mirror of
https://github.com/vxunderground/MalwareSourceCode.git
synced 2024-12-24 04:15:26 +00:00
900263ea6f
n/a
545 lines
18 KiB
C++
545 lines
18 KiB
C++
// -*- C++ -*-
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//===------------------------ functional ----------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is dual licensed under the MIT and the University of Illinois Open
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// Source Licenses. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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// STL common functionality
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//
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// Some aspects of STL are core language concepts that should be used from all C++ code, regardless
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// of whether exceptions are enabled in the component. Common library code that expects to be used
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// from exception-free components want these concepts, but including STL headers directly introduces
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// friction as it requires components not using STL to declare their STL version. Doing so creates
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// ambiguity around whether STL use is safe in a particular component and implicitly brings in
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// a long list of headers (including <new>) which can create further ambiguity around throwing new
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// support (some routines pulled in may expect it). Secondarily, pulling in these headers also has
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// the potential to create naming conflicts or other implied dependencies.
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//
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// To promote the use of these core language concepts outside of STL-based binaries, this file is
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// selectively pulling those concepts *directly* from corresponding STL headers. The corresponding
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// "std::" namespace STL functions and types should be preferred over these in code that is bound to
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// STL. The implementation and naming of all functions are taken directly from STL, instead using
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// "wistd" (Windows Implementation std) as the namespace.
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//
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// Routines in this namespace should always be considered a reflection of the *current* STL implementation
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// of those routines. Updates from STL should be taken, but no "bugs" should be fixed here.
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//
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// New, exception-based code should not use this namespace, but instead should prefer the std:: implementation.
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// Only code that is not exception-based and libraries that expect to be utilized across both exception
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// and non-exception based code should utilize this functionality.
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#ifndef _WISTD_FUNCTIONAL_H_
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#define _WISTD_FUNCTIONAL_H_
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// DO NOT add *any* additional includes to this file -- there should be no dependencies from its usage
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#include "wistd_memory.h"
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#include <intrin.h> // For __fastfail
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#include <new.h> // For placement new
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#if !defined(__WI_LIBCPP_HAS_NO_PRAGMA_SYSTEM_HEADER)
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#pragma GCC system_header
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#endif
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#pragma warning(push)
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#pragma warning(disable: 4324)
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#pragma warning(disable: 4800)
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/// @cond
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namespace wistd // ("Windows Implementation" std)
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{
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// wistd::function
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//
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// All of the code below is in direct support of wistd::function. This class is identical to std::function
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// with the following exceptions:
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//
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// 1) It never allocates and is safe to use from exception-free code (custom allocators are not supported)
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// 2) It's slightly bigger on the stack (64 bytes, rather than 24 for 32bit)
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// 3) There is an explicit static-assert if a lambda becomes too large to hold in the internal buffer (rather than an allocation)
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template <class _Ret>
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struct __invoke_void_return_wrapper
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{
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#ifndef __WI_LIBCPP_CXX03_LANG
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template <class ..._Args>
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static _Ret __call(_Args&&... __args) {
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return __invoke(wistd::forward<_Args>(__args)...);
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}
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#else
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template <class _Fn>
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static _Ret __call(_Fn __f) {
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return __invoke(__f);
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}
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template <class _Fn, class _A0>
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static _Ret __call(_Fn __f, _A0& __a0) {
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return __invoke(__f, __a0);
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}
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template <class _Fn, class _A0, class _A1>
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static _Ret __call(_Fn __f, _A0& __a0, _A1& __a1) {
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return __invoke(__f, __a0, __a1);
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}
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template <class _Fn, class _A0, class _A1, class _A2>
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static _Ret __call(_Fn __f, _A0& __a0, _A1& __a1, _A2& __a2){
