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authorRemko Tronçon <git@el-tramo.be>2010-02-11 12:14:00 (GMT)
committerRemko Tronçon <git@el-tramo.be>2010-02-11 12:14:00 (GMT)
commit0efa7c32aaf21a29b42b5926cc116007056843be (patch)
tree882f663a5dd0e65694bf6077b71086dd77fd7ff8 /3rdParty/Boost/boost/function/function_base.hpp
parent1d20eabbc32274b491b4c2bedf73d19933d97bfd (diff)
downloadswift-contrib-0efa7c32aaf21a29b42b5926cc116007056843be.zip
swift-contrib-0efa7c32aaf21a29b42b5926cc116007056843be.tar.bz2
Moved some modules into separate git modules.
Diffstat (limited to '3rdParty/Boost/boost/function/function_base.hpp')
m---------3rdParty/Boost0
-rw-r--r--3rdParty/Boost/boost/function/function_base.hpp880
2 files changed, 0 insertions, 880 deletions
diff --git a/3rdParty/Boost b/3rdParty/Boost
new file mode 160000
+Subproject 3bbdbc8cf1996f23d9a366da8bac0f97be6ad79
diff --git a/3rdParty/Boost/boost/function/function_base.hpp b/3rdParty/Boost/boost/function/function_base.hpp
deleted file mode 100644
index 6612fb8..0000000
--- a/3rdParty/Boost/boost/function/function_base.hpp
+++ /dev/null
@@ -1,880 +0,0 @@
-// Boost.Function library
-
-// Copyright Douglas Gregor 2001-2006
-// Copyright Emil Dotchevski 2007
-// Use, modification and distribution is subject to 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)
-
-// For more information, see http://www.boost.org
-
-#ifndef BOOST_FUNCTION_BASE_HEADER
-#define BOOST_FUNCTION_BASE_HEADER
-
-#include <stdexcept>
-#include <string>
-#include <memory>
-#include <new>
-#include <typeinfo>
-#include <boost/config.hpp>
-#include <boost/assert.hpp>
-#include <boost/type_traits/is_const.hpp>
-#include <boost/type_traits/is_integral.hpp>
-#include <boost/type_traits/is_volatile.hpp>
-#include <boost/type_traits/composite_traits.hpp>
-#include <boost/type_traits/ice.hpp>
-#include <boost/ref.hpp>
-#include <boost/mpl/if.hpp>
-#include <boost/detail/workaround.hpp>
-#include <boost/type_traits/alignment_of.hpp>
-#ifndef BOOST_NO_SFINAE
-# include "boost/utility/enable_if.hpp"
-#else
-# include "boost/mpl/bool.hpp"
-#endif
-#include <boost/function_equal.hpp>
-#include <boost/function/function_fwd.hpp>
-
-#if defined(BOOST_MSVC)
-# pragma warning( push )
-# pragma warning( disable : 4793 ) // complaint about native code generation
-# pragma warning( disable : 4127 ) // "conditional expression is constant"
-#endif
-
-// Define BOOST_FUNCTION_STD_NS to the namespace that contains type_info.
-#ifdef BOOST_NO_EXCEPTION_STD_NAMESPACE
-// Embedded VC++ does not have type_info in namespace std
-# define BOOST_FUNCTION_STD_NS
-#else
-# define BOOST_FUNCTION_STD_NS std
-#endif
-
-// Borrowed from Boost.Python library: determines the cases where we
-// need to use std::type_info::name to compare instead of operator==.
