Protocol Buffers

descriptor.pb.h

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

Protocol buffer representations of descriptors.

This file defines a set of protocol message classes which represent the same information represented by the classes defined in descriptor.h. You can convert a FileDescriptorProto to a FileDescriptor using the DescriptorPool class. Thus, the classes in this file allow protocol type definitions to be communicated efficiently between processes.

The protocol compiler currently doesn't support auto-generated documentation, hence this page contains no descriptions. This file was generated by the protocol compiler from descriptor.proto, whose contents are as follows:

// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc.  All rights reserved.
// http://code.google.com/p/protobuf/
//
// 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.
//
// The messages in this file describe the definitions found in .proto files.
// A valid .proto file can be translated directly to a FileDescriptorProto
// without any other information (e.g. without reading its imports).



package google.protobuf;
option java_package = "com.google.protobuf";
option java_outer_classname = "DescriptorProtos";

// descriptor.proto must be optimized for speed because reflection-based
// algorithms don't work during bootstrapping.
option optimize_for = SPEED;

// The protocol compiler can output a FileDescriptorSet containing the .proto
// files it parses.
message FileDescriptorSet {
  repeated FileDescriptorProto file = 1;
}

// Describes a complete .proto file.
message FileDescriptorProto {
  optional string name = 1;       // file name, relative to root of source tree
  optional string package = 2;    // e.g. "foo", "foo.bar", etc.

  // Names of files imported by this file.
  repeated string dependency = 3;
  // Indexes of the public imported files in the dependency list above.
  repeated int32 public_dependency = 10;
  // Indexes of the weak imported files in the dependency list.
  // For Google-internal migration only. Do not use.
  repeated int32 weak_dependency = 11;

  // All top-level definitions in this file.
  repeated DescriptorProto message_type = 4;
  repeated EnumDescriptorProto enum_type = 5;
  repeated ServiceDescriptorProto service = 6;
  repeated FieldDescriptorProto extension = 7;

  optional FileOptions options = 8;

  // This field contains optional information about the original source code.
  // You may safely remove this entire field whithout harming runtime
  // functionality of the descriptors -- the information is needed only by
  // development tools.
  optional SourceCodeInfo source_code_info = 9;
}

// Describes a message type.
message DescriptorProto {
  optional string name = 1;

  repeated FieldDescriptorProto field = 2;
  repeated FieldDescriptorProto extension = 6;

  repeated DescriptorProto nested_type = 3;
  repeated EnumDescriptorProto enum_type = 4;

  message ExtensionRange {
    optional int32 start = 1;
    optional int32 end = 2;
  }
  repeated ExtensionRange extension_range = 5;

  optional MessageOptions options = 7;
}

// Describes a field within a message.
message FieldDescriptorProto {
  enum Type {
    // 0 is reserved for errors.
    // Order is weird for historical reasons.
    TYPE_DOUBLE         = 1;
    TYPE_FLOAT          = 2;
    // Not ZigZag encoded.  Negative numbers take 10 bytes.  Use TYPE_SINT64 if
    // negative values are likely.
    TYPE_INT64          = 3;
    TYPE_UINT64         = 4;
    // Not ZigZag encoded.  Negative numbers take 10 bytes.  Use TYPE_SINT32 if
    // negative values are likely.
    TYPE_INT32          = 5;
    TYPE_FIXED64        = 6;
    TYPE_FIXED32        = 7;
    TYPE_BOOL           = 8;
    TYPE_STRING         = 9;
    TYPE_GROUP          = 10;  // Tag-delimited aggregate.
    TYPE_MESSAGE        = 11;  // Length-delimited aggregate.

    // New in version 2.
    TYPE_BYTES          = 12;
    TYPE_UINT32         = 13;
    TYPE_ENUM           = 14;
    TYPE_SFIXED32       = 15;
    TYPE_SFIXED64       = 16;
    TYPE_SINT32         = 17;  // Uses ZigZag encoding.
    TYPE_SINT64         = 18;  // Uses ZigZag encoding.
  };

  enum Label {
    // 0 is reserved for errors
    LABEL_OPTIONAL      = 1;
    LABEL_REQUIRED      = 2;
    LABEL_REPEATED      = 3;
    // TODO(sanjay): Should we add LABEL_MAP?
  };

  optional string name = 1;
  optional int32 number = 3;
  optional Label label = 4;

  // If type_name is set, this need not be set.  If both this and type_name
  // are set, this must be either TYPE_ENUM or TYPE_MESSAGE.
  optional Type type = 5;