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return __invoke(__f, __a0, __a1, __a2);
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}
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#endif
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};
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template <>
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struct __invoke_void_return_wrapper<void>
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{
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#ifndef __WI_LIBCPP_CXX03_LANG
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template <class ..._Args>
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static void __call(_Args&&... __args) {
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(void)__invoke(wistd::forward<_Args>(__args)...);
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}
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#else
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template <class _Fn>
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static void __call(_Fn __f) {
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__invoke(__f);
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}
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template <class _Fn, class _A0>
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static void __call(_Fn __f, _A0& __a0) {
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__invoke(__f, __a0);
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}
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template <class _Fn, class _A0, class _A1>
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static void __call(_Fn __f, _A0& __a0, _A1& __a1) {
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__invoke(__f, __a0, __a1);
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}
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template <class _Fn, class _A0, class _A1, class _A2>
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static void __call(_Fn __f, _A0& __a0, _A1& __a1, _A2& __a2) {
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__invoke(__f, __a0, __a1, __a2);
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}
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#endif
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};
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////////////////////////////////////////////////////////////////////////////////
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// FUNCTION
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//==============================================================================
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// bad_function_call
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__WI_LIBCPP_NORETURN inline __WI_LIBCPP_INLINE_VISIBILITY
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void __throw_bad_function_call()
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{
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__fastfail(7); // FAST_FAIL_FATAL_APP_EXIT
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}
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template<class _Fp> class __WI_LIBCPP_TEMPLATE_VIS function; // undefined
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namespace __function
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{
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template<class _Rp>
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struct __maybe_derive_from_unary_function
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{
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};
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template<class _Rp, class _A1>
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struct __maybe_derive_from_unary_function<_Rp(_A1)>
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: public unary_function<_A1, _Rp>
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{
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};
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template<class _Rp>
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struct __maybe_derive_from_binary_function
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{
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};
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template<class _Rp, class _A1, class _A2>
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struct __maybe_derive_from_binary_function<_Rp(_A1, _A2)>
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: public binary_function<_A1, _A2, _Rp>
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{
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};
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template <class _Fp>
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__WI_LIBCPP_INLINE_VISIBILITY
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bool __not_null(_Fp const&) { return true; }
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template <class _Fp>
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__WI_LIBCPP_INLINE_VISIBILITY
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bool __not_null(_Fp* __ptr) { return __ptr; }
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template <class _Ret, class _Class>
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__WI_LIBCPP_INLINE_VISIBILITY
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bool __not_null(_Ret _Class::*__ptr) { return __ptr; }
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template <class _Fp>
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__WI_LIBCPP_INLINE_VISIBILITY
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bool __not_null(function<_Fp> const& __f) { return !!__f; }
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} // namespace __function
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#ifndef __WI_LIBCPP_CXX03_LANG
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namespace __function {
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template<class _Fp> class __base;
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template<class _Rp, class ..._ArgTypes>
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class __base<_Rp(_ArgTypes...)>
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{
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__base(const __base&);
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__base& operator=(const __base&);
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public:
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__WI_LIBCPP_INLINE_VISIBILITY __base() {}
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__WI_LIBCPP_INLINE_VISIBILITY virtual ~__base() {}
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virtual void __clone(__base*) const = 0;
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virtual void __move(__base*) = 0;
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virtual void destroy() WI_NOEXCEPT = 0;
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virtual _Rp operator()(_ArgTypes&& ...) = 0;
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};
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template<class _FD, class _FB> class __func;
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template<class _Fp, class _Rp, class ..._ArgTypes>
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class __func<_Fp, _Rp(_ArgTypes...)>
