src/google/protobuf/arenastring.h - platform/external/protobuf - Git at Google

 // Protocol Buffers - Google's data interchange format
 // Copyright 2008 Google Inc.  All rights reserved.
 // https://developers.google.com/protocol-buffers/
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 // notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 // copyright notice, this list of conditions and the following disclaimer
 // in the documentation and/or other materials provided with the
 // distribution.
 //     * Neither the name of Google Inc. nor the names of its
 // contributors may be used to endorse or promote products derived from
 // this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 #ifndef GOOGLE_PROTOBUF_ARENASTRING_H__
 #define GOOGLE_PROTOBUF_ARENASTRING_H__

 #include <algorithm>
 #include <string>
 #include <type_traits>
 #include <utility>

 #include <google/protobuf/stubs/logging.h>
 #include <google/protobuf/stubs/common.h>
 #include <google/protobuf/arena.h>
 #include <google/protobuf/port.h>
 #include <google/protobuf/explicitly_constructed.h>

 // must be last:
 #include <google/protobuf/port_def.inc>

 #ifdef SWIG
 #error "You cannot SWIG proto headers"
 #endif


 namespace google {
 namespace protobuf {
 namespace internal {
 class EpsCopyInputStream;

 class SwapFieldHelper;

 // Declared in message_lite.h
 PROTOBUF_EXPORT extern ExplicitlyConstructedArenaString
     fixed_address_empty_string;

 // Lazy string instance to support string fields with non-empty default.
 // These are initialized on the first call to .get().
 class PROTOBUF_EXPORT LazyString {
  public:
   // We explicitly make LazyString an aggregate so that MSVC can do constant
   // initialization on it without marking it `constexpr`.
   // We do not want to use `constexpr` because it makes it harder to have extern
   // storage for it and causes library bloat.
   struct InitValue {
     const char* ptr;
     size_t size;
   };
   // We keep a union of the initialization value and the std::string to save on
   // space. We don't need the string array after Init() is done.
   union {
     mutable InitValue init_value_;
     alignas(std::string) mutable char string_buf_[sizeof(std::string)];
   };
   mutable std::atomic<const std::string*> inited_;

   const std::string& get() const {
     // This check generates less code than a call-once invocation.
     auto* res = inited_.load(std::memory_order_acquire);
     if (PROTOBUF_PREDICT_FALSE(res == nullptr)) return Init();
     return *res;
   }

  private:
   // Initialize the string in `string_buf_`, update `inited_` and return it.
   // We return it here to avoid having to read it again in the inlined code.
   const std::string& Init() const;
 };

 class TaggedStringPtr {
  public:
   // Bit flags qualifying string properties. We can use 2 bits as
   // ptr_ is guaranteed and enforced to be aligned on 4 byte boundaries.
   enum Flags {
     kArenaBit = 0x1,      // ptr is arena allocated
     kMutableBit = 0x2,    // ptr contents are fully mutable
     kMask = 0x3           // Bit mask
   };

   // Composed logical types
   enum Type {
     // Default strings are immutable and never owned.
     kDefault = 0,

     // Allocated strings are mutable and (as the name implies) owned.
     // A heap allocated string must be deleted.
     kAllocated = kMutableBit,

     // Mutable arena strings are strings where the string instance is owned
     // by the arena, but the string contents itself are owned by the string
     // instance. Mutable arena string instances need to be destroyed which is
     // typically done through a cleanup action added to the arena owning it.
     kMutableArena = kArenaBit | kMutableBit,

     // Fixed size arena strings are strings where both the string instance and
     // the string contents are fully owned by the arena. Fixed size arena
     // strings are a platform and c++ library specific customization. Fixed
     // size arena strings are immutable, with the exception of custom internal
     // updates to the content that fit inside the existing capacity.
     // Fixed size arena strings must never be deleted or destroyed.
     kFixedSizeArena = kArenaBit,
   };

   TaggedStringPtr() = default;
   explicit constexpr TaggedStringPtr(ExplicitlyConstructedArenaString* ptr)
       : ptr_(ptr) {}

   // Sets the value to `p`, tagging the value as being a 'default' value.
   // See documentation for kDefault for more info.
   inline const std::string* SetDefault(const std::string* p) {
     return TagAs(kDefault, const_cast<std::string*>(p));
   }

   // Sets the value to `p`, tagging the value as a heap allocated value.
   // Allocated strings are mutable and (as the name implies) owned.
   // `p` must not be null
   inline std::string* SetAllocated(std::string* p) {
     return TagAs(kAllocated, p);
   }