  // For message and enum types, this is the name of the type.  If the name
  // starts with a '.', it is fully-qualified.  Otherwise, C++-like scoping
  // rules are used to find the type (i.e. first the nested types within this
  // message are searched, then within the parent, on up to the root
  // namespace).
  optional string type_name = 6;

  // For extensions, this is the name of the type being extended.  It is
  // resolved in the same manner as type_name.
  optional string extendee = 2;

  // For numeric types, contains the original text representation of the value.
  // For booleans, "true" or "false".
  // For strings, contains the default text contents (not escaped in any way).
  // For bytes, contains the C escaped value.  All bytes >= 128 are escaped.
  // TODO(kenton):  Base-64 encode?
  optional string default_value = 7;

  optional FieldOptions options = 8;
}

// Describes an enum type.
message EnumDescriptorProto {
  optional string name = 1;

  repeated EnumValueDescriptorProto value = 2;

  optional EnumOptions options = 3;
}

// Describes a value within an enum.
message EnumValueDescriptorProto {
  optional string name = 1;
  optional int32 number = 2;

  optional EnumValueOptions options = 3;
}

// Describes a service.
message ServiceDescriptorProto {
  optional string name = 1;
  repeated MethodDescriptorProto method = 2;

  optional ServiceOptions options = 3;
}

// Describes a method of a service.
message MethodDescriptorProto {
  optional string name = 1;

  // Input and output type names.  These are resolved in the same way as
  // FieldDescriptorProto.type_name, but must refer to a message type.
  optional string input_type = 2;
  optional string output_type = 3;

  optional MethodOptions options = 4;
}


// ===================================================================
// Options

// Each of the definitions above may have "options" attached.  These are
// just annotations which may cause code to be generated slightly differently
// or may contain hints for code that manipulates protocol messages.
//
// Clients may define custom options as extensions of the *Options messages.
// These extensions may not yet be known at parsing time, so the parser cannot
// store the values in them.  Instead it stores them in a field in the *Options
// message called uninterpreted_option. This field must have the same name
// across all *Options messages. We then use this field to populate the
// extensions when we build a descriptor, at which point all protos have been
// parsed and so all extensions are known.
//
// Extension numbers for custom options may be chosen as follows:
// * For options which will only be used within a single application or
//   organization, or for experimental options, use field numbers 50000
//   through 99999.  It is up to you to ensure that you do not use the
//   same number for multiple options.
// * For options which will be published and used publicly by multiple
//   independent entities, e-mail protobuf-global-extension-registry@google.com
//   to reserve extension numbers. Simply provide your project name (e.g.
//   Object-C plugin) and your porject website (if available) -- there's no need
//   to explain how you intend to use them. Usually you only need one extension
//   number. You can declare multiple options with only one extension number by
//   putting them in a sub-message. See the Custom Options section of the docs
//   for examples:
//   http://code.google.com/apis/protocolbuffers/docs/proto.html#options
//   If this turns out to be popular, a web service will be set up
//   to automatically assign option numbers.


message FileOptions {

  // Sets the Java package where classes generated from this .proto will be
  // placed.  By default, the proto package is used, but this is often
  // inappropriate because proto packages do not normally start with backwards
  // domain names.
  optional string java_package = 1;


  // If set, all the classes from the .proto file are wrapped in a single
  // outer class with the given name.  This applies to both Proto1
  // (equivalent to the old "--one_java_file" option) and Proto2 (where
  // a .proto always translates to a single class, but you may want to
  // explicitly choose the class name).
  optional string java_outer_classname = 8;

  // If set true, then the Java code generator will generate a separate .java
  // file for each top-level message, enum, and service defined in the .proto
  // file.  Thus, these types will *not* be nested inside the outer class
  // named by java_outer_classname.  However, the outer class will still be
  // generated to contain the file's getDescriptor() method as well as any
  // top-level extensions defined in the file.
  optional bool java_multiple_files = 10 [[]default=false];

  // If set true, then the Java code generator will generate equals() and
  // hashCode() methods for all messages defined in the .proto file. This is
  // purely a speed optimization, as the AbstractMessage base class includes
  // reflection-based implementations of these methods.
  optional bool java_generate_equals_and_hash = 20 [[]default=false];

  // Generated classes can be optimized for speed or code size.
  enum OptimizeMode {
    SPEED = 1;        // Generate complete code for parsing, serialization,
                      // etc.
    CODE_SIZE = 2;    // Use ReflectionOps to implement these methods.
    LITE_RUNTIME = 3; // Generate code using MessageLite and the lite runtime.
  }
  optional OptimizeMode optimize_for = 9 [[]default=SPEED];

  // Sets the Go package where structs generated from this .proto will be
  // placed.  There is no default.
  optional string go_package = 11;