-# if (defined(__GNUC__) && __GNUC__ >= 3) \
- || defined(_AIX) \
- || ( defined(__sgi) && defined(__host_mips))
-# include <cstring>
-# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) \
- (std::strcmp((X).name(),(Y).name()) == 0)
-# else
-# define BOOST_FUNCTION_COMPARE_TYPE_ID(X,Y) ((X)==(Y))
-#endif
-
-#if defined(BOOST_MSVC) && BOOST_MSVC <= 1300 || defined(__ICL) && __ICL <= 600 || defined(__MWERKS__) && __MWERKS__ < 0x2406 && !defined(BOOST_STRICT_CONFIG)
-# define BOOST_FUNCTION_TARGET_FIX(x) x
-#else
-# define BOOST_FUNCTION_TARGET_FIX(x)
-#endif // not MSVC
-
-#if !BOOST_WORKAROUND(__BORLANDC__, < 0x5A0)
-# define BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor,Type) \
- typename ::boost::enable_if_c<(::boost::type_traits::ice_not< \
- (::boost::is_integral<Functor>::value)>::value), \
- Type>::type
-#else
-// BCC doesn't recognize this depends on a template argument and complains
-// about the use of 'typename'
-# define BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor,Type) \
- ::boost::enable_if_c<(::boost::type_traits::ice_not< \
- (::boost::is_integral<Functor>::value)>::value), \
- Type>::type
-#endif
-
-namespace boost {
- namespace detail {
- namespace function {
- class X;
-
- /**
- * A buffer used to store small function objects in
- * boost::function. It is a union containing function pointers,
- * object pointers, and a structure that resembles a bound
- * member function pointer.
- */
- union function_buffer
- {
- // For pointers to function objects
- mutable void* obj_ptr;
-
- // For pointers to std::type_info objects
- struct type_t {
- // (get_functor_type_tag, check_functor_type_tag).
- const BOOST_FUNCTION_STD_NS::type_info* type;
-
- // Whether the type is const-qualified.
- bool const_qualified;
- // Whether the type is volatile-qualified.
- bool volatile_qualified;
- } type;
-
- // For function pointers of all kinds
- mutable void (*func_ptr)();
-
- // For bound member pointers
- struct bound_memfunc_ptr_t {
- void (X::*memfunc_ptr)(int);
- void* obj_ptr;
- } bound_memfunc_ptr;
-
- // For references to function objects. We explicitly keep
- // track of the cv-qualifiers on the object referenced.
- struct obj_ref_t {
- mutable void* obj_ptr;
- bool is_const_qualified;
- bool is_volatile_qualified;
- } obj_ref;
-
- // To relax aliasing constraints
- mutable char data;
- };
-
- /**
- * The unusable class is a placeholder for unused function arguments
- * It is also completely unusable except that it constructable from
- * anything. This helps compilers without partial specialization to
- * handle Boost.Function objects returning void.
- */
- struct unusable
- {
- unusable() {}
- template<typename T> unusable(const T&) {}
- };
-
- /* Determine the return type. This supports compilers that do not support
- * void returns or partial specialization by silently changing the return
- * type to "unusable".
- */
- template<typename T> struct function_return_type { typedef T type; };
-
- template<>
- struct function_return_type<void>
- {
- typedef unusable type;
- };
-
- // The operation type to perform on the given functor/function pointer
- enum functor_manager_operation_type {
- clone_functor_tag,
- move_functor_tag,
- destroy_functor_tag,
- check_functor_type_tag,
- get_functor_type_tag
- };
-
- // Tags used to decide between different types of functions
- struct function_ptr_tag {};
- struct function_obj_tag {};
- struct member_ptr_tag {};
- struct function_obj_ref_tag {};
-
- template<typename F>
- class get_function_tag
- {
- typedef typename mpl::if_c<(is_pointer<F>::value),
- function_ptr_tag,
- function_obj_tag>::type ptr_or_obj_tag;
-
- typedef typename mpl::if_c<(is_member_pointer<F>::value),
- member_ptr_tag,
- ptr_or_obj_tag>::type ptr_or_obj_or_mem_tag;
-
- typedef typename mpl::if_c<(is_reference_wrapper<F>::value),
- function_obj_ref_tag,
- ptr_or_obj_or_mem_tag>::type or_ref_tag;
-
- public:
- typedef or_ref_tag type;
- };
-
- // The trivial manager does nothing but return the same pointer (if we
- // are cloning) or return the null pointer (if we are deleting).
