592 lines
25 KiB
C++
592 lines
25 KiB
C++
// Protocol Buffers - Google's data interchange format
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// Copyright 2008 Google Inc. All rights reserved.
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// https://developers.google.com/protocol-buffers/
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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//
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Google Inc. nor the names of its
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// contributors may be used to endorse or promote products derived from
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// this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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// Authors: wink@google.com (Wink Saville),
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// kenton@google.com (Kenton Varda)
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// Based on original Protocol Buffers design by
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// Sanjay Ghemawat, Jeff Dean, and others.
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//
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// Defines MessageLite, the abstract interface implemented by all (lite
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// and non-lite) protocol message objects.
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#ifndef GOOGLE_PROTOBUF_MESSAGE_LITE_H__
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#define GOOGLE_PROTOBUF_MESSAGE_LITE_H__
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#include <climits>
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#include <string>
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#include <google/protobuf/stubs/common.h>
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#include <google/protobuf/stubs/logging.h>
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#include <google/protobuf/io/coded_stream.h>
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#include <google/protobuf/arena.h>
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#include <google/protobuf/stubs/once.h>
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#include <google/protobuf/port.h>
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#include <google/protobuf/stubs/strutil.h>
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#include <google/protobuf/explicitly_constructed.h>
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#include <google/protobuf/metadata_lite.h>
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#include <google/protobuf/stubs/hash.h> // TODO(b/211442718): cleanup
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// clang-format off
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#include <google/protobuf/port_def.inc>
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// clang-format on
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#ifdef SWIG
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#error "You cannot SWIG proto headers"
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#endif
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namespace google {
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namespace protobuf {
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template <typename T>
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class RepeatedPtrField;
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class FastReflectionMessageMutator;
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class FastReflectionStringSetter;
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class Reflection;
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namespace io {
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class CodedInputStream;
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class CodedOutputStream;
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class ZeroCopyInputStream;
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class ZeroCopyOutputStream;
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} // namespace io
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namespace internal {
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class SwapFieldHelper;
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// See parse_context.h for explanation
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class ParseContext;
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class ExtensionSet;
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class LazyField;
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class RepeatedPtrFieldBase;
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class TcParser;
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class WireFormatLite;
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class WeakFieldMap;
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template <typename Type>
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class GenericTypeHandler; // defined in repeated_field.h
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// We compute sizes as size_t but cache them as int. This function converts a
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// computed size to a cached size. Since we don't proceed with serialization
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// if the total size was > INT_MAX, it is not important what this function
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// returns for inputs > INT_MAX. However this case should not error or
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// GOOGLE_CHECK-fail, because the full size_t resolution is still returned from
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// ByteSizeLong() and checked against INT_MAX; we can catch the overflow
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// there.
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inline int ToCachedSize(size_t size) { return static_cast<int>(size); }
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// We mainly calculate sizes in terms of size_t, but some functions that
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// compute sizes return "int". These int sizes are expected to always be
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// positive. This function is more efficient than casting an int to size_t
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// directly on 64-bit platforms because it avoids making the compiler emit a
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// sign extending instruction, which we don't want and don't want to pay for.
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inline size_t FromIntSize(int size) {
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// Convert to unsigned before widening so sign extension is not necessary.
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return static_cast<unsigned int>(size);
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}
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// For cases where a legacy function returns an integer size. We GOOGLE_DCHECK()
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// that the conversion will fit within an integer; if this is false then we
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// are losing information.
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inline int ToIntSize(size_t size) {
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GOOGLE_DCHECK_LE(size, static_cast<size_t>(INT_MAX));
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return static_cast<int>(size);
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}
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// Default empty string object. Don't use this directly. Instead, call
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// GetEmptyString() to get the reference. This empty string is aligned with a
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// minimum alignment of 8 bytes to match the requirement of ArenaStringPtr.
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PROTOBUF_EXPORT extern ExplicitlyConstructedArenaString
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fixed_address_empty_string;
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PROTOBUF_EXPORT constexpr const std::string& GetEmptyStringAlreadyInited() {
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return fixed_address_empty_string.get();
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}
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PROTOBUF_EXPORT size_t StringSpaceUsedExcludingSelfLong(const std::string& str);
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} // namespace internal
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// Interface to light weight protocol messages.