   // Sets the value to `p`, tagging the value as a fixed size arena string.
   // See documentation for kFixedSizeArena for more info.
   // `p` must not be null
   inline std::string* SetFixedSizeArena(std::string* p) {
     return TagAs(kFixedSizeArena, p);
   }

   // Sets the value to `p`, tagging the value as a mutable arena string.
   // See documentation for kMutableArena for more info.
   // `p` must not be null
   inline std::string* SetMutableArena(std::string* p) {
     return TagAs(kMutableArena, p);
   }

   // Returns true if the contents of the current string are fully mutable.
   inline bool IsMutable() const { return as_int() & kMutableBit; }

   // Returns true if the current string is an immutable default value.
   inline bool IsDefault() const { return (as_int() & kMask) == kDefault; }

   // If the current string is a heap-allocated mutable value, returns a pointer
   // to it.  Returns nullptr otherwise.
   inline std::string *GetIfAllocated() const {
     auto allocated = as_int() ^ kAllocated;
     if (allocated & kMask) return nullptr;

     auto ptr = reinterpret_cast<std::string*>(allocated);
     PROTOBUF_ASSUME(ptr != nullptr);
     return ptr;
   }

   // Returns true if the current string is an arena allocated value.
   // This means it's either a mutable or fixed size arena string.
   inline bool IsArena() const { return as_int() & kArenaBit; }

   // Returns true if the current string is a fixed size arena allocated value.
   inline bool IsFixedSizeArena() const {
     return (as_int() & kMask) == kFixedSizeArena;
   }

   // Returns the contained string pointer.
   inline std::string* Get() const {
     return reinterpret_cast<std::string*>(as_int() & ~kMask);
   }

   // Returns true if the contained pointer is null, indicating some error.
   // The Null value is only used during parsing for temporary values.
   // A persisted ArenaStringPtr value is never null.
   inline bool IsNull() { return ptr_ == nullptr; }

  private:
   static inline void assert_aligned(const void* p) {
     GOOGLE_DCHECK_EQ(reinterpret_cast<uintptr_t>(p) & kMask, 0UL);
   }

   inline std::string* TagAs(Type type, std::string* p) {
     GOOGLE_DCHECK(p != nullptr);
     assert_aligned(p);
     ptr_ = reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(p) | type);
     return p;
   }

   uintptr_t as_int() const { return reinterpret_cast<uintptr_t>(ptr_); }
   void* ptr_;
 };

 static_assert(std::is_trivial<TaggedStringPtr>::value,
               "TaggedStringPtr must be trivial");

 // This class encapsulates a pointer to a std::string with or without arena
 // owned contents, tagged by the bottom bits of the string pointer. It is a
 // high-level wrapper that almost directly corresponds to the interface required
 // by string fields in generated code. It replaces the old std::string* pointer
 // in such cases.
 //
 // The string pointer is tagged to be either a default, externally owned value,
 // a mutable heap allocated value, or an arena allocated value. The object uses
 // a single global instance of an empty string that is used as the initial
 // default value. Fields that have empty default values directly use this global
 // default. Fields that have non empty default values are supported through
 // lazily initialized default values managed by the LazyString class.
 //
 // Generated code and reflection code both ensure that ptr_ is never null.
 // Because ArenaStringPtr is used in oneof unions, its constructor is a NOP and
 // the field is always manually initialized via method calls.
 //
 // See TaggedStringPtr for more information about the types of string values
 // being held, and the mutable and ownership invariants for each type.
 struct PROTOBUF_EXPORT ArenaStringPtr {
   ArenaStringPtr() = default;
   constexpr ArenaStringPtr(ExplicitlyConstructedArenaString* default_value,
                            ConstantInitialized)
       : tagged_ptr_(default_value) {}

   // Called from generated code / reflection runtime only. Resets value to point
   // to a default string pointer, with the semantics that this ArenaStringPtr
   // does not own the pointed-to memory. Disregards initial value of ptr_ (so
   // this is the *ONLY* safe method to call after construction or when
   // reinitializing after becoming the active field in a oneof union).
   inline void InitDefault();

   // Similar to `InitDefault` except that it allows the default value to be
   // initialized to an externally owned string. This method is called from
   // parsing code. `str` must not be null and outlive this instance.
   inline void InitExternal(const std::string* str);

