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// 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.
// Author: kenton@google.com (Kenton Varda)
// Based on original Protocol Buffers design by
// Sanjay Ghemawat, Jeff Dean, and others.
//
// Contains classes used to keep track of unrecognized fields seen while
// parsing a protocol message.
#ifndef GOOGLE_PROTOBUF_UNKNOWN_FIELD_SET_H__
#define GOOGLE_PROTOBUF_UNKNOWN_FIELD_SET_H__
#include <assert.h>
#include <string>
#include <vector>
#include <stubs/common.h>
#include <stubs/logging.h>
#include <parse_context.h>
#include <io/coded_stream.h>
#include <io/zero_copy_stream_impl_lite.h>
#include <message_lite.h>
#include <port.h>
#include <port_def.inc>
#ifdef SWIG
#error "You cannot SWIG proto headers"
#endif
namespace google {
namespace protobuf {
namespace internal {
class InternalMetadata; // metadata_lite.h
class WireFormat; // wire_format.h
class MessageSetFieldSkipperUsingCord;
// extension_set_heavy.cc
} // namespace internal
class Message; // message.h
class UnknownField; // below
// An UnknownFieldSet contains fields that were encountered while parsing a
// message but were not defined by its type. Keeping track of these can be
// useful, especially in that they may be written if the message is serialized
// again without being cleared in between. This means that software which
// simply receives messages and forwards them to other servers does not need
// to be updated every time a new field is added to the message definition.
//
// To get the UnknownFieldSet attached to any message, call
// Reflection::GetUnknownFields().
//
// This class is necessarily tied to the protocol buffer wire format, unlike
// the Reflection interface which is independent of any serialization scheme.
class PROTOBUF_EXPORT UnknownFieldSet {
public:
UnknownFieldSet();
~UnknownFieldSet();
// Remove all fields.
inline void Clear();
// Remove all fields and deallocate internal data objects
void ClearAndFreeMemory();
// Is this set empty?
inline bool empty() const;
// Merge the contents of some other UnknownFieldSet with this one.
void MergeFrom(const UnknownFieldSet& other);
// Similar to above, but this function will destroy the contents of other.
void MergeFromAndDestroy(UnknownFieldSet* other);
// Merge the contents an UnknownFieldSet with the UnknownFieldSet in
// *metadata, if there is one. If *metadata doesn't have an UnknownFieldSet
// then add one to it and make it be a copy of the first arg.
static void MergeToInternalMetadata(const UnknownFieldSet& other,
internal::InternalMetadata* metadata);
// Swaps the contents of some other UnknownFieldSet with this one.
inline void Swap(UnknownFieldSet* x);
// Computes (an estimate of) the total number of bytes currently used for
// storing the unknown fields in memory. Does NOT include
// sizeof(*this) in the calculation.
size_t SpaceUsedExcludingSelfLong() const;
int SpaceUsedExcludingSelf() const {
return internal::ToIntSize(SpaceUsedExcludingSelfLong());
}
// Version of SpaceUsed() including sizeof(*this).
size_t SpaceUsedLong() const;
int SpaceUsed() const { return internal::ToIntSize(SpaceUsedLong()); }
// Returns the number of fields present in the UnknownFieldSet.
inline int field_count() const;
// Get a field in the set, where 0 <= index < field_count(). The fields
// appear in the order in which they were added.
inline const UnknownField& field(int index) const;
// Get a mutable pointer to a field in the set, where
// 0 <= index < field_count(). The fields appear in the order in which
// they were added.
inline UnknownField* mutable_field(int index);
// Adding fields ---------------------------------------------------
void AddVarint(int number, uint64_t value);
void AddFixed32(int number, uint32_t value);
void AddFixed64(int number, uint64_t value);
void AddLengthDelimited(int number, const std::string& value);
std::string* AddLengthDelimited(int number);
UnknownFieldSet* AddGroup(int number);
// Adds an unknown field from another set.
void AddField(const UnknownField& field);
// Delete fields with indices in the range [start .. start+num-1].
// Caution: implementation moves all fields with indices [start+num .. ].
void DeleteSubrange(int start, int num);
// Delete all fields with a specific field number. The order of left fields
// is preserved.