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//
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// This interface is implemented by all protocol message objects. Non-lite
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// messages additionally implement the Message interface, which is a
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// subclass of MessageLite. Use MessageLite instead when you only need
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// the subset of features which it supports -- namely, nothing that uses
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// descriptors or reflection. You can instruct the protocol compiler
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// to generate classes which implement only MessageLite, not the full
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// Message interface, by adding the following line to the .proto file:
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//
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// option optimize_for = LITE_RUNTIME;
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//
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// This is particularly useful on resource-constrained systems where
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// the full protocol buffers runtime library is too big.
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//
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// Note that on non-constrained systems (e.g. servers) when you need
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// to link in lots of protocol definitions, a better way to reduce
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// total code footprint is to use optimize_for = CODE_SIZE. This
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// will make the generated code smaller while still supporting all the
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// same features (at the expense of speed). optimize_for = LITE_RUNTIME
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// is best when you only have a small number of message types linked
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// into your binary, in which case the size of the protocol buffers
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// runtime itself is the biggest problem.
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//
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// Users must not derive from this class. Only the protocol compiler and
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// the internal library are allowed to create subclasses.
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class PROTOBUF_EXPORT MessageLite {
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public:
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constexpr MessageLite() {}
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virtual ~MessageLite() = default;
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// Basic Operations ------------------------------------------------
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// Get the name of this message type, e.g. "foo.bar.BazProto".
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virtual std::string GetTypeName() const = 0;
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// Construct a new instance of the same type. Ownership is passed to the
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// caller.
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MessageLite* New() const { return New(nullptr); }
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// Construct a new instance on the arena. Ownership is passed to the caller
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// if arena is a nullptr.
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virtual MessageLite* New(Arena* arena) const = 0;
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// Returns user-owned arena; nullptr if it's message owned.
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Arena* GetArena() const { return _internal_metadata_.user_arena(); }
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// Clear all fields of the message and set them to their default values.
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// Clear() assumes that any memory allocated to hold parts of the message
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// will likely be needed again, so the memory used may not be freed.
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// To ensure that all memory used by a Message is freed, you must delete it.
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virtual void Clear() = 0;
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// Quickly check if all required fields have values set.
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virtual bool IsInitialized() const = 0;
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// This is not implemented for Lite messages -- it just returns "(cannot
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// determine missing fields for lite message)". However, it is implemented
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// for full messages. See message.h.
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virtual std::string InitializationErrorString() const;
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// If |other| is the exact same class as this, calls MergeFrom(). Otherwise,
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// results are undefined (probably crash).
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virtual void CheckTypeAndMergeFrom(const MessageLite& other) = 0;
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// These methods return a human-readable summary of the message. Note that
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// since the MessageLite interface does not support reflection, there is very
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// little information that these methods can provide. They are shadowed by
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// methods of the same name on the Message interface which provide much more
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// information. The methods here are intended primarily to facilitate code
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// reuse for logic that needs to interoperate with both full and lite protos.
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//
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// The format of the returned string is subject to change, so please do not
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// assume it will remain stable over time.
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std::string DebugString() const;
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std::string ShortDebugString() const { return DebugString(); }
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// MessageLite::DebugString is already Utf8 Safe. This is to add compatibility
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// with Message.
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std::string Utf8DebugString() const { return DebugString(); }
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// Parsing ---------------------------------------------------------
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// Methods for parsing in protocol buffer format. Most of these are
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// just simple wrappers around MergeFromCodedStream(). Clear() will be
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// called before merging the input.
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// Fill the message with a protocol buffer parsed from the given input
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// stream. Returns false on a read error or if the input is in the wrong
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// format. A successful return does not indicate the entire input is
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// consumed, ensure you call ConsumedEntireMessage() to check that if
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// applicable.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromCodedStream(
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io::CodedInputStream* input);
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// Like ParseFromCodedStream(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromCodedStream(
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io::CodedInputStream* input);
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// Read a protocol buffer from the given zero-copy input stream. If
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// successful, the entire input will be consumed.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromZeroCopyStream(
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io::ZeroCopyInputStream* input);
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// Like ParseFromZeroCopyStream(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromZeroCopyStream(
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io::ZeroCopyInputStream* input);
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// Parse a protocol buffer from a file descriptor. If successful, the entire
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// input will be consumed.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromFileDescriptor(
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int file_descriptor);
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// Like ParseFromFileDescriptor(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromFileDescriptor(
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int file_descriptor);
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// Parse a protocol buffer from a C++ istream. If successful, the entire
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// input will be consumed.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromIstream(std::istream* input);
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// Like ParseFromIstream(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromIstream(
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std::istream* input);
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// Read a protocol buffer from the given zero-copy input stream, expecting
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// the message to be exactly "size" bytes long. If successful, exactly
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// this many bytes will have been consumed from the input.