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: public __base<_Rp(_ArgTypes...)>
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{
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_Fp __f_;
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public:
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__WI_LIBCPP_INLINE_VISIBILITY
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explicit __func(_Fp&& __f)
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: __f_(wistd::move(__f)) {}
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__WI_LIBCPP_INLINE_VISIBILITY
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explicit __func(const _Fp& __f)
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: __f_(__f) {}
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virtual void __clone(__base<_Rp(_ArgTypes...)>*) const;
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virtual void __move(__base<_Rp(_ArgTypes...)>*);
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virtual void destroy() WI_NOEXCEPT;
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virtual _Rp operator()(_ArgTypes&& ... __arg);
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};
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template<class _Fp, class _Rp, class ..._ArgTypes>
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void
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__func<_Fp, _Rp(_ArgTypes...)>::__clone(__base<_Rp(_ArgTypes...)>* __p) const
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{
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::new (__p) __func(__f_);
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}
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template<class _Fp, class _Rp, class ..._ArgTypes>
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void
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__func<_Fp, _Rp(_ArgTypes...)>::__move(__base<_Rp(_ArgTypes...)>* __p)
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{
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::new (__p) __func(wistd::move(__f_));
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}
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template<class _Fp, class _Rp, class ..._ArgTypes>
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void
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__func<_Fp, _Rp(_ArgTypes...)>::destroy() WI_NOEXCEPT
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{
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__f_.~_Fp();
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}
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template<class _Fp, class _Rp, class ..._ArgTypes>
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_Rp
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__func<_Fp, _Rp(_ArgTypes...)>::operator()(_ArgTypes&& ... __arg)
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{
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typedef __invoke_void_return_wrapper<_Rp> _Invoker;
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return _Invoker::__call(__f_, wistd::forward<_ArgTypes>(__arg)...);
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}
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} // __function
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template<class _Rp, class ..._ArgTypes>
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class __WI_LIBCPP_TEMPLATE_VIS function<_Rp(_ArgTypes...)>
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: public __function::__maybe_derive_from_unary_function<_Rp(_ArgTypes...)>,
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public __function::__maybe_derive_from_binary_function<_Rp(_ArgTypes...)>
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{
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// 'wistd::function' is most similar to 'inplace_function' in that it _only_ permits holding function objects
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// that can fit within its internal buffer. Therefore, we expand this size to accommodate space for at least 12
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// pointers (__base vtable takes an additional one).
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static constexpr size_t __buffer_size = 13 * sizeof(void*);
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typedef __function::__base<_Rp(_ArgTypes...)> __base;
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__WI_LIBCPP_SUPPRESS_NONINIT_ANALYSIS
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typename aligned_storage<__buffer_size>::type __buf_;
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__base* __f_;
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__WI_LIBCPP_NO_CFI static __base *__as_base(void *p) {
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return reinterpret_cast<__base*>(p);
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}
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template <class _Fp, bool>
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struct __callable_imp
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{
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static const bool value = is_same<void, _Rp>::value ||
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is_convertible<typename __invoke_of<_Fp&, _ArgTypes...>::type,
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_Rp>::value;
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};
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template <class _Fp>
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struct __callable_imp<_Fp, false>
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{
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static const bool value = false;
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};
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template <class _Fp>
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struct __callable
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{
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static const bool value = __callable_imp<_Fp, __lazy_and<
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integral_constant<bool, !is_same<__uncvref_t<_Fp>, function>::value>,
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__invokable<_Fp&, _ArgTypes...>
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>::value>::value;
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};
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template <class _Fp>
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using _EnableIfCallable = typename enable_if<__callable<_Fp>::value>::type;
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public:
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typedef _Rp result_type;
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// construct/copy/destroy:
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__WI_LIBCPP_INLINE_VISIBILITY __WI_LIBCPP_SUPPRESS_NONINIT_ANALYSIS
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function() WI_NOEXCEPT : __f_(0) {}
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__WI_LIBCPP_INLINE_VISIBILITY
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function(nullptr_t) WI_NOEXCEPT : __f_(0) {}
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function(const function&);
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function(function&&);
