1204 lines
40 KiB
C++
1204 lines
40 KiB
C++
// Boost.Function library
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// Copyright Douglas Gregor 2001-2006
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// Copyright Emil Dotchevski 2007
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// Use, modification and distribution is subject to the Boost Software License, Version 1.0.
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// (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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// For more information, see http://www.boost.org
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// Note: this header is a header template and must NOT have multiple-inclusion
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// protection.
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#include <boost/function/detail/prologue.hpp>
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#include <boost/core/no_exceptions_support.hpp>
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#if defined(BOOST_MSVC)
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# pragma warning( push )
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# pragma warning( disable : 4127 ) // "conditional expression is constant"
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#endif
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#define BOOST_FUNCTION_TEMPLATE_PARMS BOOST_PP_ENUM_PARAMS(BOOST_FUNCTION_NUM_ARGS, typename T)
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#define BOOST_FUNCTION_TEMPLATE_ARGS BOOST_PP_ENUM_PARAMS(BOOST_FUNCTION_NUM_ARGS, T)
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#define BOOST_FUNCTION_PARM(J,I,D) BOOST_PP_CAT(T,I) BOOST_PP_CAT(a,I)
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#define BOOST_FUNCTION_PARMS BOOST_PP_ENUM(BOOST_FUNCTION_NUM_ARGS,BOOST_FUNCTION_PARM,BOOST_PP_EMPTY)
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#ifdef BOOST_NO_CXX11_RVALUE_REFERENCES
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# define BOOST_FUNCTION_ARGS BOOST_PP_ENUM_PARAMS(BOOST_FUNCTION_NUM_ARGS, a)
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#else
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# define BOOST_FUNCTION_ARG(J,I,D) static_cast<BOOST_PP_CAT(T,I)&&>(BOOST_PP_CAT(a,I))
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# define BOOST_FUNCTION_ARGS BOOST_PP_ENUM(BOOST_FUNCTION_NUM_ARGS,BOOST_FUNCTION_ARG,BOOST_PP_EMPTY)
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#endif
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#define BOOST_FUNCTION_ARG_TYPE(J,I,D) \
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typedef BOOST_PP_CAT(T,I) BOOST_PP_CAT(BOOST_PP_CAT(arg, BOOST_PP_INC(I)),_type);
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#define BOOST_FUNCTION_ARG_TYPES BOOST_PP_REPEAT(BOOST_FUNCTION_NUM_ARGS,BOOST_FUNCTION_ARG_TYPE,BOOST_PP_EMPTY)
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// Comma if nonzero number of arguments
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#if BOOST_FUNCTION_NUM_ARGS == 0
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# define BOOST_FUNCTION_COMMA
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#else
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# define BOOST_FUNCTION_COMMA ,
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#endif // BOOST_FUNCTION_NUM_ARGS > 0
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// Class names used in this version of the code
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#define BOOST_FUNCTION_FUNCTION BOOST_JOIN(function,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_FUNCTION_INVOKER \
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BOOST_JOIN(function_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_VOID_FUNCTION_INVOKER \
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BOOST_JOIN(void_function_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_FUNCTION_OBJ_INVOKER \
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BOOST_JOIN(function_obj_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_VOID_FUNCTION_OBJ_INVOKER \
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BOOST_JOIN(void_function_obj_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_FUNCTION_REF_INVOKER \
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BOOST_JOIN(function_ref_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_VOID_FUNCTION_REF_INVOKER \
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BOOST_JOIN(void_function_ref_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_MEMBER_INVOKER \
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BOOST_JOIN(function_mem_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_VOID_MEMBER_INVOKER \
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BOOST_JOIN(function_void_mem_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_GET_FUNCTION_INVOKER \
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BOOST_JOIN(get_function_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_GET_FUNCTION_OBJ_INVOKER \
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BOOST_JOIN(get_function_obj_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_GET_FUNCTION_REF_INVOKER \
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BOOST_JOIN(get_function_ref_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_GET_MEMBER_INVOKER \
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BOOST_JOIN(get_member_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_GET_INVOKER \
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BOOST_JOIN(get_invoker,BOOST_FUNCTION_NUM_ARGS)
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#define BOOST_FUNCTION_VTABLE BOOST_JOIN(basic_vtable,BOOST_FUNCTION_NUM_ARGS)
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#ifndef BOOST_NO_VOID_RETURNS
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# define BOOST_FUNCTION_VOID_RETURN_TYPE void
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# define BOOST_FUNCTION_RETURN(X) X
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#else
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# define BOOST_FUNCTION_VOID_RETURN_TYPE boost::detail::function::unusable
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# define BOOST_FUNCTION_RETURN(X) X; return BOOST_FUNCTION_VOID_RETURN_TYPE ()
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#endif
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namespace boost {
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namespace detail {
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namespace function {
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template<
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typename FunctionPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_FUNCTION_INVOKER
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{
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static R invoke(function_buffer& function_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionPtr f = reinterpret_cast<FunctionPtr>(function_ptr.members.func_ptr);
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return f(BOOST_FUNCTION_ARGS);
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}
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};
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template<
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typename FunctionPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_VOID_FUNCTION_INVOKER
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{
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static BOOST_FUNCTION_VOID_RETURN_TYPE
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invoke(function_buffer& function_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionPtr f = reinterpret_cast<FunctionPtr>(function_ptr.members.func_ptr);
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BOOST_FUNCTION_RETURN(f(BOOST_FUNCTION_ARGS));
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}
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_FUNCTION_OBJ_INVOKER
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{
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static R invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionObj* f;
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if (function_allows_small_object_optimization<FunctionObj>::value)