   // Called from generated code / reflection runtime only. Resets the value of
   // this instances to the heap allocated value in `str`. `str` must not be
   // null. Invokes `arena->Own(str)` to transfer ownership into the arena if
   // `arena` is not null, else, `str` will be owned by ArenaStringPtr. This
   // function should only be used to initialize a ArenaStringPtr or on an
   // instance known to not carry any heap allocated value.
   inline void InitAllocated(std::string* str, Arena* arena);

   void Set(ConstStringParam value, Arena* arena);
   void Set(std::string&& value, Arena* arena);
   void Set(const char* s, Arena* arena);
   void Set(const char* s, size_t n, Arena* arena);

   void SetBytes(ConstStringParam value, Arena* arena);
   void SetBytes(std::string&& value, Arena* arena);
   void SetBytes(const char* s, Arena* arena);
   void SetBytes(const void* p, size_t n, Arena* arena);

   template <typename RefWrappedType>
   void Set(std::reference_wrapper<RefWrappedType> const_string_ref,
            ::google::protobuf::Arena* arena) {
     Set(const_string_ref.get(), arena);
   }

   // Returns a mutable std::string reference.
   // The version accepting a `LazyString` value is used in the generated code to
   // initialize mutable copies for fields with a non-empty default where the
   // default value is lazily initialized.
   std::string* Mutable(Arena* arena);
   std::string* Mutable(const LazyString& default_value, Arena* arena);

   // Gets a mutable pointer with unspecified contents.
   // This function is identical to Mutable(), except it is optimized for the
   // case where the caller is not interested in the current contents. For
   // example, if the current field is not mutable, it will re-initialize the
   // value with an empty string rather than a (non-empty) default value.
   // Likewise, if the current value is a fixed size arena string with contents,
   // it will be initialized into an empty mutable arena string.
   std::string* MutableNoCopy(Arena* arena);

   // Basic accessors.
   PROTOBUF_NDEBUG_INLINE const std::string& Get() const {
     // Unconditionally mask away the tag.
     return *tagged_ptr_.Get();
   }

   // Returns a pointer to the stored contents for this instance.
   // This method is for internal debugging and tracking purposes only.
   PROTOBUF_NDEBUG_INLINE const std::string* UnsafeGetPointer() const
       PROTOBUF_RETURNS_NONNULL {
     return tagged_ptr_.Get();
   }

   // Release returns a std::string* instance that is heap-allocated and is not
   // Own()'d by any arena. If the field is not set, this returns nullptr. The
   // caller retains ownership. Clears this field back to the default state.
   // Used to implement release_<field>() methods on generated classes.
   PROTOBUF_NODISCARD std::string* Release();

   // Takes a std::string that is heap-allocated, and takes ownership. The
   // std::string's destructor is registered with the arena. Used to implement
   // set_allocated_<field> in generated classes.
   void SetAllocated(std::string* value, Arena* arena);

   // Frees storage (if not on an arena).
   void Destroy();

   // Clears content, but keeps allocated std::string, to avoid the overhead of
   // heap operations. After this returns, the content (as seen by the user) will
   // always be the empty std::string. Assumes that |default_value| is an empty
   // std::string.
   void ClearToEmpty();

   // Clears content, assuming that the current value is not the empty
   // string default.
   void ClearNonDefaultToEmpty();

   // Clears content, but keeps allocated std::string if arena != nullptr, to
   // avoid the overhead of heap operations. After this returns, the content
   // (as seen by the user) will always be equal to |default_value|.
   void ClearToDefault(const LazyString& default_value, ::google::protobuf::Arena* arena);

   // Swaps internal pointers. Arena-safety semantics: this is guarded by the
   // logic in Swap()/UnsafeArenaSwap() at the message level, so this method is
   // 'unsafe' if called directly.
   inline PROTOBUF_NDEBUG_INLINE static void InternalSwap(ArenaStringPtr* rhs,
                                                          Arena* rhs_arena,
                                                          ArenaStringPtr* lhs,
                                                          Arena* lhs_arena);

   // Internal setter used only at parse time to directly set a donated string
   // value.
   void UnsafeSetTaggedPointer(TaggedStringPtr value) { tagged_ptr_ = value; }
   // Generated code only! An optimization, in certain cases the generated
   // code is certain we can obtain a std::string with no default checks and
   // tag tests.
   std::string* UnsafeMutablePointer() PROTOBUF_RETURNS_NONNULL;

   // Returns true if this instances holds an immutable default value.
   inline bool IsDefault() const { return tagged_ptr_.IsDefault(); }

  private:
   template <typename... Args>
   inline std::string* NewString(Arena* arena, Args&&... args) {
     if (arena == nullptr) {
       auto* s = new std::string(std::forward<Args>(args)...);
       return tagged_ptr_.SetAllocated(s);
     } else {
       auto* s = Arena::Create<std::string>(arena, std::forward<Args>(args)...);
       return tagged_ptr_.SetMutableArena(s);
     }
   }