  // Should generic services be generated in each language?  "Generic" services
  // are not specific to any particular RPC system.  They are generated by the
  // main code generators in each language (without additional plugins).
  // Generic services were the only kind of service generation supported by
  // early versions of proto2.
  //
  // Generic services are now considered deprecated in favor of using plugins
  // that generate code specific to your particular RPC system.  Therefore,
  // these default to false.  Old code which depends on generic services should
  // explicitly set them to true.
  optional bool cc_generic_services = 16 [[]default=false];
  optional bool java_generic_services = 17 [[]default=false];
  optional bool py_generic_services = 18 [[]default=false];

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message MessageOptions {
  // Set true to use the old proto1 MessageSet wire format for extensions.
  // This is provided for backwards-compatibility with the MessageSet wire
  // format.  You should not use this for any other reason:  It's less
  // efficient, has fewer features, and is more complicated.
  //
  // The message must be defined exactly as follows:
  //   message Foo {
  //     option message_set_wire_format = true;
  //     extensions 4 to max;
  //   }
  // Note that the message cannot have any defined fields; MessageSets only
  // have extensions.
  //
  // All extensions of your type must be singular messages; e.g. they cannot
  // be int32s, enums, or repeated messages.
  //
  // Because this is an option, the above two restrictions are not enforced by
  // the protocol compiler.
  optional bool message_set_wire_format = 1 [[]default=false];

  // Disables the generation of the standard "descriptor()" accessor, which can
  // conflict with a field of the same name.  This is meant to make migration
  // from proto1 easier; new code should avoid fields named "descriptor".
  optional bool no_standard_descriptor_accessor = 2 [[]default=false];

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message FieldOptions {
  // The ctype option instructs the C++ code generator to use a different
  // representation of the field than it normally would.  See the specific
  // options below.  This option is not yet implemented in the open source
  // release -- sorry, we'll try to include it in a future version!
  optional CType ctype = 1 [[]default = STRING];
  enum CType {
    // Default mode.
    STRING = 0;

    CORD = 1;

    STRING_PIECE = 2;
  }
  // The packed option can be enabled for repeated primitive fields to enable
  // a more efficient representation on the wire. Rather than repeatedly
  // writing the tag and type for each element, the entire array is encoded as
  // a single length-delimited blob.
  optional bool packed = 2;



  // Should this field be parsed lazily?  Lazy applies only to message-type
  // fields.  It means that when the outer message is initially parsed, the
  // inner message's contents will not be parsed but instead stored in encoded
  // form.  The inner message will actually be parsed when it is first accessed.
  //
  // This is only a hint.  Implementations are free to choose whether to use
  // eager or lazy parsing regardless of the value of this option.  However,
  // setting this option true suggests that the protocol author believes that
  // using lazy parsing on this field is worth the additional bookkeeping
  // overhead typically needed to implement it.
  //
  // This option does not affect the public interface of any generated code;
  // all method signatures remain the same.  Furthermore, thread-safety of the
  // interface is not affected by this option; const methods remain safe to
  // call from multiple threads concurrently, while non-const methods continue
  // to require exclusive access.
  //
  //
  // Note that implementations may choose not to check required fields within
  // a lazy sub-message.  That is, calling IsInitialized() on the outher message
  // may return true even if the inner message has missing required fields.
  // This is necessary because otherwise the inner message would have to be
  // parsed in order to perform the check, defeating the purpose of lazy
  // parsing.  An implementation which chooses not to check required fields
  // must be consistent about it.  That is, for any particular sub-message, the
  // implementation must either *always* check its required fields, or *never*
  // check its required fields, regardless of whether or not the message has
  // been parsed.
  optional bool lazy = 5 [[]default=false];

  // Is this field deprecated?
  // Depending on the target platform, this can emit Deprecated annotations
  // for accessors, or it will be completely ignored; in the very least, this
  // is a formalization for deprecating fields.
  optional bool deprecated = 3 [[]default=false];

  // EXPERIMENTAL.  DO NOT USE.
  // For "map" fields, the name of the field in the enclosed type that
  // is the key for this map.  For example, suppose we have:
  //   message Item {
  //     required string name = 1;
  //     required string value = 2;
  //   }
  //   message Config {
  //     repeated Item items = 1 [[]experimental_map_key="name"];
  //   }
  // In this situation, the map key for Item will be set to "name".
  // TODO: Fully-implement this, then remove the "experimental_" prefix.
  optional string experimental_map_key = 9;

  // For Google-internal migration only. Do not use.
  optional bool weak = 10 [[]default=false];

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message EnumOptions {

  // Set this option to false to disallow mapping different tag names to a same
  // value.
  optional bool allow_alias = 2 [[]default=true];

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message EnumValueOptions {
  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message ServiceOptions {

  // Note:  Field numbers 1 through 32 are reserved for Google's internal RPC
  //   framework.  We apologize for hoarding these numbers to ourselves, but
  //   we were already using them long before we decided to release Protocol
  //   Buffers.