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f = reinterpret_cast<FunctionObj*>(function_obj_ptr.data);
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else
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f = reinterpret_cast<FunctionObj*>(function_obj_ptr.members.obj_ptr);
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return (*f)(BOOST_FUNCTION_ARGS);
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}
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_VOID_FUNCTION_OBJ_INVOKER
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{
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static BOOST_FUNCTION_VOID_RETURN_TYPE
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invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionObj* f;
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if (function_allows_small_object_optimization<FunctionObj>::value)
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f = reinterpret_cast<FunctionObj*>(function_obj_ptr.data);
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else
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f = reinterpret_cast<FunctionObj*>(function_obj_ptr.members.obj_ptr);
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BOOST_FUNCTION_RETURN((*f)(BOOST_FUNCTION_ARGS));
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}
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_FUNCTION_REF_INVOKER
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{
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static R invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionObj* f =
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reinterpret_cast<FunctionObj*>(function_obj_ptr.members.obj_ptr);
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return (*f)(BOOST_FUNCTION_ARGS);
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}
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_VOID_FUNCTION_REF_INVOKER
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{
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static BOOST_FUNCTION_VOID_RETURN_TYPE
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invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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FunctionObj* f =
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reinterpret_cast<FunctionObj*>(function_obj_ptr.members.obj_ptr);
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BOOST_FUNCTION_RETURN((*f)(BOOST_FUNCTION_ARGS));
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}
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};
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#if BOOST_FUNCTION_NUM_ARGS > 0
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/* Handle invocation of member pointers. */
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template<
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typename MemberPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_MEMBER_INVOKER
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{
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static R invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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MemberPtr* f =
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reinterpret_cast<MemberPtr*>(function_obj_ptr.data);
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return boost::mem_fn(*f)(BOOST_FUNCTION_ARGS);
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}
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};
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template<
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typename MemberPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_VOID_MEMBER_INVOKER
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{
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static BOOST_FUNCTION_VOID_RETURN_TYPE
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invoke(function_buffer& function_obj_ptr BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_PARMS)
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{
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MemberPtr* f =
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reinterpret_cast<MemberPtr*>(function_obj_ptr.data);
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BOOST_FUNCTION_RETURN(boost::mem_fn(*f)(BOOST_FUNCTION_ARGS));
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}
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};
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#endif
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template<
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typename FunctionPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_GET_FUNCTION_INVOKER
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{
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typedef typename conditional<(is_void<R>::value),
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BOOST_FUNCTION_VOID_FUNCTION_INVOKER<
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FunctionPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>,
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BOOST_FUNCTION_FUNCTION_INVOKER<
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FunctionPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>
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>::type type;
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_GET_FUNCTION_OBJ_INVOKER
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{
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typedef typename conditional<(is_void<R>::value),
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BOOST_FUNCTION_VOID_FUNCTION_OBJ_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>,
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BOOST_FUNCTION_FUNCTION_OBJ_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>
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>::type type;
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};
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template<
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typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_GET_FUNCTION_REF_INVOKER
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{
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typedef typename conditional<(is_void<R>::value),
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BOOST_FUNCTION_VOID_FUNCTION_REF_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>,
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BOOST_FUNCTION_FUNCTION_REF_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>
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>::type type;
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};
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#if BOOST_FUNCTION_NUM_ARGS > 0
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/* Retrieve the appropriate invoker for a member pointer. */
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template<
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typename MemberPtr,
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typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS
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>
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struct BOOST_FUNCTION_GET_MEMBER_INVOKER
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{
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typedef typename conditional<(is_void<R>::value),
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BOOST_FUNCTION_VOID_MEMBER_INVOKER<
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MemberPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>,
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BOOST_FUNCTION_MEMBER_INVOKER<
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MemberPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>
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>::type type;
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};
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#endif
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/* Given the tag returned by get_function_tag, retrieve the
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actual invoker that will be used for the given function
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object.