   TaggedStringPtr tagged_ptr_;

   bool IsFixedSizeArena() const { return false; }

   // Swaps tagged pointer without debug hardening. This is to allow python
   // protobuf to maintain pointer stability even in DEBUG builds.
   inline PROTOBUF_NDEBUG_INLINE static void UnsafeShallowSwap(
       ArenaStringPtr* rhs, ArenaStringPtr* lhs) {
     std::swap(lhs->tagged_ptr_, rhs->tagged_ptr_);
   }

   friend class ::google::protobuf::internal::SwapFieldHelper;
   friend class TcParser;

   // Slow paths.

   // MutableSlow requires that !IsString() || IsDefault
   // Variadic to support 0 args for empty default and 1 arg for LazyString.
   template <typename... Lazy>
   std::string* MutableSlow(::google::protobuf::Arena* arena, const Lazy&... lazy_default);

   friend class EpsCopyInputStream;
 };

 inline void ArenaStringPtr::InitDefault() {
   tagged_ptr_ = TaggedStringPtr(&fixed_address_empty_string);
 }

 inline void ArenaStringPtr::InitExternal(const std::string* str) {
   tagged_ptr_.SetDefault(str);
 }

 inline void ArenaStringPtr::InitAllocated(std::string* str, Arena* arena) {
   if (arena != nullptr) {
     tagged_ptr_.SetMutableArena(str);
     arena->Own(str);
   } else {
     tagged_ptr_.SetAllocated(str);
   }
 }

 inline void ArenaStringPtr::Set(const char* s, Arena* arena) {
   Set(ConstStringParam{s}, arena);
 }

 inline void ArenaStringPtr::Set(const char* s, size_t n, Arena* arena) {
   Set(ConstStringParam{s, n}, arena);
 }

 inline void ArenaStringPtr::SetBytes(ConstStringParam value, Arena* arena) {
   Set(value, arena);
 }

 inline void ArenaStringPtr::SetBytes(std::string&& value, Arena* arena) {
   Set(std::move(value), arena);
 }

 inline void ArenaStringPtr::SetBytes(const char* s, Arena* arena) {
   Set(s, arena);
 }

 inline void ArenaStringPtr::SetBytes(const void* p, size_t n, Arena* arena) {
   Set(ConstStringParam{static_cast<const char*>(p), n}, arena);
 }

 // Make sure rhs_arena allocated rhs, and lhs_arena allocated lhs.
 inline PROTOBUF_NDEBUG_INLINE void ArenaStringPtr::InternalSwap(  //
     ArenaStringPtr* rhs, Arena* rhs_arena,                        //
     ArenaStringPtr* lhs, Arena* lhs_arena) {
   // Silence unused variable warnings in release buildls.
   (void)rhs_arena;
   (void)lhs_arena;
   std::swap(lhs->tagged_ptr_, rhs->tagged_ptr_);
 #ifdef PROTOBUF_FORCE_COPY_IN_SWAP
   auto force_realloc = [](ArenaStringPtr* p, Arena* arena) {
     if (p->IsDefault()) return;
     std::string* old_value = p->tagged_ptr_.Get();
     std::string* new_value =
         p->IsFixedSizeArena()
             ? Arena::Create<std::string>(arena, *old_value)
             : Arena::Create<std::string>(arena, std::move(*old_value));
     if (arena == nullptr) {
       delete old_value;
       p->tagged_ptr_.SetAllocated(new_value);
     } else {
       p->tagged_ptr_.SetMutableArena(new_value);
     }
   };
   // Because, at this point, tagged_ptr_ has been swapped, arena should also be
   // swapped.
   force_realloc(lhs, rhs_arena);
   force_realloc(rhs, lhs_arena);
 #endif  // PROTOBUF_FORCE_COPY_IN_SWAP
 }

 inline void ArenaStringPtr::ClearNonDefaultToEmpty() {
   // Unconditionally mask away the tag.
   tagged_ptr_.Get()->clear();
 }

 inline std::string* ArenaStringPtr::UnsafeMutablePointer() {
   GOOGLE_DCHECK(tagged_ptr_.IsMutable());
   GOOGLE_DCHECK(tagged_ptr_.Get() != nullptr);
   return tagged_ptr_.Get();
 }