- template<typename F>
- struct reference_manager
- {
- static inline void
- manage(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op)
- {
- switch (op) {
- case clone_functor_tag:
- out_buffer.obj_ref.obj_ptr = in_buffer.obj_ref.obj_ptr;
- return;
-
- case move_functor_tag:
- out_buffer.obj_ref.obj_ptr = in_buffer.obj_ref.obj_ptr;
- in_buffer.obj_ref.obj_ptr = 0;
- return;
-
- case destroy_functor_tag:
- out_buffer.obj_ref.obj_ptr = 0;
- return;
-
- case check_functor_type_tag:
- {
- const BOOST_FUNCTION_STD_NS::type_info& check_type
- = *out_buffer.type.type;
-
- // Check whether we have the same type. We can add
- // cv-qualifiers, but we can't take them away.
- if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(F))
- && (!in_buffer.obj_ref.is_const_qualified
- || out_buffer.type.const_qualified)
- && (!in_buffer.obj_ref.is_volatile_qualified
- || out_buffer.type.volatile_qualified))
- out_buffer.obj_ptr = in_buffer.obj_ref.obj_ptr;
- else
- out_buffer.obj_ptr = 0;
- }
- return;
-
- case get_functor_type_tag:
- out_buffer.type.type = &typeid(F);
- out_buffer.type.const_qualified = in_buffer.obj_ref.is_const_qualified;
- out_buffer.type.volatile_qualified = in_buffer.obj_ref.is_volatile_qualified;
- return;
- }
- }
- };
-
- /**
- * Determine if boost::function can use the small-object
- * optimization with the function object type F.
- */
- template<typename F>
- struct function_allows_small_object_optimization
- {
- BOOST_STATIC_CONSTANT
- (bool,
- value = ((sizeof(F) <= sizeof(function_buffer) &&
- (alignment_of<function_buffer>::value
- % alignment_of<F>::value == 0))));
- };
-
- template <typename F,typename A>
- struct functor_wrapper: public F, public A
- {
- functor_wrapper( F f, A a ):
- F(f),
- A(a)
- {
- }
- };
-
- /**
- * The functor_manager class contains a static function "manage" which
- * can clone or destroy the given function/function object pointer.
- */
- template<typename Functor>
- struct functor_manager_common
- {
- typedef Functor functor_type;
-
- // Function pointers
- static inline void
- manage_ptr(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op)
- {
- if (op == clone_functor_tag)
- out_buffer.func_ptr = in_buffer.func_ptr;
- else if (op == move_functor_tag) {
- out_buffer.func_ptr = in_buffer.func_ptr;
- in_buffer.func_ptr = 0;
- } else if (op == destroy_functor_tag)
- out_buffer.func_ptr = 0;
- else if (op == check_functor_type_tag) {
- const BOOST_FUNCTION_STD_NS::type_info& check_type
- = *out_buffer.type.type;
- if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
- out_buffer.obj_ptr = &in_buffer.func_ptr;
- else
- out_buffer.obj_ptr = 0;
- } else /* op == get_functor_type_tag */ {
- out_buffer.type.type = &typeid(Functor);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- }
- }
-
- // Function objects that fit in the small-object buffer.
- static inline void
- manage_small(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op)
- {
- if (op == clone_functor_tag || op == move_functor_tag) {
- const functor_type* in_functor =
- reinterpret_cast<const functor_type*>(&in_buffer.data);
- new ((void*)&out_buffer.data) functor_type(*in_functor);
-
- if (op == move_functor_tag) {
- reinterpret_cast<functor_type*>(&in_buffer.data)->~Functor();
- }
- } else if (op == destroy_functor_tag) {
- // Some compilers (Borland, vc6, ...) are unhappy with ~functor_type.