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Each specialization contains an "apply" nested class template
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that accepts the function object, return type, function
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argument types, and allocator. The resulting "apply" class
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contains two typedefs, "invoker_type" and "manager_type",
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which correspond to the invoker and manager types. */
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template<typename Tag>
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struct BOOST_FUNCTION_GET_INVOKER { };
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/* Retrieve the invoker for a function pointer. */
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template<>
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struct BOOST_FUNCTION_GET_INVOKER<function_ptr_tag>
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{
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template<typename FunctionPtr,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_INVOKER<
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FunctionPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager<FunctionPtr> manager_type;
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};
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template<typename FunctionPtr, typename Allocator,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply_a
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_INVOKER<
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FunctionPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager<FunctionPtr> manager_type;
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};
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};
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#if BOOST_FUNCTION_NUM_ARGS > 0
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/* Retrieve the invoker for a member pointer. */
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template<>
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struct BOOST_FUNCTION_GET_INVOKER<member_ptr_tag>
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{
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template<typename MemberPtr,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply
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{
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typedef typename BOOST_FUNCTION_GET_MEMBER_INVOKER<
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MemberPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager<MemberPtr> manager_type;
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};
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template<typename MemberPtr, typename Allocator,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply_a
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{
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typedef typename BOOST_FUNCTION_GET_MEMBER_INVOKER<
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MemberPtr,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager<MemberPtr> manager_type;
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};
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};
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#endif
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/* Retrieve the invoker for a function object. */
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template<>
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struct BOOST_FUNCTION_GET_INVOKER<function_obj_tag>
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{
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template<typename FunctionObj,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_OBJ_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager<FunctionObj> manager_type;
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};
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template<typename FunctionObj, typename Allocator,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply_a
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_OBJ_INVOKER<
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FunctionObj,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef functor_manager_a<FunctionObj, Allocator> manager_type;
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};
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};
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/* Retrieve the invoker for a reference to a function object. */
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template<>
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struct BOOST_FUNCTION_GET_INVOKER<function_obj_ref_tag>
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{
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template<typename RefWrapper,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_REF_INVOKER<
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typename RefWrapper::type,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef reference_manager<typename RefWrapper::type> manager_type;
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};
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template<typename RefWrapper, typename Allocator,
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typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct apply_a
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{
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typedef typename BOOST_FUNCTION_GET_FUNCTION_REF_INVOKER<
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typename RefWrapper::type,
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS
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>::type
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invoker_type;
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typedef reference_manager<typename RefWrapper::type> manager_type;
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};
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};
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/**
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* vtable for a specific boost::function instance. This
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* structure must be an aggregate so that we can use static
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* initialization in boost::function's assign_to and assign_to_a
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* members. It therefore cannot have any constructors,
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* destructors, base classes, etc.
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*/
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template<typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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struct BOOST_FUNCTION_VTABLE
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{
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#ifndef BOOST_NO_VOID_RETURNS
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typedef R result_type;
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#else
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typedef typename function_return_type<R>::type result_type;
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#endif // BOOST_NO_VOID_RETURNS
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typedef result_type (*invoker_type)(function_buffer&
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BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS);
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template<typename F>
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bool assign_to(F f, function_buffer& functor) const
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{
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typedef typename get_function_tag<F>::type tag;
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return assign_to(f, functor, tag());
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}
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template<typename F,typename Allocator>
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bool assign_to_a(F f, function_buffer& functor, Allocator a) const
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{
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typedef typename get_function_tag<F>::type tag;
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return assign_to_a(f, functor, a, tag());
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}
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void clear(function_buffer& functor) const
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{
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if (base.manager)
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base.manager(functor, functor, destroy_functor_tag);
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}
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private:
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// Function pointers
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template<typename FunctionPtr>
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bool
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assign_to(FunctionPtr f, function_buffer& functor, function_ptr_tag) const
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{
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this->clear(functor);
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if (f) {
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// should be a reinterpret cast, but some compilers insist
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// on giving cv-qualifiers to free functions
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functor.members.func_ptr = reinterpret_cast<void (*)()>(f);
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return true;
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} else {
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return false;
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}
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}
|
|
template<typename FunctionPtr,typename Allocator>
|
|
bool
|
|
assign_to_a(FunctionPtr f, function_buffer& functor, Allocator, function_ptr_tag) const
|
|
{
|
|
return assign_to(f,functor,function_ptr_tag());
|
|
}
|
|
|
|
// Member pointers
|
|
#if BOOST_FUNCTION_NUM_ARGS > 0
|
|
template<typename MemberPtr>
|
|
bool assign_to(MemberPtr f, function_buffer& functor, member_ptr_tag) const
|
|
{
|
|
// DPG TBD: Add explicit support for member function
|
|
// objects, so we invoke through mem_fn() but we retain the
|
|
// right target_type() values.
|
|
if (f) {
|
|
this->assign_to(boost::mem_fn(f), functor);
|
|
return true;
|
|
} else {
|
|
return false;
|
|
}
|
|
}
|
|
template<typename MemberPtr,typename Allocator>
|
|
bool assign_to_a(MemberPtr f, function_buffer& functor, Allocator a, member_ptr_tag) const
|
|
{
|
|
// DPG TBD: Add explicit support for member function
|
|
// objects, so we invoke through mem_fn() but we retain the
|
|
// right target_type() values.
|
|
if (f) {
|
|
this->assign_to_a(boost::mem_fn(f), functor, a);
|
|
return true;
|
|
} else {
|
|
return false;
|
|
}
|
|
}
|
|
#endif // BOOST_FUNCTION_NUM_ARGS > 0
|
|
|
|
// Function objects
|
|
// Assign to a function object using the small object optimization
|
|
template<typename FunctionObj>
|
|
void
|
|
assign_functor(FunctionObj f, function_buffer& functor, true_type) const
|
|
{
|
|
new (reinterpret_cast<void*>(functor.data)) FunctionObj(f);
|
|
}
|
|
template<typename FunctionObj,typename Allocator>
|
|
void
|
|
assign_functor_a(FunctionObj f, function_buffer& functor, Allocator, true_type) const
|
|
{
|
|
assign_functor(f,functor,true_type());
|
|
}
|
|
|
|
// Assign to a function object allocated on the heap.