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bool MergePartialFromBoundedZeroCopyStream(io::ZeroCopyInputStream* input,
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int size);
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// Like ParseFromBoundedZeroCopyStream(), but accepts messages that are
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// missing required fields.
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bool MergeFromBoundedZeroCopyStream(io::ZeroCopyInputStream* input, int size);
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromBoundedZeroCopyStream(
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io::ZeroCopyInputStream* input, int size);
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// Like ParseFromBoundedZeroCopyStream(), but accepts messages that are
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// missing required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromBoundedZeroCopyStream(
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io::ZeroCopyInputStream* input, int size);
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// Parses a protocol buffer contained in a string. Returns true on success.
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// This function takes a string in the (non-human-readable) binary wire
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// format, matching the encoding output by MessageLite::SerializeToString().
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// If you'd like to convert a human-readable string into a protocol buffer
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// object, see google::protobuf::TextFormat::ParseFromString().
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromString(ConstStringParam data);
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// Like ParseFromString(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromString(
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ConstStringParam data);
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// Parse a protocol buffer contained in an array of bytes.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParseFromArray(const void* data,
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int size);
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// Like ParseFromArray(), but accepts messages that are missing
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// required fields.
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PROTOBUF_ATTRIBUTE_REINITIALIZES bool ParsePartialFromArray(const void* data,
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int size);
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// Reads a protocol buffer from the stream and merges it into this
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// Message. Singular fields read from the what is
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// already in the Message and repeated fields are appended to those
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// already present.
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//
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// It is the responsibility of the caller to call input->LastTagWas()
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// (for groups) or input->ConsumedEntireMessage() (for non-groups) after
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// this returns to verify that the message's end was delimited correctly.
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//
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// ParseFromCodedStream() is implemented as Clear() followed by
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// MergeFromCodedStream().
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bool MergeFromCodedStream(io::CodedInputStream* input);
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// Like MergeFromCodedStream(), but succeeds even if required fields are
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// missing in the input.
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//
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// MergeFromCodedStream() is just implemented as MergePartialFromCodedStream()
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// followed by IsInitialized().
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bool MergePartialFromCodedStream(io::CodedInputStream* input);
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// Merge a protocol buffer contained in a string.
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bool MergeFromString(ConstStringParam data);
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// Serialization ---------------------------------------------------
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// Methods for serializing in protocol buffer format. Most of these
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// are just simple wrappers around ByteSize() and SerializeWithCachedSizes().
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// Write a protocol buffer of this message to the given output. Returns
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// false on a write error. If the message is missing required fields,
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// this may GOOGLE_CHECK-fail.
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bool SerializeToCodedStream(io::CodedOutputStream* output) const;
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// Like SerializeToCodedStream(), but allows missing required fields.
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bool SerializePartialToCodedStream(io::CodedOutputStream* output) const;
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// Write the message to the given zero-copy output stream. All required
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// fields must be set.
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bool SerializeToZeroCopyStream(io::ZeroCopyOutputStream* output) const;
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// Like SerializeToZeroCopyStream(), but allows missing required fields.
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bool SerializePartialToZeroCopyStream(io::ZeroCopyOutputStream* output) const;
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// Serialize the message and store it in the given string. All required
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// fields must be set.
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bool SerializeToString(std::string* output) const;
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// Like SerializeToString(), but allows missing required fields.
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bool SerializePartialToString(std::string* output) const;
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// Serialize the message and store it in the given byte array. All required
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// fields must be set.
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bool SerializeToArray(void* data, int size) const;
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// Like SerializeToArray(), but allows missing required fields.
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bool SerializePartialToArray(void* data, int size) const;
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// Make a string encoding the message. Is equivalent to calling
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// SerializeToString() on a string and using that. Returns the empty
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// string if SerializeToString() would have returned an error.
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// Note: If you intend to generate many such strings, you may
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// reduce heap fragmentation by instead re-using the same string
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// object with calls to SerializeToString().
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std::string SerializeAsString() const;
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// Like SerializeAsString(), but allows missing required fields.
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std::string SerializePartialAsString() const;
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// Serialize the message and write it to the given file descriptor. All
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// required fields must be set.
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bool SerializeToFileDescriptor(int file_descriptor) const;
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// Like SerializeToFileDescriptor(), but allows missing required fields.
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bool SerializePartialToFileDescriptor(int file_descriptor) const;
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// Serialize the message and write it to the given C++ ostream. All
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// required fields must be set.
