from_python_stage1_data to an
Chris@16 72 // appropriate instantiation of this template in order to access that
Chris@16 73 // storage.
Chris@16 74 template <class T>
Chris@16 75 struct rvalue_from_python_storage
Chris@16 76 {
Chris@16 77 rvalue_from_python_stage1_data stage1;
Chris@16 78
Chris@16 79 // Storage for the result, in case an rvalue must be constructed
Chris@16 80 typename python::detail::referent_storage<
Chris@16 81 typename add_reference<T>::type
Chris@16 82 >::type storage;
Chris@16 83 };
Chris@16 84
Chris@16 85 // Augments rvalue_from_python_storage<T> with a destructor. If
Chris@16 86 // stage1.convertible == storage.bytes, it indicates that an object of
Chris@16 87 // remove_reference<T>::type has been constructed in storage and
Chris@16 88 // should will be destroyed in ~rvalue_from_python_data(). It is
Chris@16 89 // crucial that successful rvalue conversions establish this equality
Chris@16 90 // and that unsuccessful ones do not.
Chris@16 91 template <class T>
Chris@16 92 struct rvalue_from_python_data : rvalue_from_python_storage<T>
Chris@16 93 {
Chris@16 94 # if (!defined(__MWERKS__) || __MWERKS__ >= 0x3000) \
Chris@16 95 && (!defined(__EDG_VERSION__) || __EDG_VERSION__ >= 245) \
Chris@16 96 && (!defined(__DECCXX_VER) || __DECCXX_VER > 60590014) \
Chris@16 97 && !defined(BOOST_PYTHON_SYNOPSIS) /* Synopsis' OpenCXX has trouble parsing this */
Chris@16 98 // This must always be a POD struct with m_data its first member.
Chris@16 99 BOOST_STATIC_ASSERT(BOOST_PYTHON_OFFSETOF(rvalue_from_python_storage<T>,stage1) == 0);
Chris@16 100 # endif
Chris@16 101
Chris@16 102 // The usual constructor
Chris@16 103 rvalue_from_python_data(rvalue_from_python_stage1_data const&);
Chris@16 104
Chris@16 105 // This constructor just sets m_convertible -- used by
Chris@16 106 // implicitly_convertible<> to perform the final step of the
Chris@16 107 // conversion, where the construct() function is already known.
Chris@16 108 rvalue_from_python_data(void* convertible);
Chris@16 109
Chris@16 110 // Destroys any object constructed in the storage.
Chris@16 111 ~rvalue_from_python_data();
Chris@16 112 private:
Chris@16 113 typedef typename add_reference<typename add_cv<T>::type>::type ref_type;
Chris@16 114 };
Chris@16 115
Chris@16 116 //
Chris@16 117 // Implementataions
Chris@16 118 //
Chris@16 119 template <class T>
Chris@16 120 inline rvalue_from_python_data<T>::rvalue_from_python_data(rvalue_from_python_stage1_data const& _stage1)
Chris@16 121 {
Chris@16 122 this->stage1 = _stage1;
Chris@16 123 }
Chris@16 124
Chris@16 125 template <class T>
Chris@16 126 inline rvalue_from_python_data<T>::rvalue_from_python_data(void* convertible)
Chris@16 127 {
Chris@16 128 this->stage1.convertible = convertible;
Chris@16 129 }
Chris@16 130
Chris@16 131 template <class T>
Chris@16 132 inline rvalue_from_python_data<T>::~rvalue_from_python_data()
Chris@16 133 {
Chris@16 134 if (this->stage1.convertible == this->storage.bytes)
Chris@16 135 python::detail::destroy_referent<ref_type>(this->storage.bytes);
Chris@16 136 }
Chris@16 137
Chris@16 138 }}} // namespace boost::python::converter
Chris@16 139
Chris@16 140 #endif // FROM_PYTHON_AUX_DATA_DWA2002128_HPP