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template<class _Fp, class = _EnableIfCallable<_Fp>>
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function(_Fp);
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function& operator=(const function&);
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function& operator=(function&&);
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function& operator=(nullptr_t) WI_NOEXCEPT;
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template<class _Fp, class = _EnableIfCallable<_Fp>>
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function& operator=(_Fp&&);
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~function();
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// function modifiers:
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void swap(function&);
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// function capacity:
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__WI_LIBCPP_INLINE_VISIBILITY
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__WI_LIBCPP_EXPLICIT operator bool() const WI_NOEXCEPT {return __f_;}
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// deleted overloads close possible hole in the type system
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template<class _R2, class... _ArgTypes2>
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bool operator==(const function<_R2(_ArgTypes2...)>&) const = delete;
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template<class _R2, class... _ArgTypes2>
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bool operator!=(const function<_R2(_ArgTypes2...)>&) const = delete;
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public:
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// function invocation:
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_Rp operator()(_ArgTypes...) const;
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// NOTE: type_info is very compiler specific, and on top of that, we're operating in a namespace other than
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// 'std' so all functions requiring RTTI have been removed
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};
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template<class _Rp, class ..._ArgTypes>
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__WI_LIBCPP_SUPPRESS_NONINIT_ANALYSIS
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function<_Rp(_ArgTypes...)>::function(const function& __f)
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{
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if (__f.__f_ == 0)
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__f_ = 0;
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else
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{
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__f_ = __as_base(&__buf_);
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__f.__f_->__clone(__f_);
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}
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}
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template<class _Rp, class ..._ArgTypes>
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__WI_LIBCPP_SUPPRESS_NONINIT_ANALYSIS __WI_LIBCPP_SUPPRESS_NOEXCEPT_ANALYSIS
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function<_Rp(_ArgTypes...)>::function(function&& __f)
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{
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if (__f.__f_ == 0)
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__f_ = 0;
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else
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{
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__f_ = __as_base(&__buf_);
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__f.__f_->__move(__f_);
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__f.__f_->destroy();
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__f.__f_ = 0;
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}
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}
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template<class _Rp, class ..._ArgTypes>
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template <class _Fp, class>
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__WI_LIBCPP_SUPPRESS_NONINIT_ANALYSIS
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function<_Rp(_ArgTypes...)>::function(_Fp __f)
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: __f_(0)
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{
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if (__function::__not_null(__f))
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{
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typedef __function::__func<_Fp, _Rp(_ArgTypes...)> _FF;
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static_assert(sizeof(_FF) <= sizeof(__buf_),
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"The sizeof(wistd::function) has grown too large for the reserved buffer (12 pointers). Refactor to reduce size of the capture.");
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__f_ = ::new((void*)&__buf_) _FF(wistd::move(__f));
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}
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}
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template<class _Rp, class ..._ArgTypes>
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function<_Rp(_ArgTypes...)>&
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function<_Rp(_ArgTypes...)>::operator=(const function& __f)
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{
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*this = nullptr;
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if (__f.__f_)
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{
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__f_ = __as_base(&__buf_);
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__f.__f_->__clone(__f_);
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}
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return *this;
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}
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template<class _Rp, class ..._ArgTypes>
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function<_Rp(_ArgTypes...)>&
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function<_Rp(_ArgTypes...)>::operator=(function&& __f)
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{
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*this = nullptr;
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if (__f.__f_)
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{
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__f_ = __as_base(&__buf_);
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__f.__f_->__move(__f_);
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__f.__f_->destroy();
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__f.__f_ = 0;
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}
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return *this;
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}
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template<class _Rp, class ..._ArgTypes>
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function<_Rp(_ArgTypes...)>&
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function<_Rp(_ArgTypes...)>::operator=(nullptr_t) WI_NOEXCEPT