- reinterpret_cast<functor_type*>(&out_buffer.data)->~Functor();
- } else if (op == check_functor_type_tag) {
- const BOOST_FUNCTION_STD_NS::type_info& check_type
- = *out_buffer.type.type;
- if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
- out_buffer.obj_ptr = &in_buffer.data;
- else
- out_buffer.obj_ptr = 0;
- } else /* op == get_functor_type_tag */ {
- out_buffer.type.type = &typeid(Functor);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- }
- }
- };
-
- template<typename Functor>
- struct functor_manager
- {
- private:
- typedef Functor functor_type;
-
- // Function pointers
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, function_ptr_tag)
- {
- functor_manager_common<Functor>::manage_ptr(in_buffer,out_buffer,op);
- }
-
- // Function objects that fit in the small-object buffer.
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, mpl::true_)
- {
- functor_manager_common<Functor>::manage_small(in_buffer,out_buffer,op);
- }
-
- // Function objects that require heap allocation
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, mpl::false_)
- {
- if (op == clone_functor_tag) {
- // Clone the functor
- // GCC 2.95.3 gets the CV qualifiers wrong here, so we
- // can't do the static_cast that we should do.
- const functor_type* f =
- (const functor_type*)(in_buffer.obj_ptr);
- functor_type* new_f = new functor_type(*f);
- out_buffer.obj_ptr = new_f;
- } else if (op == move_functor_tag) {
- out_buffer.obj_ptr = in_buffer.obj_ptr;
- in_buffer.obj_ptr = 0;
- } else if (op == destroy_functor_tag) {
- /* Cast from the void pointer to the functor pointer type */
- functor_type* f =
- static_cast<functor_type*>(out_buffer.obj_ptr);
- delete f;
- out_buffer.obj_ptr = 0;
- } else if (op == check_functor_type_tag) {
- const BOOST_FUNCTION_STD_NS::type_info& check_type
- = *out_buffer.type.type;
- if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
- out_buffer.obj_ptr = in_buffer.obj_ptr;
- else
- out_buffer.obj_ptr = 0;
- } else /* op == get_functor_type_tag */ {
- out_buffer.type.type = &typeid(Functor);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- }
- }
-
- // For function objects, we determine whether the function
- // object can use the small-object optimization buffer or
- // whether we need to allocate it on the heap.
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, function_obj_tag)
- {
- manager(in_buffer, out_buffer, op,
- mpl::bool_<(function_allows_small_object_optimization<functor_type>::value)>());
- }
-
- // For member pointers, we use the small-object optimization buffer.
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, member_ptr_tag)
- {
- manager(in_buffer, out_buffer, op, mpl::true_());
- }
-
- public:
- /* Dispatch to an appropriate manager based on whether we have a
- function pointer or a function object pointer. */
- static inline void
- manage(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op)
- {
- typedef typename get_function_tag<functor_type>::type tag_type;
- switch (op) {
- case get_functor_type_tag:
- out_buffer.type.type = &typeid(functor_type);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- return;
-
- default:
- manager(in_buffer, out_buffer, op, tag_type());
- return;
- }
- }
- };
-
- template<typename Functor, typename Allocator>
- struct functor_manager_a
- {
- private:
- typedef Functor functor_type;
-
- // Function pointers
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, function_ptr_tag)
- {
- functor_manager_common<Functor>::manage_ptr(in_buffer,out_buffer,op);
- }
-
- // Function objects that fit in the small-object buffer.
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, mpl::true_)
- {
- functor_manager_common<Functor>::manage_small(in_buffer,out_buffer,op);
- }
-
- // Function objects that require heap allocation
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, mpl::false_)
- {
- typedef functor_wrapper<Functor,Allocator> functor_wrapper_type;
- typedef typename Allocator::template rebind<functor_wrapper_type>::other
- wrapper_allocator_type;
- typedef typename wrapper_allocator_type::pointer wrapper_allocator_pointer_type;
-
- if (op == clone_functor_tag) {
- // Clone the functor
- // GCC 2.95.3 gets the CV qualifiers wrong here, so we
- // can't do the static_cast that we should do.