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}

message MethodOptions {

  // Note:  Field numbers 1 through 32 are reserved for Google's internal RPC
  //   framework.  We apologize for hoarding these numbers to ourselves, but
  //   we were already using them long before we decided to release Protocol
  //   Buffers.

  // The parser stores options it doesn't recognize here. See above.
  repeated UninterpretedOption uninterpreted_option = 999;

  // Clients can define custom options in extensions of this message. See above.
  extensions 1000 to max;
}


// A message representing a option the parser does not recognize. This only
// appears in options protos created by the compiler::Parser class.
// DescriptorPool resolves these when building Descriptor objects. Therefore,
// options protos in descriptor objects (e.g. returned by Descriptor::options(),
// or produced by Descriptor::CopyTo()) will never have UninterpretedOptions
// in them.
message UninterpretedOption {
  // The name of the uninterpreted option.  Each string represents a segment in
  // a dot-separated name.  is_extension is true iff a segment represents an
  // extension (denoted with parentheses in options specs in .proto files).
  // E.g.,{ [[]"foo", false], [[]"bar.baz", true], [[]"qux", false] } represents
  // "foo.(bar.baz).qux".
  message NamePart {
    required string name_part = 1;
    required bool is_extension = 2;
  }
  repeated NamePart name = 2;

  // The value of the uninterpreted option, in whatever type the tokenizer
  // identified it as during parsing. Exactly one of these should be set.
  optional string identifier_value = 3;
  optional uint64 positive_int_value = 4;
  optional int64 negative_int_value = 5;
  optional double double_value = 6;
  optional bytes string_value = 7;
  optional string aggregate_value = 8;
}

// ===================================================================
// Optional source code info

// Encapsulates information about the original source file from which a
// FileDescriptorProto was generated.
message SourceCodeInfo {
  // A Location identifies a piece of source code in a .proto file which
  // corresponds to a particular definition.  This information is intended
  // to be useful to IDEs, code indexers, documentation generators, and similar
  // tools.
  //
  // For example, say we have a file like:
  //   message Foo {
  //     optional string foo = 1;
  //   }
  // Let's look at just the field definition:
  //   optional string foo = 1;
  //   ^       ^^     ^^  ^  ^^^
  //   a       bc     de  f  ghi
  // We have the following locations:
  //   span   path               represents
  //   [[]a,i)  [[] 4, 0, 2, 0 ]     The whole field definition.
  //   [[]a,b)  [[] 4, 0, 2, 0, 4 ]  The label (optional).
  //   [[]c,d)  [[] 4, 0, 2, 0, 5 ]  The type (string).
  //   [[]e,f)  [[] 4, 0, 2, 0, 1 ]  The name (foo).
  //   [[]g,h)  [[] 4, 0, 2, 0, 3 ]  The number (1).
  //
  // Notes:
  // - A location may refer to a repeated field itself (i.e. not to any
  //   particular index within it).  This is used whenever a set of elements are
  //   logically enclosed in a single code segment.  For example, an entire
  //   extend block (possibly containing multiple extension definitions) will
  //   have an outer location whose path refers to the "extensions" repeated
  //   field without an index.
  // - Multiple locations may have the same path.  This happens when a single
  //   logical declaration is spread out across multiple places.  The most
  //   obvious example is the "extend" block again -- there may be multiple
  //   extend blocks in the same scope, each of which will have the same path.
  // - A location's span is not always a subset of its parent's span.  For
  //   example, the "extendee" of an extension declaration appears at the
  //   beginning of the "extend" block and is shared by all extensions within
  //   the block.
  // - Just because a location's span is a subset of some other location's span
  //   does not mean that it is a descendent.  For example, a "group" defines
  //   both a type and a field in a single declaration.  Thus, the locations
  //   corresponding to the type and field and their components will overlap.
  // - Code which tries to interpret locations should probably be designed to
  //   ignore those that it doesn't understand, as more types of locations could
  //   be recorded in the future.
  repeated Location location = 1;
  message Location {
    // Identifies which part of the FileDescriptorProto was defined at this
    // location.
    //
    // Each element is a field number or an index.  They form a path from
    // the root FileDescriptorProto to the place where the definition.  For
    // example, this path:
    //   [[] 4, 3, 2, 7, 1 ]
    // refers to:
    //   file.message_type(3)  // 4, 3
    //       .field(7)         // 2, 7
    //       .name()           // 1
    // This is because FileDescriptorProto.message_type has field number 4:
    //   repeated DescriptorProto message_type = 4;
    // and DescriptorProto.field has field number 2:
    //   repeated FieldDescriptorProto field = 2;
    // and FieldDescriptorProto.name has field number 1:
    //   optional string name = 1;
    //
    // Thus, the above path gives the location of a field name.  If we removed
    // the last element:
    //   [[] 4, 3, 2, 7 ]
    // this path refers to the whole field declaration (from the beginning
    // of the label to the terminating semicolon).
    repeated int32 path = 1 [[]packed=true];

