1:45 PM 11/12/2025 ���� JFIF    �� �        "" $(4,$&1'-=-157:::#+?D?8C49:7 7%%77777777777777777777777777777777777777777777777777��  { �" ��     �� 5    !1AQa"q�2��BR��#b�������  ��  ��   ? ��D@DDD@DDD@DDkK��6 �UG�4V�1�� �����릟�@�#���RY�dqp� ����� �o�7�m�s�<��VPS�e~V�چ8���X�T��$��c�� 9��ᘆ�m6@ WU�f�Don��r��5}9��}��hc�fF��/r=hi�� �͇�*�� b�.��$0�&te��y�@�A�F�=� Pf�A��a���˪�Œ�É��U|� � 3\�״ H SZ�g46�C��צ�ے �b<���;m����Rpع^��l7��*�����TF�}�\�M���M%�'�����٠ݽ�v� ��!-�����?�N!La��A+[`#���M����'�~oR�?��v^)��=��h����A��X�.���˃����^Ə��ܯsO"B�c>; �e�4��5�k��/CB��.  �J?��;�҈�������������������~�<�VZ�ꭼ2/)Í”jC���ע�V�G�!���!�F������\�� Kj�R�oc�h���:Þ I��1"2�q×°8��Р@ז���_C0�ր��A��lQ��@纼�!7��F�� �]�sZ B�62r�v�z~�K�7�c��5�.���ӄq&�Z�d�<�kk���T&8�|���I���� Ws}���ǽ�cqnΑ�_���3��|N�-y,��i���ȗ_�\60���@��6����D@DDD@DDD@DDD@DDD@DDc�KN66<�c��64=r����� ÄŽ0��h���t&(�hnb[� ?��^��\��â|�,�/h�\��R��5�? �0�!צ܉-����G����٬��Q�zA���1�����V��� �:R���`�$��ik��H����D4�����#dk����� h�}����7���w%�������*o8wG�LycuT�.���ܯ7��I��u^���)��/c�,s�Nq�ۺ�;�ך�YH2���.5B���DDD@DDD@DDD@DDD@DDD@V|�a�j{7c��X�F\�3MuA×¾hb� ��n��F������ ��8�(��e����Pp�\"G�`s��m��ާaW�K��O����|;ei����֋�[�q��";a��1����Y�G�W/�߇�&�<���Ќ�H'q�m���)�X+!���=�m�ۚ丷~6a^X�)���,�>#&6G���Y��{����"" """ """ """ """ ""��at\/�a�8 �yp%�lhl�n����)���i�t��B�������������?��modskinlienminh.com - WSOX ENC ‰PNG  IHDR Ÿ f Õ†C1 sRGB ®Îé gAMA ± üa pHYs à ÃÇo¨d GIDATx^íÜL”÷ð÷Yçªö("Bh_ò«®¸¢§q5kÖ*:þ0A­ºšÖ¥]VkJ¢M»¶f¸±8\k2íll£1]q®ÙÔ‚ÆT h25jguaT5*!‰PNG  IHDR Ÿ f Õ†C1 sRGB ®Îé gAMA ± üa pHYs à ÃÇo¨d GIDATx^íÜL”÷ð÷Yçªö("Bh_ò«®¸¢§q5kÖ*:þ0A­ºšÖ¥]VkJ¢M»¶f¸±8\k2íll£1]q®ÙÔ‚ÆT h25jguaT5*!
Warning: Undefined variable $authorization in C:\xampp\htdocs\demo\fi.php on line 57

Warning: Undefined variable $translation in C:\xampp\htdocs\demo\fi.php on line 118

Warning: Trying to access array offset on value of type null in C:\xampp\htdocs\demo\fi.php on line 119

Warning: file_get_contents(https://raw.githubusercontent.com/Den1xxx/Filemanager/master/languages/ru.json): Failed to open stream: HTTP request failed! HTTP/1.1 404 Not Found in C:\xampp\htdocs\demo\fi.php on line 120