|
|
template<typename FunctionObj>
|
|
void
|
|
assign_functor(FunctionObj f, function_buffer& functor, false_type) const
|
|
{
|
|
functor.members.obj_ptr = new FunctionObj(f);
|
|
}
|
|
template<typename FunctionObj,typename Allocator>
|
|
void
|
|
assign_functor_a(FunctionObj f, function_buffer& functor, Allocator a, false_type) const
|
|
{
|
|
typedef functor_wrapper<FunctionObj,Allocator> functor_wrapper_type;
|
|
#if defined(BOOST_NO_CXX11_ALLOCATOR)
|
|
typedef typename Allocator::template rebind<functor_wrapper_type>::other
|
|
wrapper_allocator_type;
|
|
typedef typename wrapper_allocator_type::pointer wrapper_allocator_pointer_type;
|
|
#else
|
|
using wrapper_allocator_type = typename std::allocator_traits<Allocator>::template rebind_alloc<functor_wrapper_type>;
|
|
using wrapper_allocator_pointer_type = typename std::allocator_traits<wrapper_allocator_type>::pointer;
|
|
#endif
|
|
wrapper_allocator_type wrapper_allocator(a);
|
|
wrapper_allocator_pointer_type copy = wrapper_allocator.allocate(1);
|
|
#if defined(BOOST_NO_CXX11_ALLOCATOR)
|
|
wrapper_allocator.construct(copy, functor_wrapper_type(f,a));
|
|
#else
|
|
std::allocator_traits<wrapper_allocator_type>::construct(wrapper_allocator, copy, functor_wrapper_type(f,a));
|
|
#endif
|
|
functor_wrapper_type* new_f = static_cast<functor_wrapper_type*>(copy);
|
|
functor.members.obj_ptr = new_f;
|
|
}
|
|
|
|
template<typename FunctionObj>
|
|
bool
|
|
assign_to(FunctionObj f, function_buffer& functor, function_obj_tag) const
|
|
{
|
|
if (!boost::detail::function::has_empty_target(boost::addressof(f))) {
|
|
assign_functor(f, functor,
|
|
integral_constant<bool, (function_allows_small_object_optimization<FunctionObj>::value)>());
|
|
return true;
|
|
} else {
|
|
return false;
|
|
}
|
|
}
|
|
template<typename FunctionObj,typename Allocator>
|
|
bool
|
|
assign_to_a(FunctionObj f, function_buffer& functor, Allocator a, function_obj_tag) const
|
|
{
|
|
if (!boost::detail::function::has_empty_target(boost::addressof(f))) {
|
|
assign_functor_a(f, functor, a,
|
|
integral_constant<bool, (function_allows_small_object_optimization<FunctionObj>::value)>());
|
|
return true;
|
|
} else {
|
|
return false;
|
|
}
|
|
}
|
|
|
|
// Reference to a function object
|
|
template<typename FunctionObj>
|
|
bool
|
|
assign_to(const reference_wrapper<FunctionObj>& f,
|
|
function_buffer& functor, function_obj_ref_tag) const
|
|
{
|
|
functor.members.obj_ref.obj_ptr = (void *)(f.get_pointer());
|
|
functor.members.obj_ref.is_const_qualified = is_const<FunctionObj>::value;
|
|
functor.members.obj_ref.is_volatile_qualified = is_volatile<FunctionObj>::value;
|
|
return true;
|
|
}
|
|
template<typename FunctionObj,typename Allocator>
|
|
bool
|
|
assign_to_a(const reference_wrapper<FunctionObj>& f,
|
|
function_buffer& functor, Allocator, function_obj_ref_tag) const
|
|
{
|
|
return assign_to(f,functor,function_obj_ref_tag());
|
|
}
|
|
|
|
public:
|
|
vtable_base base;
|
|
invoker_type invoker;
|
|
};
|
|
} // end namespace function
|
|
} // end namespace detail
|
|
|
|
template<
|
|
typename R BOOST_FUNCTION_COMMA
|
|
BOOST_FUNCTION_TEMPLATE_PARMS
|
|
>
|
|
class BOOST_FUNCTION_FUNCTION : public function_base
|
|
{
|
|
public:
|
|
#ifndef BOOST_NO_VOID_RETURNS
|
|
typedef R result_type;
|
|
#else
|
|
typedef typename boost::detail::function::function_return_type<R>::type
|
|
result_type;
|
|
#endif // BOOST_NO_VOID_RETURNS
|
|
|
|
private:
|
|
typedef boost::detail::function::BOOST_FUNCTION_VTABLE<
|
|
R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_ARGS>
|
|
vtable_type;
|
|
|
|
vtable_type* get_vtable() const {
|
|
return reinterpret_cast<vtable_type*>(
|
|
reinterpret_cast<std::size_t>(vtable) & ~static_cast<std::size_t>(0x01));
|
|
}
|
|
|
|
struct clear_type {};
|
|
|
|
public:
|
|
BOOST_STATIC_CONSTANT(int, args = BOOST_FUNCTION_NUM_ARGS);
|
|
|
|
// add signature for boost::lambda
|
|
template<typename Args>
|
|
struct sig
|
|
{
|
|
typedef result_type type;
|
|
};
|
|
|
|
#if BOOST_FUNCTION_NUM_ARGS == 1
|
|
typedef T0 argument_type;
|
|
#elif BOOST_FUNCTION_NUM_ARGS == 2
|
|
typedef T0 first_argument_type;
|
|
typedef T1 second_argument_type;
|
|
#endif
|
|
|
|
BOOST_STATIC_CONSTANT(int, arity = BOOST_FUNCTION_NUM_ARGS);
|
|
BOOST_FUNCTION_ARG_TYPES
|
|
|
|
typedef BOOST_FUNCTION_FUNCTION self_type;
|
|
|
|
BOOST_DEFAULTED_FUNCTION(BOOST_FUNCTION_FUNCTION(), : function_base() {})
|
|
|
|
// MSVC chokes if the following two constructors are collapsed into
|
|
// one with a default parameter.