 }  // namespace internal
 }  // namespace protobuf
 }  // namespace google

 #include <google/protobuf/port_undef.inc>

 #endif  // GOOGLE_PROTOBUF_ARENASTRING_H__
	// Protocol Buffers - Google's data interchange format
	// Copyright 2008 Google Inc. All rights reserved.
	// https://developers.google.com/protocol-buffers/
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following disclaimer
	// in the documentation and/or other materials provided with the
	// distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived from
	// this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	#ifndef GOOGLE_PROTOBUF_ARENASTRING_H__
	#define GOOGLE_PROTOBUF_ARENASTRING_H__

	#include <algorithm>
	#include <string>
	#include <type_traits>
	#include <utility>

	#include <google/protobuf/stubs/logging.h>
	#include <google/protobuf/stubs/common.h>
	#include <google/protobuf/arena.h>
	#include <google/protobuf/port.h>
	#include <google/protobuf/explicitly_constructed.h>

	// must be last:
	#include <google/protobuf/port_def.inc>

	#ifdef SWIG
	#error "You cannot SWIG proto headers"
	#endif


	namespace google {
	namespace protobuf {
	namespace internal {
	class EpsCopyInputStream;

	class SwapFieldHelper;

	// Declared in message_lite.h
	PROTOBUF_EXPORT extern ExplicitlyConstructedArenaString
	fixed_address_empty_string;

	// Lazy string instance to support string fields with non-empty default.
	// These are initialized on the first call to .get().
	class PROTOBUF_EXPORT LazyString {
	public:
	// We explicitly make LazyString an aggregate so that MSVC can do constant
	// initialization on it without marking it `constexpr`.
	// We do not want to use `constexpr` because it makes it harder to have extern
	// storage for it and causes library bloat.
	struct InitValue {
	const char* ptr;
	size_t size;
	};
	// We keep a union of the initialization value and the std::string to save on
	// space. We don't need the string array after Init() is done.
	union {
	mutable InitValue init_value_;
	alignas(std::string) mutable char string_buf_[sizeof(std::string)];
	};
	mutable std::atomic<const std::string*> inited_;

	const std::string& get() const {
	// This check generates less code than a call-once invocation.
	auto* res = inited_.load(std::memory_order_acquire);
	if (PROTOBUF_PREDICT_FALSE(res == nullptr)) return Init();
	return *res;
	}

	private:
	// Initialize the string in `string_buf_`, update `inited_` and return it.
	// We return it here to avoid having to read it again in the inlined code.
	const std::string& Init() const;
	};

	class TaggedStringPtr {
	public:
	// Bit flags qualifying string properties. We can use 2 bits as
	// ptr_ is guaranteed and enforced to be aligned on 4 byte boundaries.
	enum Flags {
	kArenaBit = 0x1, // ptr is arena allocated
	kMutableBit = 0x2, // ptr contents are fully mutable
	kMask = 0x3 // Bit mask
	};

	// Composed logical types
	enum Type {
	// Default strings are immutable and never owned.
	kDefault = 0,

	// Allocated strings are mutable and (as the name implies) owned.
	// A heap allocated string must be deleted.
	kAllocated = kMutableBit,

	// Mutable arena strings are strings where the string instance is owned
	// by the arena, but the string contents itself are owned by the string
	// instance. Mutable arena string instances need to be destroyed which is
	// typically done through a cleanup action added to the arena owning it.
	kMutableArena = kArenaBit \| kMutableBit,

	// Fixed size arena strings are strings where both the string instance and
	// the string contents are fully owned by the arena. Fixed size arena
	// strings are a platform and c++ library specific customization. Fixed
	// size arena strings are immutable, with the exception of custom internal
	// updates to the content that fit inside the existing capacity.
	// Fixed size arena strings must never be deleted or destroyed.
	kFixedSizeArena = kArenaBit,
	};

	TaggedStringPtr() = default;
	explicit constexpr TaggedStringPtr(ExplicitlyConstructedArenaString* ptr)
	: ptr_(ptr) {}

	// Sets the value to `p`, tagging the value as being a 'default' value.
	// See documentation for kDefault for more info.
	inline const std::string* SetDefault(const std::string* p) {
	return TagAs(kDefault, const_cast<std::string*>(p));
	}

	// Sets the value to `p`, tagging the value as a heap allocated value.
	// Allocated strings are mutable and (as the name implies) owned.
	// `p` must not be null
	inline std::string* SetAllocated(std::string* p) {
	return TagAs(kAllocated, p);
	}