    // Always has exactly three or four elements: start line, start column,
    // end line (optional, otherwise assumed same as start line), end column.
    // These are packed into a single field for efficiency.  Note that line
    // and column numbers are zero-based -- typically you will want to add
    // 1 to each before displaying to a user.
    repeated int32 span = 2 [[]packed=true];

    // If this SourceCodeInfo represents a complete declaration, these are any
    // comments appearing before and after the declaration which appear to be
    // attached to the declaration.
    //
    // A series of line comments appearing on consecutive lines, with no other
    // tokens appearing on those lines, will be treated as a single comment.
    //
    // Only the comment content is provided; comment markers (e.g. //) are
    // stripped out.  For block comments, leading whitespace and an asterisk
    // will be stripped from the beginning of each line other than the first.
    // Newlines are included in the output.
    //
    // Examples:
    //
    //   optional int32 foo = 1;  // Comment attached to foo.
    //   // Comment attached to bar.
    //   optional int32 bar = 2;
    //
    //   optional string baz = 3;
    //   // Comment attached to baz.
    //   // Another line attached to baz.
    //
    //   // Comment attached to qux.
    //   //
    //   // Another line attached to qux.
    //   optional double qux = 4;
    //
    //   optional string corge = 5;
    //   /* Block comment attached
    //    * to corge.  Leading asterisks
    //    * will be removed. */
    //   /* Block comment attached to
    //    * grault. */
    //   optional int32 grault = 6;
    optional string leading_comments = 3;
    optional string trailing_comments = 4;
  }
}

Classes in this file

See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.
See the docs for descriptor.pb.h for more information about this class.

File Members

These definitions are not part of any class.
enum
FieldDescriptorProto_Type
enum
FieldDescriptorProto_Label
enum
FileOptions_OptimizeMode
enum
FieldOptions_CType
const FieldDescriptorProto_Type
FieldDescriptorProto_Type_Type_MIN = FieldDescriptorProto_Type_TYPE_DOUBLE
const FieldDescriptorProto_Type
FieldDescriptorProto_Type_Type_MAX = FieldDescriptorProto_Type_TYPE_SINT64
const int
FieldDescriptorProto_Type_Type_ARRAYSIZE = FieldDescriptorProto_Type_Type_MAX + 1
const FieldDescriptorProto_Label
FieldDescriptorProto_Label_Label_MIN = FieldDescriptorProto_Label_LABEL_OPTIONAL
const FieldDescriptorProto_Label
FieldDescriptorProto_Label_Label_MAX = FieldDescriptorProto_Label_LABEL_REPEATED
const int
FieldDescriptorProto_Label_Label_ARRAYSIZE = FieldDescriptorProto_Label_Label_MAX + 1
const FileOptions_OptimizeMode
FileOptions_OptimizeMode_OptimizeMode_MIN = FileOptions_OptimizeMode_SPEED
const FileOptions_OptimizeMode
FileOptions_OptimizeMode_OptimizeMode_MAX = FileOptions_OptimizeMode_LITE_RUNTIME
const int
FileOptions_OptimizeMode_OptimizeMode_ARRAYSIZE = FileOptions_OptimizeMode_OptimizeMode_MAX + 1
const FieldOptions_CType
FieldOptions_CType_CType_MIN = FieldOptions_CType_STRING
const FieldOptions_CType
FieldOptions_CType_CType_MAX = FieldOptions_CType_STRING_PIECE
const int
FieldOptions_CType_CType_ARRAYSIZE = FieldOptions_CType_CType_MAX + 1
void
protobuf_AddDesc_google_2fprotobuf_2fdescriptor_2eproto()
Internal implementation detail -- do not call these.
void
protobuf_AssignDesc_google_2fprotobuf_2fdescriptor_2eproto()
void
protobuf_ShutdownFile_google_2fprotobuf_2fdescriptor_2eproto()
bool
FieldDescriptorProto_Type_IsValid(int value)
const EnumDescriptor *
FieldDescriptorProto_Type_descriptor()
const ::std::string &
FieldDescriptorProto_Type_Name(FieldDescriptorProto_Type value)
bool
FieldDescriptorProto_Type_Parse(const ::std::string & name, FieldDescriptorProto_Type * value)
bool
FieldDescriptorProto_Label_IsValid(int value)
const EnumDescriptor *
FieldDescriptorProto_Label_descriptor()
const ::std::string &
FieldDescriptorProto_Label_Name(FieldDescriptorProto_Label value)
bool
FieldDescriptorProto_Label_Parse(const ::std::string & name, FieldDescriptorProto_Label * value)
bool
FileOptions_OptimizeMode_IsValid(int value)
const EnumDescriptor *
FileOptions_OptimizeMode_descriptor()
const ::std::string &
FileOptions_OptimizeMode_Name(FileOptions_OptimizeMode value)
bool
FileOptions_OptimizeMode_Parse(const ::std::string & name, FileOptions_OptimizeMode * value)
bool
FieldOptions_CType_IsValid(int value)
const EnumDescriptor *
FieldOptions_CType_descriptor()
const ::std::string &
FieldOptions_CType_Name(FieldOptions_CType value)
bool
FieldOptions_CType_Parse(const ::std::string & name, FieldOptions_CType * value)
const EnumDescriptor *
GetEnumDescriptor< FieldDescriptorProto_Type >()
const EnumDescriptor *
GetEnumDescriptor< FieldDescriptorProto_Label >()
const EnumDescriptor *
GetEnumDescriptor< FileOptions_OptimizeMode >()
const EnumDescriptor *
GetEnumDescriptor< FieldOptions_CType >()