|
|
template<typename Functor>
|
|
BOOST_FUNCTION_FUNCTION(Functor BOOST_FUNCTION_TARGET_FIX(const &) f
|
|
#ifndef BOOST_NO_SFINAE
|
|
,typename boost::enable_if_<
|
|
!(is_integral<Functor>::value),
|
|
int>::type = 0
|
|
#endif // BOOST_NO_SFINAE
|
|
) :
|
|
function_base()
|
|
{
|
|
this->assign_to(f);
|
|
}
|
|
template<typename Functor,typename Allocator>
|
|
BOOST_FUNCTION_FUNCTION(Functor BOOST_FUNCTION_TARGET_FIX(const &) f, Allocator a
|
|
#ifndef BOOST_NO_SFINAE
|
|
,typename boost::enable_if_<
|
|
!(is_integral<Functor>::value),
|
|
int>::type = 0
|
|
#endif // BOOST_NO_SFINAE
|
|
) :
|
|
function_base()
|
|
{
|
|
this->assign_to_a(f,a);
|
|
}
|
|
|
|
#ifndef BOOST_NO_SFINAE
|
|
BOOST_FUNCTION_FUNCTION(clear_type*) : function_base() { }
|
|
#else
|
|
BOOST_FUNCTION_FUNCTION(int zero) : function_base()
|
|
{
|
|
BOOST_ASSERT(zero == 0);
|
|
}
|
|
#endif
|
|
|
|
BOOST_FUNCTION_FUNCTION(const BOOST_FUNCTION_FUNCTION& f) : function_base()
|
|
{
|
|
this->assign_to_own(f);
|
|
}
|
|
|
|
#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
|
|
BOOST_FUNCTION_FUNCTION(BOOST_FUNCTION_FUNCTION&& f) : function_base()
|
|
{
|
|
this->move_assign(f);
|
|
}
|
|
#endif
|
|
|
|
~BOOST_FUNCTION_FUNCTION() { clear(); }
|
|
|
|
result_type operator()(BOOST_FUNCTION_PARMS) const
|
|
{
|
|
if (this->empty())
|
|
boost::throw_exception(bad_function_call());
|
|
|
|
return get_vtable()->invoker
|
|
(this->functor BOOST_FUNCTION_COMMA BOOST_FUNCTION_ARGS);
|
|
}
|
|
|
|
// The distinction between when to use BOOST_FUNCTION_FUNCTION and
|
|
// when to use self_type is obnoxious. MSVC cannot handle self_type as
|
|
// the return type of these assignment operators, but Borland C++ cannot
|
|
// handle BOOST_FUNCTION_FUNCTION as the type of the temporary to
|
|
// construct.