	// Sets the value to `p`, tagging the value as a fixed size arena string.
	// See documentation for kFixedSizeArena for more info.
	// `p` must not be null
	inline std::string* SetFixedSizeArena(std::string* p) {
	return TagAs(kFixedSizeArena, p);
	}

	// Sets the value to `p`, tagging the value as a mutable arena string.
	// See documentation for kMutableArena for more info.
	// `p` must not be null
	inline std::string* SetMutableArena(std::string* p) {
	return TagAs(kMutableArena, p);
	}

	// Returns true if the contents of the current string are fully mutable.
	inline bool IsMutable() const { return as_int() & kMutableBit; }

	// Returns true if the current string is an immutable default value.
	inline bool IsDefault() const { return (as_int() & kMask) == kDefault; }

	// If the current string is a heap-allocated mutable value, returns a pointer
	// to it. Returns nullptr otherwise.
	inline std::string *GetIfAllocated() const {
	auto allocated = as_int() ^ kAllocated;
	if (allocated & kMask) return nullptr;

	auto ptr = reinterpret_cast<std::string*>(allocated);
	PROTOBUF_ASSUME(ptr != nullptr);
	return ptr;
	}

	// Returns true if the current string is an arena allocated value.
	// This means it's either a mutable or fixed size arena string.
	inline bool IsArena() const { return as_int() & kArenaBit; }

	// Returns true if the current string is a fixed size arena allocated value.
	inline bool IsFixedSizeArena() const {
	return (as_int() & kMask) == kFixedSizeArena;
	}

	// Returns the contained string pointer.
	inline std::string* Get() const {
	return reinterpret_cast<std::string*>(as_int() & ~kMask);
	}

	// Returns true if the contained pointer is null, indicating some error.
	// The Null value is only used during parsing for temporary values.
	// A persisted ArenaStringPtr value is never null.
	inline bool IsNull() { return ptr_ == nullptr; }

	private:
	static inline void assert_aligned(const void* p) {
	GOOGLE_DCHECK_EQ(reinterpret_cast<uintptr_t>(p) & kMask, 0UL);
	}

	inline std::string* TagAs(Type type, std::string* p) {
	GOOGLE_DCHECK(p != nullptr);
	assert_aligned(p);
	ptr_ = reinterpret_cast<void*>(reinterpret_cast<uintptr_t>(p) \| type);
	return p;
	}

	uintptr_t as_int() const { return reinterpret_cast<uintptr_t>(ptr_); }
	void* ptr_;
	};

	static_assert(std::is_trivial<TaggedStringPtr>::value,
	"TaggedStringPtr must be trivial");

	// This class encapsulates a pointer to a std::string with or without arena
	// owned contents, tagged by the bottom bits of the string pointer. It is a
	// high-level wrapper that almost directly corresponds to the interface required
	// by string fields in generated code. It replaces the old std::string* pointer
	// in such cases.
	//
	// The string pointer is tagged to be either a default, externally owned value,
	// a mutable heap allocated value, or an arena allocated value. The object uses
	// a single global instance of an empty string that is used as the initial
	// default value. Fields that have empty default values directly use this global
	// default. Fields that have non empty default values are supported through
	// lazily initialized default values managed by the LazyString class.
	//
	// Generated code and reflection code both ensure that ptr_ is never null.
	// Because ArenaStringPtr is used in oneof unions, its constructor is a NOP and
	// the field is always manually initialized via method calls.
	//
	// See TaggedStringPtr for more information about the types of string values
	// being held, and the mutable and ownership invariants for each type.
	struct PROTOBUF_EXPORT ArenaStringPtr {
	ArenaStringPtr() = default;
	constexpr ArenaStringPtr(ExplicitlyConstructedArenaString* default_value,
	ConstantInitialized)
	: tagged_ptr_(default_value) {}

	// Called from generated code / reflection runtime only. Resets value to point
	// to a default string pointer, with the semantics that this ArenaStringPtr
	// does not own the pointed-to memory. Disregards initial value of ptr_ (so
	// this is the ONLY safe method to call after construction or when
	// reinitializing after becoming the active field in a oneof union).
	inline void InitDefault();

	// Similar to `InitDefault` except that it allows the default value to be
	// initialized to an externally owned string. This method is called from
	// parsing code. `str` must not be null and outlive this instance.
	inline void InitExternal(const std::string* str);