- const functor_wrapper_type* f =
- (const functor_wrapper_type*)(in_buffer.obj_ptr);
- wrapper_allocator_type wrapper_allocator(static_cast<Allocator const &>(*f));
- wrapper_allocator_pointer_type copy = wrapper_allocator.allocate(1);
- wrapper_allocator.construct(copy, *f);
-
- // Get back to the original pointer type
- functor_wrapper_type* new_f = static_cast<functor_wrapper_type*>(copy);
- out_buffer.obj_ptr = new_f;
- } else if (op == move_functor_tag) {
- out_buffer.obj_ptr = in_buffer.obj_ptr;
- in_buffer.obj_ptr = 0;
- } else if (op == destroy_functor_tag) {
- /* Cast from the void pointer to the functor_wrapper_type */
- functor_wrapper_type* victim =
- static_cast<functor_wrapper_type*>(in_buffer.obj_ptr);
- wrapper_allocator_type wrapper_allocator(static_cast<Allocator const &>(*victim));
- wrapper_allocator.destroy(victim);
- wrapper_allocator.deallocate(victim,1);
- out_buffer.obj_ptr = 0;
- } else if (op == check_functor_type_tag) {
- const BOOST_FUNCTION_STD_NS::type_info& check_type
- = *out_buffer.type.type;
- if (BOOST_FUNCTION_COMPARE_TYPE_ID(check_type, typeid(Functor)))
- out_buffer.obj_ptr = in_buffer.obj_ptr;
- else
- out_buffer.obj_ptr = 0;
- } else /* op == get_functor_type_tag */ {
- out_buffer.type.type = &typeid(Functor);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- }
- }
-
- // For function objects, we determine whether the function
- // object can use the small-object optimization buffer or
- // whether we need to allocate it on the heap.
- static inline void
- manager(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op, function_obj_tag)
- {
- manager(in_buffer, out_buffer, op,
- mpl::bool_<(function_allows_small_object_optimization<functor_type>::value)>());
- }
-
- public:
- /* Dispatch to an appropriate manager based on whether we have a
- function pointer or a function object pointer. */
- static inline void
- manage(const function_buffer& in_buffer, function_buffer& out_buffer,
- functor_manager_operation_type op)
- {
- typedef typename get_function_tag<functor_type>::type tag_type;
- switch (op) {
- case get_functor_type_tag:
- out_buffer.type.type = &typeid(functor_type);
- out_buffer.type.const_qualified = false;
- out_buffer.type.volatile_qualified = false;
- return;
-
- default:
- manager(in_buffer, out_buffer, op, tag_type());
- return;
- }
- }
- };
-
- // A type that is only used for comparisons against zero
- struct useless_clear_type {};
-
-#ifdef BOOST_NO_SFINAE
- // These routines perform comparisons between a Boost.Function
- // object and an arbitrary function object (when the last
- // parameter is mpl::bool_<false>) or against zero (when the
- // last parameter is mpl::bool_<true>). They are only necessary
- // for compilers that don't support SFINAE.
- template<typename Function, typename Functor>
- bool
- compare_equal(const Function& f, const Functor&, int, mpl::bool_<true>)
- { return f.empty(); }
-
- template<typename Function, typename Functor>
- bool
- compare_not_equal(const Function& f, const Functor&, int,
- mpl::bool_<true>)
- { return !f.empty(); }
-
- template<typename Function, typename Functor>
- bool
- compare_equal(const Function& f, const Functor& g, long,
- mpl::bool_<false>)
- {
- if (const Functor* fp = f.template target<Functor>())
- return function_equal(*fp, g);
- else return false;
- }
-
- template<typename Function, typename Functor>
- bool
- compare_equal(const Function& f, const reference_wrapper<Functor>& g,
- int, mpl::bool_<false>)
- {
- if (const Functor* fp = f.template target<Functor>())
- return fp == g.get_pointer();
- else return false;
- }
-
- template<typename Function, typename Functor>
- bool
- compare_not_equal(const Function& f, const Functor& g, long,
- mpl::bool_<false>)
- {
- if (const Functor* fp = f.template target<Functor>())
- return !function_equal(*fp, g);
- else return true;
- }
-
- template<typename Function, typename Functor>
- bool
- compare_not_equal(const Function& f,
- const reference_wrapper<Functor>& g, int,
- mpl::bool_<false>)
- {
- if (const Functor* fp = f.template target<Functor>())
- return fp != g.get_pointer();
- else return true;
- }
-#endif // BOOST_NO_SFINAE
-
- /**
- * Stores the "manager" portion of the vtable for a
- * boost::function object.