enum protobuf::FieldDescriptorProto_Type {
  FieldDescriptorProto_Type_TYPE_DOUBLE = 1,
  FieldDescriptorProto_Type_TYPE_FLOAT = 2,
  FieldDescriptorProto_Type_TYPE_INT64 = 3,
  FieldDescriptorProto_Type_TYPE_UINT64 = 4,
  FieldDescriptorProto_Type_TYPE_INT32 = 5,
  FieldDescriptorProto_Type_TYPE_FIXED64 = 6,
  FieldDescriptorProto_Type_TYPE_FIXED32 = 7,
  FieldDescriptorProto_Type_TYPE_BOOL = 8,
  FieldDescriptorProto_Type_TYPE_STRING = 9,
  FieldDescriptorProto_Type_TYPE_GROUP = 10,
  FieldDescriptorProto_Type_TYPE_MESSAGE = 11,
  FieldDescriptorProto_Type_TYPE_BYTES = 12,
  FieldDescriptorProto_Type_TYPE_UINT32 = 13,
  FieldDescriptorProto_Type_TYPE_ENUM = 14,
  FieldDescriptorProto_Type_TYPE_SFIXED32 = 15,
  FieldDescriptorProto_Type_TYPE_SFIXED64 = 16,
  FieldDescriptorProto_Type_TYPE_SINT32 = 17,
  FieldDescriptorProto_Type_TYPE_SINT64 = 18
}

FieldDescriptorProto_Type_TYPE_DOUBLE
FieldDescriptorProto_Type_TYPE_FLOAT
FieldDescriptorProto_Type_TYPE_INT64
FieldDescriptorProto_Type_TYPE_UINT64
FieldDescriptorProto_Type_TYPE_INT32
FieldDescriptorProto_Type_TYPE_FIXED64
FieldDescriptorProto_Type_TYPE_FIXED32
FieldDescriptorProto_Type_TYPE_BOOL
FieldDescriptorProto_Type_TYPE_STRING
FieldDescriptorProto_Type_TYPE_GROUP
FieldDescriptorProto_Type_TYPE_MESSAGE
FieldDescriptorProto_Type_TYPE_BYTES
FieldDescriptorProto_Type_TYPE_UINT32
FieldDescriptorProto_Type_TYPE_ENUM
FieldDescriptorProto_Type_TYPE_SFIXED32
FieldDescriptorProto_Type_TYPE_SFIXED64
FieldDescriptorProto_Type_TYPE_SINT32
FieldDescriptorProto_Type_TYPE_SINT64

enum protobuf::FieldDescriptorProto_Label {
  FieldDescriptorProto_Label_LABEL_OPTIONAL = 1,
  FieldDescriptorProto_Label_LABEL_REQUIRED = 2,
  FieldDescriptorProto_Label_LABEL_REPEATED = 3
}