	// Called from generated code / reflection runtime only. Resets the value of
	// this instances to the heap allocated value in `str`. `str` must not be
	// null. Invokes `arena->Own(str)` to transfer ownership into the arena if
	// `arena` is not null, else, `str` will be owned by ArenaStringPtr. This
	// function should only be used to initialize a ArenaStringPtr or on an
	// instance known to not carry any heap allocated value.
	inline void InitAllocated(std::string* str, Arena* arena);

	void Set(ConstStringParam value, Arena* arena);
	void Set(std::string&& value, Arena* arena);
	void Set(const char* s, Arena* arena);
	void Set(const char* s, size_t n, Arena* arena);

	void SetBytes(ConstStringParam value, Arena* arena);
	void SetBytes(std::string&& value, Arena* arena);
	void SetBytes(const char* s, Arena* arena);
	void SetBytes(const void* p, size_t n, Arena* arena);

	template <typename RefWrappedType>
	void Set(std::reference_wrapper<RefWrappedType> const_string_ref,
	::google::protobuf::Arena* arena) {
	Set(const_string_ref.get(), arena);
	}

	// Returns a mutable std::string reference.
	// The version accepting a `LazyString` value is used in the generated code to
	// initialize mutable copies for fields with a non-empty default where the
	// default value is lazily initialized.
	std::string* Mutable(Arena* arena);
	std::string* Mutable(const LazyString& default_value, Arena* arena);

	// Gets a mutable pointer with unspecified contents.
	// This function is identical to Mutable(), except it is optimized for the
	// case where the caller is not interested in the current contents. For
	// example, if the current field is not mutable, it will re-initialize the
	// value with an empty string rather than a (non-empty) default value.
	// Likewise, if the current value is a fixed size arena string with contents,
	// it will be initialized into an empty mutable arena string.
	std::string* MutableNoCopy(Arena* arena);

	// Basic accessors.
	PROTOBUF_NDEBUG_INLINE const std::string& Get() const {
	// Unconditionally mask away the tag.
	return *tagged_ptr_.Get();
	}

	// Returns a pointer to the stored contents for this instance.
	// This method is for internal debugging and tracking purposes only.
	PROTOBUF_NDEBUG_INLINE const std::string* UnsafeGetPointer() const
	PROTOBUF_RETURNS_NONNULL {
	return tagged_ptr_.Get();
	}

	// Release returns a std::string* instance that is heap-allocated and is not
	// Own()'d by any arena. If the field is not set, this returns nullptr. The
	// caller retains ownership. Clears this field back to the default state.
	// Used to implement release_<field>() methods on generated classes.
	PROTOBUF_NODISCARD std::string* Release();

	// Takes a std::string that is heap-allocated, and takes ownership. The
	// std::string's destructor is registered with the arena. Used to implement
	// set_allocated_<field> in generated classes.
	void SetAllocated(std::string* value, Arena* arena);

	// Frees storage (if not on an arena).
	void Destroy();

	// Clears content, but keeps allocated std::string, to avoid the overhead of
	// heap operations. After this returns, the content (as seen by the user) will
	// always be the empty std::string. Assumes that \|default_value\| is an empty
	// std::string.
	void ClearToEmpty();

	// Clears content, assuming that the current value is not the empty
	// string default.
	void ClearNonDefaultToEmpty();

	// Clears content, but keeps allocated std::string if arena != nullptr, to
	// avoid the overhead of heap operations. After this returns, the content
	// (as seen by the user) will always be equal to \|default_value\|.
	void ClearToDefault(const LazyString& default_value, ::google::protobuf::Arena* arena);

	// Swaps internal pointers. Arena-safety semantics: this is guarded by the
	// logic in Swap()/UnsafeArenaSwap() at the message level, so this method is
	// 'unsafe' if called directly.
	inline PROTOBUF_NDEBUG_INLINE static void InternalSwap(ArenaStringPtr* rhs,
	Arena* rhs_arena,
	ArenaStringPtr* lhs,
	Arena* lhs_arena);

	// Internal setter used only at parse time to directly set a donated string
	// value.
	void UnsafeSetTaggedPointer(TaggedStringPtr value) { tagged_ptr_ = value; }
	// Generated code only! An optimization, in certain cases the generated
	// code is certain we can obtain a std::string with no default checks and
	// tag tests.
	std::string* UnsafeMutablePointer() PROTOBUF_RETURNS_NONNULL;

	// Returns true if this instances holds an immutable default value.
	inline bool IsDefault() const { return tagged_ptr_.IsDefault(); }

	private:
	template <typename... Args>
	inline std::string* NewString(Arena* arena, Args&&... args) {
	if (arena == nullptr) {
	auto* s = new std::string(std::forward<Args>(args)...);
	return tagged_ptr_.SetAllocated(s);
	} else {
	auto* s = Arena::Create<std::string>(arena, std::forward<Args>(args)...);
	return tagged_ptr_.SetMutableArena(s);
	}
	}