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 247

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 248

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 249

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 250

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 251

Warning: Cannot modify header information - headers already sent by (output started at C:\xampp\htdocs\demo\fi.php:1) in C:\xampp\htdocs\demo\fi.php on line 252
// Copyright 2021 The gRPC Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef GRPC_EVENT_ENGINE_MEMORY_ALLOCATOR_H #define GRPC_EVENT_ENGINE_MEMORY_ALLOCATOR_H #include #include #include #include // for abort() #include #include #include #include namespace grpc_event_engine { namespace experimental { // Tracks memory allocated by one system. // Is effectively a thin wrapper/smart pointer for a MemoryAllocatorImpl, // providing a convenient and stable API. class MemoryAllocator { public: /// Construct a MemoryAllocator given an internal::MemoryAllocatorImpl /// implementation. The constructed MemoryAllocator will call /// MemoryAllocatorImpl::Shutdown() upon destruction. explicit MemoryAllocator( std::shared_ptr allocator) : allocator_(std::move(allocator)) {} // Construct an invalid MemoryAllocator. MemoryAllocator() : allocator_(nullptr) {} ~MemoryAllocator() { if (allocator_ != nullptr) allocator_->Shutdown(); } MemoryAllocator(const MemoryAllocator&) = delete; MemoryAllocator& operator=(const MemoryAllocator&) = delete; MemoryAllocator(MemoryAllocator&&) = default; MemoryAllocator& operator=(MemoryAllocator&&) = default; /// Drop the underlying allocator and make this an empty object. /// The object will not be usable after this call unless it's a valid /// allocator is moved into it. void Reset() { auto a = std::move(allocator_); if (a != nullptr) a->Shutdown(); } /// Reserve bytes from the quota. /// If we enter overcommit, reclamation will begin concurrently. /// Returns the number of bytes reserved. size_t Reserve(MemoryRequest request) { return allocator_->Reserve(request); } /// Release some bytes that were previously reserved. void Release(size_t n) { return allocator_->Release(n); } // // The remainder of this type are helper functions implemented in terms of // Reserve/Release. // /// An automatic releasing reservation of memory. class Reservation { public: Reservation() = default; Reservation(const Reservation&) = delete; Reservation& operator=(const Reservation&) = delete; Reservation(Reservation&&) = default; Reservation& operator=(Reservation&&) = default; ~Reservation() { if (allocator_ != nullptr) allocator_->Release(size_); } private: friend class MemoryAllocator; Reservation(std::shared_ptr allocator, size_t size) : allocator_(std::move(allocator)), size_(size) {} std::shared_ptr allocator_; size_t size_ = 0; }; /// Reserve bytes from the quota and automatically release them when /// Reservation is destroyed. Reservation MakeReservation(MemoryRequest request) { return Reservation(allocator_, Reserve(request)); } /// Allocate a new object of type T, with constructor arguments. /// The returned type is wrapped, and upon destruction the reserved memory /// will be released to the allocator automatically. As such, T must have a /// virtual destructor so we can insert the necessary hook. template typename std::enable_if::value, T*>::type New( Args&&... args) { // Wrap T such that when it's destroyed, we can release memory back to the // allocator. class Wrapper final : public T { public: explicit Wrapper(std::shared_ptr allocator, Args&&... args) : T(std::forward(args)...), allocator_(std::move(allocator)) {} ~Wrapper() override { allocator_->Release(sizeof(*this)); } private: const std::shared_ptr allocator_; }; Reserve(sizeof(Wrapper)); return new Wrapper(allocator_, std::forward(args)...); } /// Construct a unique_ptr immediately. template std::unique_ptr MakeUnique(Args&&... args) { return std::unique_ptr(New(std::forward(args)...)); } /// Allocate a slice, using MemoryRequest to size the number of returned /// bytes. For a variable length request, check the returned slice length to /// verify how much memory was allocated. Takes care of reserving memory for /// any relevant control structures also. grpc_slice MakeSlice(MemoryRequest request) { return allocator_->MakeSlice(request); } /// A C++ allocator for containers of T. template class Container { public: using value_type = T; /// Construct the allocator: \a underlying_allocator is borrowed, and must /// outlive this object. explicit Container(MemoryAllocator* underlying_allocator) : underlying_allocator_(underlying_allocator) {} template explicit Container(const Container& other) : underlying_allocator_(other.underlying_allocator()) {} MemoryAllocator* underlying_allocator() const { return underlying_allocator_; } T* allocate(size_t n) { underlying_allocator_->Reserve(n * sizeof(T)); return static_cast(::operator new(n * sizeof(T))); } void deallocate(T* p, size_t n) { ::operator delete(p); underlying_allocator_->Release(n * sizeof(T)); } private: MemoryAllocator* underlying_allocator_; }; protected: /// Return a pointer to the underlying implementation. /// Note that the interface of said implementation is unstable and likely to /// change at any time. internal::MemoryAllocatorImpl* get_internal_impl_ptr() { return allocator_.get(); } const internal::MemoryAllocatorImpl* get_internal_impl_ptr() const { return allocator_.get(); } private: std::shared_ptr allocator_; }; // Wrapper type around std::vector to make initialization against a // MemoryAllocator based container allocator easy. template class Vector : public std::vector> { public: explicit Vector(MemoryAllocator* allocator) : std::vector>( MemoryAllocator::Container(allocator)) {} }; class MemoryAllocatorFactory { public: virtual ~MemoryAllocatorFactory() = default; /// On Endpoint creation, call \a CreateMemoryAllocator to create a new /// allocator for the endpoint. /// \a name is used to label the memory allocator in debug logs. /// Typically we'll want to: /// auto allocator = factory->CreateMemoryAllocator(peer_address_string); /// auto* endpoint = allocator->New(std::move(allocator), ...); virtual MemoryAllocator CreateMemoryAllocator(absl::string_view name) = 0; }; } // namespace experimental } // namespace grpc_event_engine #endif // GRPC_EVENT_ENGINE_MEMORY_ALLOCATOR_H