|
|
template<typename Functor>
|
|
#ifndef BOOST_NO_SFINAE
|
|
typename boost::enable_if_<
|
|
!(is_integral<Functor>::value),
|
|
BOOST_FUNCTION_FUNCTION&>::type
|
|
#else
|
|
BOOST_FUNCTION_FUNCTION&
|
|
#endif
|
|
operator=(Functor BOOST_FUNCTION_TARGET_FIX(const &) f)
|
|
{
|
|
this->clear();
|
|
BOOST_TRY {
|
|
this->assign_to(f);
|
|
} BOOST_CATCH (...) {
|
|
vtable = 0;
|
|
BOOST_RETHROW;
|
|
}
|
|
BOOST_CATCH_END
|
|
return *this;
|
|
}
|
|
template<typename Functor,typename Allocator>
|
|
void assign(Functor BOOST_FUNCTION_TARGET_FIX(const &) f, Allocator a)
|
|
{
|
|
this->clear();
|
|
BOOST_TRY{
|
|
this->assign_to_a(f,a);
|
|
} BOOST_CATCH (...) {
|
|
vtable = 0;
|
|
BOOST_RETHROW;
|
|
}
|
|
BOOST_CATCH_END
|
|
}
|
|
|
|
#ifndef BOOST_NO_SFINAE
|
|
BOOST_FUNCTION_FUNCTION& operator=(clear_type*)
|
|
{
|
|
this->clear();
|
|
return *this;
|
|
}
|
|
#else
|
|
BOOST_FUNCTION_FUNCTION& operator=(int zero)
|
|
{
|
|
BOOST_ASSERT(zero == 0);
|
|
this->clear();
|
|
return *this;
|
|
}
|
|
#endif
|
|
|
|
// Assignment from another BOOST_FUNCTION_FUNCTION
|
|
BOOST_FUNCTION_FUNCTION& operator=(const BOOST_FUNCTION_FUNCTION& f)
|
|
{
|
|
if (&f == this)
|
|
return *this;
|
|
|
|
this->clear();
|
|
BOOST_TRY {
|
|
this->assign_to_own(f);
|
|
} BOOST_CATCH (...) {
|
|
vtable = 0;
|
|
BOOST_RETHROW;
|
|
}
|
|
BOOST_CATCH_END
|
|
return *this;
|
|
}
|
|
|
|
#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
|
|
// Move assignment from another BOOST_FUNCTION_FUNCTION
|
|
BOOST_FUNCTION_FUNCTION& operator=(BOOST_FUNCTION_FUNCTION&& f)
|
|
{
|
|
if (&f == this)
|
|
return *this;
|
|
|
|
this->clear();
|
|
BOOST_TRY {
|
|
this->move_assign(f);
|
|
} BOOST_CATCH (...) {
|
|
vtable = 0;
|
|
BOOST_RETHROW;
|
|
}
|
|
BOOST_CATCH_END
|
|
return *this;
|
|
}
|
|
#endif
|
|
|
|
void swap(BOOST_FUNCTION_FUNCTION& other)
|
|
{
|
|
if (&other == this)
|
|
return;
|
|
|
|
BOOST_FUNCTION_FUNCTION tmp;
|
|
tmp.move_assign(*this);
|
|
this->move_assign(other);
|
|
other.move_assign(tmp);
|
|
}
|
|
|
|
// Clear out a target, if there is one
|
|
void clear()
|
|
{
|
|
if (vtable) {
|
|
if (!this->has_trivial_copy_and_destroy())
|
|
get_vtable()->clear(this->functor);
|
|
vtable = 0;
|
|
}
|
|
}
|
|
|
|
#if (defined __SUNPRO_CC) && (__SUNPRO_CC <= 0x530) && !(defined BOOST_NO_COMPILER_CONFIG)
|
|
// Sun C++ 5.3 can't handle the safe_bool idiom, so don't use it
|
|
operator bool () const { return !this->empty(); }
|
|
#else
|
|
private:
|
|
struct dummy {
|
|
void nonnull() {}
|
|
};
|
|
|
|
typedef void (dummy::*safe_bool)();
|
|
|
|
public:
|
|
operator safe_bool () const
|
|
{ return (this->empty())? 0 : &dummy::nonnull; }
|
|
|
|
bool operator!() const
|
|
{ return this->empty(); }
|
|
#endif
|
|
|
|
private:
|
|
void assign_to_own(const BOOST_FUNCTION_FUNCTION& f)
|
|
{
|
|
if (!f.empty()) {
|
|
this->vtable = f.vtable;
|
|
if (this->has_trivial_copy_and_destroy()) {
|
|
// Don't operate on storage directly since union type doesn't relax
|
|
// strict aliasing rules, despite of having member char type.
|
|
# if defined(BOOST_GCC) && (BOOST_GCC >= 40700)
|
|
# pragma GCC diagnostic push
|
|
// This warning is technically correct, but we don't want to pay the price for initializing
|
|
// just to silence a warning: https://github.com/boostorg/function/issues/27
|
|
# pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
|
|
# endif
|
|
std::memcpy(this->functor.data, f.functor.data, sizeof(boost::detail::function::function_buffer));
|
|
# if defined(BOOST_GCC) && (BOOST_GCC >= 40700)
|
|
# pragma GCC diagnostic pop
|
|
# endif
|
|
} else
|
|
get_vtable()->base.manager(f.functor, this->functor,
|
|
boost::detail::function::clone_functor_tag);
|
|
}
|
|
}
|
|
|
|
template<typename Functor>
|
|
void assign_to(Functor f)
|
|
{
|
|
using boost::detail::function::vtable_base;
|
|
|
|
typedef typename boost::detail::function::get_function_tag<Functor>::type tag;
|
|
typedef boost::detail::function::BOOST_FUNCTION_GET_INVOKER<tag> get_invoker;
|
|
typedef typename get_invoker::
|
|
template apply<Functor, R BOOST_FUNCTION_COMMA
|
|
BOOST_FUNCTION_TEMPLATE_ARGS>
|
|
handler_type;
|
|
|
|
typedef typename handler_type::invoker_type invoker_type;
|
|
typedef typename handler_type::manager_type manager_type;
|
|
|
|
// Note: it is extremely important that this initialization use
|
|
// static initialization. Otherwise, we will have a race
|
|
// condition here in multi-threaded code. See
|
|
// http://thread.gmane.org/gmane.comp.lib.boost.devel/164902/.