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bool SerializeToOstream(std::ostream* output) const;
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// Like SerializeToOstream(), but allows missing required fields.
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bool SerializePartialToOstream(std::ostream* output) const;
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// Like SerializeToString(), but appends to the data to the string's
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// existing contents. All required fields must be set.
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bool AppendToString(std::string* output) const;
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// Like AppendToString(), but allows missing required fields.
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bool AppendPartialToString(std::string* output) const;
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// Computes the serialized size of the message. This recursively calls
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// ByteSizeLong() on all embedded messages.
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//
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// ByteSizeLong() is generally linear in the number of fields defined for the
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// proto.
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virtual size_t ByteSizeLong() const = 0;
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// Legacy ByteSize() API.
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PROTOBUF_DEPRECATED_MSG("Please use ByteSizeLong() instead")
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int ByteSize() const { return internal::ToIntSize(ByteSizeLong()); }
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// Serializes the message without recomputing the size. The message must not
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// have changed since the last call to ByteSize(), and the value returned by
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// ByteSize must be non-negative. Otherwise the results are undefined.
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void SerializeWithCachedSizes(io::CodedOutputStream* output) const {
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output->SetCur(_InternalSerialize(output->Cur(), output->EpsCopy()));
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}
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// Functions below here are not part of the public interface. It isn't
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// enforced, but they should be treated as private, and will be private
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// at some future time. Unfortunately the implementation of the "friend"
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// keyword in GCC is broken at the moment, but we expect it will be fixed.
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// Like SerializeWithCachedSizes, but writes directly to *target, returning
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// a pointer to the byte immediately after the last byte written. "target"
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// must point at a byte array of at least ByteSize() bytes. Whether to use
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// deterministic serialization, e.g., maps in sorted order, is determined by
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// CodedOutputStream::IsDefaultSerializationDeterministic().
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uint8_t* SerializeWithCachedSizesToArray(uint8_t* target) const;
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// Returns the result of the last call to ByteSize(). An embedded message's
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// size is needed both to serialize it (because embedded messages are
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// length-delimited) and to compute the outer message's size. Caching
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// the size avoids computing it multiple times.
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//
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// ByteSize() does not automatically use the cached size when available
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// because this would require invalidating it every time the message was
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// modified, which would be too hard and expensive. (E.g. if a deeply-nested
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// sub-message is changed, all of its parents' cached sizes would need to be
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// invalidated, which is too much work for an otherwise inlined setter
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// method.)
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virtual int GetCachedSize() const = 0;
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virtual const char* _InternalParse(const char* /*ptr*/,
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internal::ParseContext* /*ctx*/) {
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return nullptr;
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}
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virtual void OnDemandRegisterArenaDtor(Arena* /*arena*/) {}
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protected:
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template <typename T>
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static T* CreateMaybeMessage(Arena* arena) {
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return Arena::CreateMaybeMessage<T>(arena);
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}
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inline explicit MessageLite(Arena* arena, bool is_message_owned = false)
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: _internal_metadata_(arena, is_message_owned) {}
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// Returns the arena, if any, that directly owns this message and its internal
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// memory (Arena::Own is different in that the arena doesn't directly own the
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// internal memory). This method is used in proto's implementation for
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// swapping, moving and setting allocated, for deciding whether the ownership
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// of this message or its internal memory could be changed.
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Arena* GetOwningArena() const { return _internal_metadata_.owning_arena(); }
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// Returns the arena, used for allocating internal objects(e.g., child
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// messages, etc), or owning incoming objects (e.g., set allocated).
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Arena* GetArenaForAllocation() const { return _internal_metadata_.arena(); }
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// Returns true if this message is enabled for message-owned arena (MOA)
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// trials. No lite messages are eligible for MOA.
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static bool InMoaTrial() { return false; }
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internal::InternalMetadata _internal_metadata_;
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public:
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enum ParseFlags {
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kMerge = 0,
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kParse = 1,
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kMergePartial = 2,
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kParsePartial = 3,
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kMergeWithAliasing = 4,
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kParseWithAliasing = 5,
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kMergePartialWithAliasing = 6,
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kParsePartialWithAliasing = 7
|
|
};
|
|
|
|
template <ParseFlags flags, typename T>
|
|
bool ParseFrom(const T& input);
|
|
|
|
// Fast path when conditions match (ie. non-deterministic)
|
|
// uint8_t* _InternalSerialize(uint8_t* ptr) const;
|
|
virtual uint8_t* _InternalSerialize(
|
|
uint8_t* ptr, io::EpsCopyOutputStream* stream) const = 0;
|
|
|
|
// Identical to IsInitialized() except that it logs an error message.