	TaggedStringPtr tagged_ptr_;

	bool IsFixedSizeArena() const { return false; }

	// Swaps tagged pointer without debug hardening. This is to allow python
	// protobuf to maintain pointer stability even in DEBUG builds.
	inline PROTOBUF_NDEBUG_INLINE static void UnsafeShallowSwap(
	ArenaStringPtr* rhs, ArenaStringPtr* lhs) {
	std::swap(lhs->tagged_ptr_, rhs->tagged_ptr_);
	}

	friend class ::google::protobuf::internal::SwapFieldHelper;
	friend class TcParser;

	// Slow paths.

	// MutableSlow requires that !IsString() \|\| IsDefault
	// Variadic to support 0 args for empty default and 1 arg for LazyString.
	template <typename... Lazy>
	std::string* MutableSlow(::google::protobuf::Arena* arena, const Lazy&... lazy_default);

	friend class EpsCopyInputStream;
	};

	inline void ArenaStringPtr::InitDefault() {
	tagged_ptr_ = TaggedStringPtr(&fixed_address_empty_string);
	}

	inline void ArenaStringPtr::InitExternal(const std::string* str) {
	tagged_ptr_.SetDefault(str);
	}

	inline void ArenaStringPtr::InitAllocated(std::string* str, Arena* arena) {
	if (arena != nullptr) {
	tagged_ptr_.SetMutableArena(str);
	arena->Own(str);
	} else {
	tagged_ptr_.SetAllocated(str);
	}
	}

	inline void ArenaStringPtr::Set(const char* s, Arena* arena) {
	Set(ConstStringParam{s}, arena);
	}

	inline void ArenaStringPtr::Set(const char* s, size_t n, Arena* arena) {
	Set(ConstStringParam{s, n}, arena);
	}

	inline void ArenaStringPtr::SetBytes(ConstStringParam value, Arena* arena) {
	Set(value, arena);
	}

	inline void ArenaStringPtr::SetBytes(std::string&& value, Arena* arena) {
	Set(std::move(value), arena);
	}

	inline void ArenaStringPtr::SetBytes(const char* s, Arena* arena) {
	Set(s, arena);
	}

	inline void ArenaStringPtr::SetBytes(const void* p, size_t n, Arena* arena) {
	Set(ConstStringParam{static_cast<const char*>(p), n}, arena);
	}

	// Make sure rhs_arena allocated rhs, and lhs_arena allocated lhs.
	inline PROTOBUF_NDEBUG_INLINE void ArenaStringPtr::InternalSwap( //
	ArenaStringPtr* rhs, Arena* rhs_arena, //
	ArenaStringPtr* lhs, Arena* lhs_arena) {
	// Silence unused variable warnings in release buildls.
	(void)rhs_arena;
	(void)lhs_arena;
	std::swap(lhs->tagged_ptr_, rhs->tagged_ptr_);
	#ifdef PROTOBUF_FORCE_COPY_IN_SWAP
	auto force_realloc = [](ArenaStringPtr* p, Arena* arena) {
	if (p->IsDefault()) return;
	std::string* old_value = p->tagged_ptr_.Get();
	std::string* new_value =
	p->IsFixedSizeArena()
	? Arena::Create<std::string>(arena, *old_value)
	: Arena::Create<std::string>(arena, std::move(*old_value));
	if (arena == nullptr) {
	delete old_value;
	p->tagged_ptr_.SetAllocated(new_value);
	} else {
	p->tagged_ptr_.SetMutableArena(new_value);
	}
	};
	// Because, at this point, tagged_ptr_ has been swapped, arena should also be
	// swapped.
	force_realloc(lhs, rhs_arena);
	force_realloc(rhs, lhs_arena);
	#endif // PROTOBUF_FORCE_COPY_IN_SWAP
	}

	inline void ArenaStringPtr::ClearNonDefaultToEmpty() {
	// Unconditionally mask away the tag.
	tagged_ptr_.Get()->clear();
	}

	inline std::string* ArenaStringPtr::UnsafeMutablePointer() {
	GOOGLE_DCHECK(tagged_ptr_.IsMutable());
	GOOGLE_DCHECK(tagged_ptr_.Get() != nullptr);
	return tagged_ptr_.Get();
	}


	} // namespace internal
	} // namespace protobuf
	} // namespace google

	#include <google/protobuf/port_undef.inc>

	#endif // GOOGLE_PROTOBUF_ARENASTRING_H__