FieldDescriptorProto_Label_LABEL_OPTIONAL
FieldDescriptorProto_Label_LABEL_REQUIRED
FieldDescriptorProto_Label_LABEL_REPEATED

enum protobuf::FileOptions_OptimizeMode {
  FileOptions_OptimizeMode_SPEED = 1,
  FileOptions_OptimizeMode_CODE_SIZE = 2,
  FileOptions_OptimizeMode_LITE_RUNTIME = 3
}

FileOptions_OptimizeMode_SPEED
FileOptions_OptimizeMode_CODE_SIZE
FileOptions_OptimizeMode_LITE_RUNTIME

enum protobuf::FieldOptions_CType {
  FieldOptions_CType_STRING = 0,
  FieldOptions_CType_CORD = 1,
  FieldOptions_CType_STRING_PIECE = 2
}

FieldOptions_CType_STRING
FieldOptions_CType_CORD
FieldOptions_CType_STRING_PIECE

class FileDescriptorSet: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kFileFieldNumber = 1
FileDescriptorSet()
virtual
~FileDescriptorSet()
FileDescriptorSet(const FileDescriptorSet & from)
FileDescriptorSet &
operator=(const FileDescriptorSet & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(FileDescriptorSet * other)
int
file_size() const
void
clear_file()
const FileDescriptorProto &
file(int index) const
FileDescriptorProto *
mutable_file(int index)
FileDescriptorProto *
add_file()
const RepeatedPtrField< FileDescriptorProto > &
file() const
RepeatedPtrField< FileDescriptorProto > *
mutable_file()
static const Descriptor *
descriptor()
static const FileDescriptorSet &
default_instance()

implements Message

virtual FileDescriptorSet *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const FileDescriptorSet & from)
void
MergeFrom(const FileDescriptorSet & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual FileDescriptorSet *
    FileDescriptorSet::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void FileDescriptorSet::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void FileDescriptorSet::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void FileDescriptorSet::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int FileDescriptorSet::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool FileDescriptorSet::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void FileDescriptorSet::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * FileDescriptorSet::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int FileDescriptorSet::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata FileDescriptorSet::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class FileDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNameFieldNumber = 1
const int
kPackageFieldNumber = 2
const int
kDependencyFieldNumber = 3
const int
kPublicDependencyFieldNumber = 10
const int
kWeakDependencyFieldNumber = 11
const int
kMessageTypeFieldNumber = 4
const int
kEnumTypeFieldNumber = 5
const int
kServiceFieldNumber = 6
const int
kExtensionFieldNumber = 7
const int
kOptionsFieldNumber = 8
const int
kSourceCodeInfoFieldNumber = 9
FileDescriptorProto()
virtual
~FileDescriptorProto()
FileDescriptorProto(const FileDescriptorProto & from)
FileDescriptorProto &
operator=(const FileDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(FileDescriptorProto * other)
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
bool
has_package() const
optional string package = 2;
void
clear_package()
const ::std::string &
package() const
void
set_package(const ::std::string & value)
void
set_package(const char * value)
void
set_package(const char * value, size_t size)
inline::std::string *
mutable_package()
inline::std::string *
release_package()
void
set_allocated_package(::std::string * package)
int
dependency_size() const
repeated string dependency = 3;
void
clear_dependency()
const ::std::string &
dependency(int index) const
inline::std::string *
mutable_dependency(int index)
void
set_dependency(int index, const ::std::string & value)
void
set_dependency(int index, const char * value)
void
set_dependency(int index, const char * value, size_t size)
inline::std::string *
add_dependency()
void
add_dependency(const ::std::string & value)
void
add_dependency(const char * value)
void
add_dependency(const char * value, size_t size)
const RepeatedPtrField< ::std::string > &
dependency() const
RepeatedPtrField< ::std::string > *
mutable_dependency()
int
public_dependency_size() const
repeated int32 public_dependency = 10;
void
clear_public_dependency()
int32
public_dependency(int index) const
void
set_public_dependency(int index, int32 value)
void
add_public_dependency(int32 value)
const RepeatedField< int32 > &
public_dependency() const
RepeatedField< int32 > *
mutable_public_dependency()
int
weak_dependency_size() const
repeated int32 weak_dependency = 11;
void
clear_weak_dependency()
int32
weak_dependency(int index) const
void
set_weak_dependency(int index, int32 value)
void
add_weak_dependency(int32 value)
const RepeatedField< int32 > &
weak_dependency() const
RepeatedField< int32 > *
mutable_weak_dependency()
int
message_type_size() const
repeated .google.protobuf.DescriptorProto message_type = 4;
void
clear_message_type()
const DescriptorProto &
message_type(int index) const
DescriptorProto *
mutable_message_type(int index)
DescriptorProto *
add_message_type()
const RepeatedPtrField< DescriptorProto > &
message_type() const
RepeatedPtrField< DescriptorProto > *
mutable_message_type()
int
enum_type_size() const
repeated .google.protobuf.EnumDescriptorProto enum_type = 5;
void
clear_enum_type()
const EnumDescriptorProto &
enum_type(int index) const
EnumDescriptorProto *
mutable_enum_type(int index)
EnumDescriptorProto *
add_enum_type()
const RepeatedPtrField< EnumDescriptorProto > &
enum_type() const
RepeatedPtrField< EnumDescriptorProto > *
mutable_enum_type()
int
service_size() const
void
clear_service()
const ServiceDescriptorProto &
service(int index) const
ServiceDescriptorProto *
mutable_service(int index)
ServiceDescriptorProto *
add_service()
const RepeatedPtrField< ServiceDescriptorProto > &
service() const
RepeatedPtrField< ServiceDescriptorProto > *
mutable_service()
int
extension_size() const
repeated .google.protobuf.FieldDescriptorProto extension = 7;
void
clear_extension()
const FieldDescriptorProto &
extension(int index) const
FieldDescriptorProto *
mutable_extension(int index)
FieldDescriptorProto *
add_extension()
const RepeatedPtrField< FieldDescriptorProto > &
extension() const
RepeatedPtrField< FieldDescriptorProto > *
mutable_extension()
bool
has_options() const
optional .google.protobuf.FileOptions options = 8;
void
clear_options()
const FileOptions &
options() const
FileOptions *
mutable_options()
FileOptions *
release_options()
void
set_allocated_options(FileOptions * options)
bool
has_source_code_info() const
optional .google.protobuf.SourceCodeInfo source_code_info = 9;
void
clear_source_code_info()
const SourceCodeInfo &
source_code_info() const
SourceCodeInfo *
mutable_source_code_info()
SourceCodeInfo *
release_source_code_info()
void
set_allocated_source_code_info(SourceCodeInfo * source_code_info)
static const Descriptor *
descriptor()
static const FileDescriptorProto &
default_instance()