// Caution: implementation moves all fields after the first deleted field.
void DeleteByNumber(int number);
// Parsing helpers -------------------------------------------------
// These work exactly like the similarly-named methods of Message.
bool MergeFromCodedStream(io::CodedInputStream* input);
bool ParseFromCodedStream(io::CodedInputStream* input);
bool ParseFromZeroCopyStream(io::ZeroCopyInputStream* input);
bool ParseFromArray(const void* data, int size);
inline bool ParseFromString(const std::string& data) {
return ParseFromArray(data.data(), static_cast<int>(data.size()));
}
// Merges this message's unknown field data (if any). This works whether
// the message is a lite or full proto (for legacy reasons, lite and full
// return different types for MessageType::unknown_fields()).
template <typename MessageType>
bool MergeFromMessage(const MessageType& message);
static const UnknownFieldSet& default_instance();
private:
// For InternalMergeFrom
friend class UnknownField;
// Merges from other UnknownFieldSet. This method assumes, that this object
// is newly created and has no fields.
void InternalMergeFrom(const UnknownFieldSet& other);
void ClearFallback();
template <typename MessageType,
typename std::enable_if<
std::is_base_of<Message, MessageType>::value, int>::type = 0>
bool InternalMergeFromMessage(const MessageType& message) {
MergeFrom(message.GetReflection()->GetUnknownFields(message));
return true;
}
template <typename MessageType,
typename std::enable_if<
std::is_base_of<MessageLite, MessageType>::value &&
!std::is_base_of<Message, MessageType>::value,
int>::type = 0>
bool InternalMergeFromMessage(const MessageType& message) {
const auto& unknown_fields = message.unknown_fields();
io::ArrayInputStream array_stream(unknown_fields.data(),
unknown_fields.size());
io::CodedInputStream coded_stream(&array_stream);
return MergeFromCodedStream(&coded_stream);
}
std::vector<UnknownField> fields_;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(UnknownFieldSet);
};
namespace internal {
inline void WriteVarint(uint32_t num, uint64_t val, UnknownFieldSet* unknown) {
unknown->AddVarint(num, val);
}
inline void WriteLengthDelimited(uint32_t num, StringPiece val,
UnknownFieldSet* unknown) {
unknown->AddLengthDelimited(num)->assign(val.data(), val.size());
}
PROTOBUF_EXPORT
const char* UnknownGroupParse(UnknownFieldSet* unknown, const char* ptr,
ParseContext* ctx);
PROTOBUF_EXPORT
const char* UnknownFieldParse(uint64_t tag, UnknownFieldSet* unknown,
const char* ptr, ParseContext* ctx);
} // namespace internal
// Represents one field in an UnknownFieldSet.
class PROTOBUF_EXPORT UnknownField {
public:
enum Type {
TYPE_VARINT,
TYPE_FIXED32,
TYPE_FIXED64,
TYPE_LENGTH_DELIMITED,
TYPE_GROUP
};
// The field's field number, as seen on the wire.
inline int number() const;
// The field type.
inline Type type() const;
// Accessors -------------------------------------------------------
// Each method works only for UnknownFields of the corresponding type.
inline uint64_t varint() const;
inline uint32_t fixed32() const;
inline uint64_t fixed64() const;
inline const std::string& length_delimited() const;
inline const UnknownFieldSet& group() const;
inline void set_varint(uint64_t value);
inline void set_fixed32(uint32_t value);
inline void set_fixed64(uint64_t value);
inline void set_length_delimited(const std::string& value);
inline std::string* mutable_length_delimited();
inline UnknownFieldSet* mutable_group();
// Serialization API.