|
|
static const vtable_type stored_vtable =
|
|
{ { &manager_type::manage }, &invoker_type::invoke };
|
|
|
|
if (stored_vtable.assign_to(f, functor)) {
|
|
std::size_t value = reinterpret_cast<std::size_t>(&stored_vtable.base);
|
|
// coverity[pointless_expression]: suppress coverity warnings on apparant if(const).
|
|
if (boost::has_trivial_copy_constructor<Functor>::value &&
|
|
boost::has_trivial_destructor<Functor>::value &&
|
|
boost::detail::function::function_allows_small_object_optimization<Functor>::value)
|
|
value |= static_cast<std::size_t>(0x01);
|
|
vtable = reinterpret_cast<boost::detail::function::vtable_base *>(value);
|
|
} else
|
|
vtable = 0;
|
|
}
|
|
|
|
template<typename Functor,typename Allocator>
|
|
void assign_to_a(Functor f,Allocator a)
|
|
{
|
|
using boost::detail::function::vtable_base;
|
|
|
|
typedef typename boost::detail::function::get_function_tag<Functor>::type tag;
|
|
typedef boost::detail::function::BOOST_FUNCTION_GET_INVOKER<tag> get_invoker;
|
|
typedef typename get_invoker::
|
|
template apply_a<Functor, Allocator, R BOOST_FUNCTION_COMMA
|
|
BOOST_FUNCTION_TEMPLATE_ARGS>
|
|
handler_type;
|
|
|
|
typedef typename handler_type::invoker_type invoker_type;
|
|
typedef typename handler_type::manager_type manager_type;
|
|
|
|
// Note: it is extremely important that this initialization use
|
|
// static initialization. Otherwise, we will have a race
|
|
// condition here in multi-threaded code. See
|
|
// http://thread.gmane.org/gmane.comp.lib.boost.devel/164902/.
|
|
static const vtable_type stored_vtable =
|
|
{ { &manager_type::manage }, &invoker_type::invoke };
|
|
|
|
if (stored_vtable.assign_to_a(f, functor, a)) {
|
|
std::size_t value = reinterpret_cast<std::size_t>(&stored_vtable.base);
|
|
// coverity[pointless_expression]: suppress coverity warnings on apparant if(const).
|
|
if (boost::has_trivial_copy_constructor<Functor>::value &&
|
|
boost::has_trivial_destructor<Functor>::value &&
|
|
boost::detail::function::function_allows_small_object_optimization<Functor>::value)
|
|
value |= static_cast<std::size_t>(0x01);
|
|
vtable = reinterpret_cast<boost::detail::function::vtable_base *>(value);
|
|
} else
|
|
vtable = 0;
|
|
}
|
|
|
|
// Moves the value from the specified argument to *this. If the argument
|
|
// has its function object allocated on the heap, move_assign will pass
|
|
// its buffer to *this, and set the argument's buffer pointer to NULL.
|
|
void move_assign(BOOST_FUNCTION_FUNCTION& f)
|
|
{
|
|
if (&f == this)
|
|
return;
|
|
|
|
BOOST_TRY {
|
|
if (!f.empty()) {
|
|
this->vtable = f.vtable;
|
|
if (this->has_trivial_copy_and_destroy()) {
|
|
// Don't operate on storage directly since union type doesn't relax
|
|
// strict aliasing rules, despite of having member char type.
|
|
# if defined(BOOST_GCC) && (BOOST_GCC >= 40700)
|
|
# pragma GCC diagnostic push
|
|
// This warning is technically correct, but we don't want to pay the price for initializing
|
|
// just to silence a warning: https://github.com/boostorg/function/issues/27
|
|
# pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
|
|
# endif
|
|
std::memcpy(this->functor.data, f.functor.data, sizeof(this->functor.data));
|
|
# if defined(BOOST_GCC) && (BOOST_GCC >= 40700)
|
|
# pragma GCC diagnostic pop
|
|
# endif
|
|
} else
|
|
get_vtable()->base.manager(f.functor, this->functor,
|
|
boost::detail::function::move_functor_tag);
|
|
f.vtable = 0;
|
|
} else {
|
|
clear();
|
|
}
|
|
} BOOST_CATCH (...) {
|
|
vtable = 0;
|
|
BOOST_RETHROW;
|
|
}
|
|
BOOST_CATCH_END
|
|
}
|
|
};
|
|
|
|
template<typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
|
|
inline void swap(BOOST_FUNCTION_FUNCTION<
|
|
R BOOST_FUNCTION_COMMA
|
|
BOOST_FUNCTION_TEMPLATE_ARGS
|
|
>& f1,
|
|
BOOST_FUNCTION_FUNCTION<
|
|
R BOOST_FUNCTION_COMMA
|
|
BOOST_FUNCTION_TEMPLATE_ARGS
|
|
>& f2)
|
|
{
|
|
f1.swap(f2);
|
|
}
|
|
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// Poison comparisons between boost::function objects of the same type.