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{
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__base* __t = __f_;
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__f_ = 0;
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if (__t)
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__t->destroy();
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return *this;
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}
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template<class _Rp, class ..._ArgTypes>
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template <class _Fp, class>
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function<_Rp(_ArgTypes...)>&
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function<_Rp(_ArgTypes...)>::operator=(_Fp&& __f)
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{
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*this = nullptr;
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if (__function::__not_null(__f))
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{
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typedef __function::__func<typename decay<_Fp>::type, _Rp(_ArgTypes...)> _FF;
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static_assert(sizeof(_FF) <= sizeof(__buf_),
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"The sizeof(wistd::function) has grown too large for the reserved buffer (12 pointers). Refactor to reduce size of the capture.");
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__f_ = ::new((void*)&__buf_) _FF(wistd::move(__f));
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}
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return *this;
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}
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template<class _Rp, class ..._ArgTypes>
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function<_Rp(_ArgTypes...)>::~function()
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{
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if (__f_)
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__f_->destroy();
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}
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template<class _Rp, class ..._ArgTypes>
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void
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function<_Rp(_ArgTypes...)>::swap(function& __f)
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{
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if (wistd::addressof(__f) == this)
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return;
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if (__f_ && __f.__f_)
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{
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typename aligned_storage<sizeof(__buf_)>::type __tempbuf;
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__base* __t = __as_base(&__tempbuf);
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__f_->__move(__t);
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__f_->destroy();
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__f_ = 0;
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__f.__f_->__move(__as_base(&__buf_));
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__f.__f_->destroy();
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__f.__f_ = 0;
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__f_ = __as_base(&__buf_);
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__t->__move(__as_base(&__f.__buf_));
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__t->destroy();
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__f.__f_ = __as_base(&__f.__buf_);
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}
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else if (__f_)
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{
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__f_->__move(__as_base(&__f.__buf_));
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__f_->destroy();
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__f_ = 0;
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__f.__f_ = __as_base(&__f.__buf_);
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}
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else if (__f.__f_)
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{
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__f.__f_->__move(__as_base(&__buf_));
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__f.__f_->destroy();
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__f.__f_ = 0;
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__f_ = __as_base(&__buf_);
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}
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}
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template<class _Rp, class ..._ArgTypes>
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_Rp
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function<_Rp(_ArgTypes...)>::operator()(_ArgTypes... __arg) const
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{
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if (__f_ == 0)
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__throw_bad_function_call();
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return (*__f_)(wistd::forward<_ArgTypes>(__arg)...);
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}
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template <class _Rp, class... _ArgTypes>
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inline __WI_LIBCPP_INLINE_VISIBILITY
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bool
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operator==(const function<_Rp(_ArgTypes...)>& __f, nullptr_t) WI_NOEXCEPT {return !__f;}
|
|
|
|
template <class _Rp, class... _ArgTypes>
|
|
inline __WI_LIBCPP_INLINE_VISIBILITY
|
|
bool
|
|
operator==(nullptr_t, const function<_Rp(_ArgTypes...)>& __f) WI_NOEXCEPT {return !__f;}
|
|
|
|
template <class _Rp, class... _ArgTypes>
|
|
inline __WI_LIBCPP_INLINE_VISIBILITY
|
|
bool
|
|
operator!=(const function<_Rp(_ArgTypes...)>& __f, nullptr_t) WI_NOEXCEPT {return (bool)__f;}
|
|
|
|
template <class _Rp, class... _ArgTypes>
|
|
inline __WI_LIBCPP_INLINE_VISIBILITY
|
|
bool
|
|
operator!=(nullptr_t, const function<_Rp(_ArgTypes...)>& __f) WI_NOEXCEPT {return (bool)__f;}
|
|
|
|
// Provide both 'swap_wil' and 'swap' since we now have two ADL scenarios that we need to work
|
|
template <class _Rp, class... _ArgTypes>
|
|
inline __WI_LIBCPP_INLINE_VISIBILITY
|
|
void
|
|
swap(function<_Rp(_ArgTypes...)>& __x, function<_Rp(_ArgTypes...)>& __y)
|
|
{return __x.swap(__y);}
|
|
|
|
template <class _Rp, class... _ArgTypes>
|
|
inline __WI_LIBCPP_INLINE_VISIBILITY
|
|
void
|
|
swap_wil(function<_Rp(_ArgTypes...)>& __x, function<_Rp(_ArgTypes...)>& __y)
|
|
{return __x.swap(__y);}
|
|
|
|
// std::invoke
|
|
template <class _Fn, class ..._Args>
|
|
typename __invoke_of<_Fn, _Args...>::type
|
|
invoke(_Fn&& __f, _Args&&... __args)
|
|
__WI_NOEXCEPT_((__nothrow_invokable<_Fn, _Args...>::value))
|
|
{
|
|
return wistd::__invoke(wistd::forward<_Fn>(__f), wistd::forward<_Args>(__args)...);
|
|
}
|
|
|
|
#else // __WI_LIBCPP_CXX03_LANG
|
|
|
|
#error wistd::function and wistd::invoke not implemented for pre-C++11
|
|
|
|
#endif
|
|
}
|
|
/// @endcond
|
|
|
|
#pragma warning(pop)
|
|
|
|
#endif // _WISTD_FUNCTIONAL_H_
|