// These methods can take advantage of the underlying implementation and may
// archieve a better performance than using getters to retrieve the data and
// do the serialization yourself.
void SerializeLengthDelimitedNoTag(io::CodedOutputStream* output) const {
output->SetCur(InternalSerializeLengthDelimitedNoTag(output->Cur(),
output->EpsCopy()));
}
inline size_t GetLengthDelimitedSize() const;
uint8_t* InternalSerializeLengthDelimitedNoTag(
uint8_t* target, io::EpsCopyOutputStream* stream) const;
// If this UnknownField contains a pointer, delete it.
void Delete();
// Make a deep copy of any pointers in this UnknownField.
void DeepCopy(const UnknownField& other);
// Set the wire type of this UnknownField. Should only be used when this
// UnknownField is being created.
inline void SetType(Type type);
union LengthDelimited {
std::string* string_value;
};
uint32_t number_;
uint32_t type_;
union {
uint64_t varint_;
uint32_t fixed32_;
uint64_t fixed64_;
mutable union LengthDelimited length_delimited_;
UnknownFieldSet* group_;
} data_;
};
// ===================================================================
// inline implementations
inline UnknownFieldSet::UnknownFieldSet() {}
inline UnknownFieldSet::~UnknownFieldSet() { Clear(); }
inline void UnknownFieldSet::ClearAndFreeMemory() { Clear(); }
inline void UnknownFieldSet::Clear() {
if (!fields_.empty()) {
ClearFallback();
}
}
inline bool UnknownFieldSet::empty() const { return fields_.empty(); }
inline void UnknownFieldSet::Swap(UnknownFieldSet* x) {
fields_.swap(x->fields_);
}
inline int UnknownFieldSet::field_count() const {
return static_cast<int>(fields_.size());
}
inline const UnknownField& UnknownFieldSet::field(int index) const {
return (fields_)[static_cast<size_t>(index)];
}
inline UnknownField* UnknownFieldSet::mutable_field(int index) {
return &(fields_)[static_cast<size_t>(index)];
}
inline void UnknownFieldSet::AddLengthDelimited(int number,
const std::string& value) {
AddLengthDelimited(number)->assign(value);
}
inline int UnknownField::number() const { return static_cast<int>(number_); }
inline UnknownField::Type UnknownField::type() const {
return static_cast<Type>(type_);
}
inline uint64_t UnknownField::varint() const {
assert(type() == TYPE_VARINT);
return data_.varint_;
}
inline uint32_t UnknownField::fixed32() const {
assert(type() == TYPE_FIXED32);
return data_.fixed32_;
}
inline uint64_t UnknownField::fixed64() const {
assert(type() == TYPE_FIXED64);
return data_.fixed64_;
}
inline const std::string& UnknownField::length_delimited() const {
assert(type() == TYPE_LENGTH_DELIMITED);
return *data_.length_delimited_.string_value;
}
inline const UnknownFieldSet& UnknownField::group() const {
assert(type() == TYPE_GROUP);
return *data_.group_;
}
inline void UnknownField::set_varint(uint64_t value) {
assert(type() == TYPE_VARINT);
data_.varint_ = value;
}
inline void UnknownField::set_fixed32(uint32_t value) {
assert(type() == TYPE_FIXED32);
data_.fixed32_ = value;
}
inline void UnknownField::set_fixed64(uint64_t value) {
assert(type() == TYPE_FIXED64);
data_.fixed64_ = value;
}
inline void UnknownField::set_length_delimited(const std::string& value) {
assert(type() == TYPE_LENGTH_DELIMITED);
data_.length_delimited_.string_value->assign(value);
}
inline std::string* UnknownField::mutable_length_delimited() {
assert(type() == TYPE_LENGTH_DELIMITED);
return data_.length_delimited_.string_value;
}
inline UnknownFieldSet* UnknownField::mutable_group() {
assert(type() == TYPE_GROUP);
return data_.group_;
}
template <typename MessageType>
bool UnknownFieldSet::MergeFromMessage(const MessageType& message) {
// SFINAE will route to the right version.
return InternalMergeFromMessage(message);
}
inline size_t UnknownField::GetLengthDelimitedSize() const {
GOOGLE_DCHECK_EQ(TYPE_LENGTH_DELIMITED, type());
return data_.length_delimited_.string_value->size();
}
inline void UnknownField::SetType(Type type) {
type_ = type;
}
} // namespace protobuf
} // namespace google
#include <port_undef.inc>
#endif // GOOGLE_PROTOBUF_UNKNOWN_FIELD_SET_H__
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