- */
- struct vtable_base
- {
- void (*manager)(const function_buffer& in_buffer,
- function_buffer& out_buffer,
- functor_manager_operation_type op);
- };
- } // end namespace function
- } // end namespace detail
-
-/**
- * The function_base class contains the basic elements needed for the
- * function1, function2, function3, etc. classes. It is common to all
- * functions (and as such can be used to tell if we have one of the
- * functionN objects).
- */
-class function_base
-{
-public:
- function_base() : vtable(0) { }
-
- /** Determine if the function is empty (i.e., has no target). */
- bool empty() const { return !vtable; }
-
- /** Retrieve the type of the stored function object, or typeid(void)
- if this is empty. */
- const BOOST_FUNCTION_STD_NS::type_info& target_type() const
- {
- if (!vtable) return typeid(void);
-
- detail::function::function_buffer type;
- vtable->manager(functor, type, detail::function::get_functor_type_tag);
- return *type.type.type;
- }
-
- template<typename Functor>
- Functor* target()
- {
- if (!vtable) return 0;
-
- detail::function::function_buffer type_result;
- type_result.type.type = &typeid(Functor);
- type_result.type.const_qualified = is_const<Functor>::value;
- type_result.type.volatile_qualified = is_volatile<Functor>::value;
- vtable->manager(functor, type_result,
- detail::function::check_functor_type_tag);
- return static_cast<Functor*>(type_result.obj_ptr);
- }
-
- template<typename Functor>
-#if defined(BOOST_MSVC) && BOOST_WORKAROUND(BOOST_MSVC, < 1300)
- const Functor* target( Functor * = 0 ) const
-#else
- const Functor* target() const
-#endif
- {
- if (!vtable) return 0;
-
- detail::function::function_buffer type_result;
- type_result.type.type = &typeid(Functor);
- type_result.type.const_qualified = true;
- type_result.type.volatile_qualified = is_volatile<Functor>::value;
- vtable->manager(functor, type_result,
- detail::function::check_functor_type_tag);
- // GCC 2.95.3 gets the CV qualifiers wrong here, so we
- // can't do the static_cast that we should do.
- return (const Functor*)(type_result.obj_ptr);
- }
-
- template<typename F>
- bool contains(const F& f) const
- {
-#if defined(BOOST_MSVC) && BOOST_WORKAROUND(BOOST_MSVC, < 1300)
- if (const F* fp = this->target( (F*)0 ))
-#else
- if (const F* fp = this->template target<F>())
-#endif
- {
- return function_equal(*fp, f);
- } else {
- return false;
- }
- }
-
-#if defined(__GNUC__) && __GNUC__ == 3 && __GNUC_MINOR__ <= 3
- // GCC 3.3 and newer cannot copy with the global operator==, due to
- // problems with instantiation of function return types before it
- // has been verified that the argument types match up.