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template<typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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void operator==(const BOOST_FUNCTION_FUNCTION<
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS>&,
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const BOOST_FUNCTION_FUNCTION<
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS>&);
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template<typename R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_PARMS>
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void operator!=(const BOOST_FUNCTION_FUNCTION<
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS>&,
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const BOOST_FUNCTION_FUNCTION<
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R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_ARGS>& );
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#if !defined(BOOST_FUNCTION_NO_FUNCTION_TYPE_SYNTAX)
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#if BOOST_FUNCTION_NUM_ARGS == 0
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#define BOOST_FUNCTION_PARTIAL_SPEC R (void)
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#else
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#define BOOST_FUNCTION_PARTIAL_SPEC R (BOOST_FUNCTION_TEMPLATE_ARGS)
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#endif
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template<typename R BOOST_FUNCTION_COMMA
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BOOST_FUNCTION_TEMPLATE_PARMS>
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class function<BOOST_FUNCTION_PARTIAL_SPEC>
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: public BOOST_FUNCTION_FUNCTION<R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_ARGS>
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{
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typedef BOOST_FUNCTION_FUNCTION<R BOOST_FUNCTION_COMMA BOOST_FUNCTION_TEMPLATE_ARGS> base_type;
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typedef function self_type;
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struct clear_type {};
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public:
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BOOST_DEFAULTED_FUNCTION(function(), : base_type() {})
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template<typename Functor>
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function(Functor f
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#ifndef BOOST_NO_SFINAE
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,typename boost::enable_if_<
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!(is_integral<Functor>::value),
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int>::type = 0
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#endif
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) :
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base_type(f)
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{
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}
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template<typename Functor,typename Allocator>
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function(Functor f, Allocator a
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#ifndef BOOST_NO_SFINAE
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,typename boost::enable_if_<
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!(is_integral<Functor>::value),
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int>::type = 0
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#endif
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) :
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base_type(f,a)
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{
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}
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#ifndef BOOST_NO_SFINAE
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function(clear_type*) : base_type() {}
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#endif
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function(const self_type& f) : base_type(static_cast<const base_type&>(f)){}
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function(const base_type& f) : base_type(static_cast<const base_type&>(f)){}
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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// Move constructors
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function(self_type&& f): base_type(static_cast<base_type&&>(f)){}
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function(base_type&& f): base_type(static_cast<base_type&&>(f)){}
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#endif
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self_type& operator=(const self_type& f)
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{
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self_type(f).swap(*this);
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return *this;
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}
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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self_type& operator=(self_type&& f)
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{
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self_type(static_cast<self_type&&>(f)).swap(*this);
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return *this;
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}
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#endif
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template<typename Functor>
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#ifndef BOOST_NO_SFINAE
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typename boost::enable_if_<
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!(is_integral<Functor>::value),
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self_type&>::type
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#else
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self_type&
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#endif
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operator=(Functor f)
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{
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self_type(f).swap(*this);
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return *this;
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}
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#ifndef BOOST_NO_SFINAE
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self_type& operator=(clear_type*)
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{
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this->clear();
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return *this;
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}
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#endif
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self_type& operator=(const base_type& f)
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{
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self_type(f).swap(*this);
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return *this;
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}
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#ifndef BOOST_NO_CXX11_RVALUE_REFERENCES
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self_type& operator=(base_type&& f)
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{
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self_type(static_cast<base_type&&>(f)).swap(*this);
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return *this;
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}
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#endif
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};
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#undef BOOST_FUNCTION_PARTIAL_SPEC
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#endif // have partial specialization
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} // end namespace boost
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// Cleanup after ourselves...
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#undef BOOST_FUNCTION_VTABLE
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#undef BOOST_FUNCTION_COMMA
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#undef BOOST_FUNCTION_FUNCTION
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#undef BOOST_FUNCTION_FUNCTION_INVOKER
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#undef BOOST_FUNCTION_VOID_FUNCTION_INVOKER
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#undef BOOST_FUNCTION_FUNCTION_OBJ_INVOKER
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#undef BOOST_FUNCTION_VOID_FUNCTION_OBJ_INVOKER
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#undef BOOST_FUNCTION_FUNCTION_REF_INVOKER
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#undef BOOST_FUNCTION_VOID_FUNCTION_REF_INVOKER
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#undef BOOST_FUNCTION_MEMBER_INVOKER
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#undef BOOST_FUNCTION_VOID_MEMBER_INVOKER
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#undef BOOST_FUNCTION_GET_FUNCTION_INVOKER
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#undef BOOST_FUNCTION_GET_FUNCTION_OBJ_INVOKER
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#undef BOOST_FUNCTION_GET_FUNCTION_REF_INVOKER
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#undef BOOST_FUNCTION_GET_MEM_FUNCTION_INVOKER
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#undef BOOST_FUNCTION_GET_INVOKER
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#undef BOOST_FUNCTION_TEMPLATE_PARMS
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#undef BOOST_FUNCTION_TEMPLATE_ARGS
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#undef BOOST_FUNCTION_PARMS
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#undef BOOST_FUNCTION_PARM
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#ifdef BOOST_FUNCTION_ARG
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# undef BOOST_FUNCTION_ARG
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#endif
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#undef BOOST_FUNCTION_ARGS
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#undef BOOST_FUNCTION_ARG_TYPE
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#undef BOOST_FUNCTION_ARG_TYPES
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#undef BOOST_FUNCTION_VOID_RETURN_TYPE
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#undef BOOST_FUNCTION_RETURN
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#if defined(BOOST_MSVC)
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# pragma warning( pop )
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#endif
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