|
|
bool IsInitializedWithErrors() const {
|
|
if (IsInitialized()) return true;
|
|
LogInitializationErrorMessage();
|
|
return false;
|
|
}
|
|
|
|
private:
|
|
friend class FastReflectionMessageMutator;
|
|
friend class FastReflectionStringSetter;
|
|
friend class Message;
|
|
friend class Reflection;
|
|
friend class internal::ExtensionSet;
|
|
friend class internal::LazyField;
|
|
friend class internal::SwapFieldHelper;
|
|
friend class internal::TcParser;
|
|
friend class internal::WeakFieldMap;
|
|
friend class internal::WireFormatLite;
|
|
|
|
template <typename Type>
|
|
friend class Arena::InternalHelper;
|
|
template <typename Type>
|
|
friend class internal::GenericTypeHandler;
|
|
|
|
void LogInitializationErrorMessage() const;
|
|
|
|
bool MergeFromImpl(io::CodedInputStream* input, ParseFlags parse_flags);
|
|
|
|
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MessageLite);
|
|
};
|
|
|
|
namespace internal {
|
|
|
|
template <bool alias>
|
|
bool MergeFromImpl(StringPiece input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<false>(StringPiece input,
|
|
MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<true>(StringPiece input,
|
|
MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
|
|
template <bool alias>
|
|
bool MergeFromImpl(io::ZeroCopyInputStream* input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<false>(io::ZeroCopyInputStream* input,
|
|
MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<true>(io::ZeroCopyInputStream* input,
|
|
MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
|
|
struct BoundedZCIS {
|
|
io::ZeroCopyInputStream* zcis;
|
|
int limit;
|
|
};
|
|
|
|
template <bool alias>
|
|
bool MergeFromImpl(BoundedZCIS input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<false>(BoundedZCIS input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
extern template bool MergeFromImpl<true>(BoundedZCIS input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags);
|
|
|
|
template <typename T>
|
|
struct SourceWrapper;
|
|
|
|
template <bool alias, typename T>
|
|
bool MergeFromImpl(const SourceWrapper<T>& input, MessageLite* msg,
|
|
MessageLite::ParseFlags parse_flags) {
|
|
return input.template MergeInto<alias>(msg, parse_flags);
|
|
}
|
|
|
|
} // namespace internal
|
|
|
|
template <MessageLite::ParseFlags flags, typename T>
|
|
bool MessageLite::ParseFrom(const T& input) {
|
|
if (flags & kParse) Clear();
|
|
constexpr bool alias = (flags & kMergeWithAliasing) != 0;
|
|
return internal::MergeFromImpl<alias>(input, this, flags);
|
|
}
|
|
|
|
// ===================================================================
|
|
// Shutdown support.
|
|
|
|
|
|
// Shut down the entire protocol buffers library, deleting all static-duration
|
|
// objects allocated by the library or by generated .pb.cc files.
|
|
//
|
|
// There are two reasons you might want to call this:
|
|
// * You use a draconian definition of "memory leak" in which you expect
|
|
// every single malloc() to have a corresponding free(), even for objects
|
|
// which live until program exit.
|
|
// * You are writing a dynamically-loaded library which needs to clean up
|
|
// after itself when the library is unloaded.
|
|
//
|
|
// It is safe to call this multiple times. However, it is not safe to use
|
|
// any other part of the protocol buffers library after
|
|
// ShutdownProtobufLibrary() has been called. Furthermore this call is not
|
|
// thread safe, user needs to synchronize multiple calls.
|
|
PROTOBUF_EXPORT void ShutdownProtobufLibrary();
|
|
|
|
namespace internal {
|
|
|
|
// Register a function to be called when ShutdownProtocolBuffers() is called.
|
|
PROTOBUF_EXPORT void OnShutdown(void (*func)());
|
|
// Run an arbitrary function on an arg
|
|
PROTOBUF_EXPORT void OnShutdownRun(void (*f)(const void*), const void* arg);
|
|
|
|
template <typename T>
|
|
T* OnShutdownDelete(T* p) {
|
|
OnShutdownRun([](const void* pp) { delete static_cast<const T*>(pp); }, p);
|
|
return p;
|
|
}
|
|
|
|
} // namespace internal
|
|
} // namespace protobuf
|
|
} // namespace google
|
|
|
|
#include <google/protobuf/port_undef.inc>
|
|
|
|
#endif // GOOGLE_PROTOBUF_MESSAGE_LITE_H__
|