- template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator==(Functor g) const
- {
- if (const Functor* fp = target<Functor>())
- return function_equal(*fp, g);
- else return false;
- }
-
- template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator!=(Functor g) const
- {
- if (const Functor* fp = target<Functor>())
- return !function_equal(*fp, g);
- else return true;
- }
-#endif
-
-public: // should be protected, but GCC 2.95.3 will fail to allow access
- detail::function::vtable_base* vtable;
- mutable detail::function::function_buffer functor;
-};
-
-/**
- * The bad_function_call exception class is thrown when a boost::function
- * object is invoked
- */
-class bad_function_call : public std::runtime_error
-{
-public:
- bad_function_call() : std::runtime_error("call to empty boost::function") {}
-};
-
-#ifndef BOOST_NO_SFINAE
-inline bool operator==(const function_base& f,
- detail::function::useless_clear_type*)
-{
- return f.empty();
-}
-
-inline bool operator!=(const function_base& f,
- detail::function::useless_clear_type*)
-{
- return !f.empty();
-}
-
-inline bool operator==(detail::function::useless_clear_type*,
- const function_base& f)
-{
- return f.empty();
-}
-
-inline bool operator!=(detail::function::useless_clear_type*,
- const function_base& f)
-{
- return !f.empty();
-}
-#endif
-
-#ifdef BOOST_NO_SFINAE
-// Comparisons between boost::function objects and arbitrary function objects
-template<typename Functor>
- inline bool operator==(const function_base& f, Functor g)
- {
- typedef mpl::bool_<(is_integral<Functor>::value)> integral;
- return detail::function::compare_equal(f, g, 0, integral());
- }
-
-template<typename Functor>
- inline bool operator==(Functor g, const function_base& f)
- {
- typedef mpl::bool_<(is_integral<Functor>::value)> integral;
- return detail::function::compare_equal(f, g, 0, integral());
- }
-
-template<typename Functor>
- inline bool operator!=(const function_base& f, Functor g)
- {
- typedef mpl::bool_<(is_integral<Functor>::value)> integral;
- return detail::function::compare_not_equal(f, g, 0, integral());
- }
-
-template<typename Functor>
- inline bool operator!=(Functor g, const function_base& f)
- {
- typedef mpl::bool_<(is_integral<Functor>::value)> integral;
- return detail::function::compare_not_equal(f, g, 0, integral());
- }
-#else
-
-# if !(defined(__GNUC__) && __GNUC__ == 3 && __GNUC_MINOR__ <= 3)
-// Comparisons between boost::function objects and arbitrary function
-// objects. GCC 3.3 and before has an obnoxious bug that prevents this
-// from working.
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator==(const function_base& f, Functor g)
- {
- if (const Functor* fp = f.template target<Functor>())
- return function_equal(*fp, g);
- else return false;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator==(Functor g, const function_base& f)
- {
- if (const Functor* fp = f.template target<Functor>())
- return function_equal(g, *fp);
- else return false;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator!=(const function_base& f, Functor g)
- {
- if (const Functor* fp = f.template target<Functor>())
- return !function_equal(*fp, g);
- else return true;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator!=(Functor g, const function_base& f)
- {
- if (const Functor* fp = f.template target<Functor>())
- return !function_equal(g, *fp);
- else return true;
- }
-# endif
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator==(const function_base& f, reference_wrapper<Functor> g)
- {
- if (const Functor* fp = f.template target<Functor>())
- return fp == g.get_pointer();
- else return false;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator==(reference_wrapper<Functor> g, const function_base& f)
- {
- if (const Functor* fp = f.template target<Functor>())
- return g.get_pointer() == fp;
- else return false;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator!=(const function_base& f, reference_wrapper<Functor> g)
- {
- if (const Functor* fp = f.template target<Functor>())
- return fp != g.get_pointer();
- else return true;
- }
-
-template<typename Functor>
- BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL(Functor, bool)
- operator!=(reference_wrapper<Functor> g, const function_base& f)
- {
- if (const Functor* fp = f.template target<Functor>())
- return g.get_pointer() != fp;
- else return true;
- }
-
-#endif // Compiler supporting SFINAE
-
-namespace detail {
- namespace function {
- inline bool has_empty_target(const function_base* f)
- {
- return f->empty();
- }
-
-#if BOOST_WORKAROUND(BOOST_MSVC, <= 1310)
- inline bool has_empty_target(const void*)
- {
- return false;
- }
-#else
- inline bool has_empty_target(...)
- {
- return false;
- }
-#endif
- } // end namespace function
-} // end namespace detail
-} // end namespace boost
-
-#undef BOOST_FUNCTION_ENABLE_IF_NOT_INTEGRAL
-#undef BOOST_FUNCTION_COMPARE_TYPE_ID
-
-#endif // BOOST_FUNCTION_BASE_HEADER