implements Message

virtual FileDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const FileDescriptorProto & from)
void
MergeFrom(const FileDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual FileDescriptorProto *
    FileDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void FileDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void FileDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void FileDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int FileDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool FileDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void FileDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * FileDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int FileDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata FileDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class DescriptorProto_ExtensionRange: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kStartFieldNumber = 1
const int
kEndFieldNumber = 2
DescriptorProto_ExtensionRange()
virtual
~DescriptorProto_ExtensionRange()
DescriptorProto_ExtensionRange(const DescriptorProto_ExtensionRange & from)
DescriptorProto_ExtensionRange &
operator=(const DescriptorProto_ExtensionRange & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
bool
has_start() const
optional int32 start = 1;
void
clear_start()
int32
start() const
void
set_start(int32 value)
bool
has_end() const
optional int32 end = 2;
void
clear_end()
int32
end() const
void
set_end(int32 value)
static const Descriptor *
descriptor()
static const DescriptorProto_ExtensionRange &
default_instance()

implements Message

virtual DescriptorProto_ExtensionRange *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const DescriptorProto_ExtensionRange & from)
void
MergeFrom(const DescriptorProto_ExtensionRange & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual DescriptorProto_ExtensionRange *
    DescriptorProto_ExtensionRange::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void DescriptorProto_ExtensionRange::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void DescriptorProto_ExtensionRange::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void DescriptorProto_ExtensionRange::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int DescriptorProto_ExtensionRange::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool DescriptorProto_ExtensionRange::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void DescriptorProto_ExtensionRange::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * DescriptorProto_ExtensionRange::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int DescriptorProto_ExtensionRange::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata DescriptorProto_ExtensionRange::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class DescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
const int
kNameFieldNumber = 1
const int
kFieldFieldNumber = 2
const int
kExtensionFieldNumber = 6
const int
kNestedTypeFieldNumber = 3
const int
kEnumTypeFieldNumber = 4
const int
kExtensionRangeFieldNumber = 5
const int
kOptionsFieldNumber = 7
DescriptorProto()
virtual
~DescriptorProto()
DescriptorProto(const DescriptorProto & from)
DescriptorProto &
operator=(const DescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(DescriptorProto * other)
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
int
field_size() const
void
clear_field()
const FieldDescriptorProto &
field(int index) const
FieldDescriptorProto *
mutable_field(int index)
FieldDescriptorProto *
add_field()
const RepeatedPtrField< FieldDescriptorProto > &
field() const
RepeatedPtrField< FieldDescriptorProto > *
mutable_field()
int
extension_size() const
repeated .google.protobuf.FieldDescriptorProto extension = 6;
void
clear_extension()
const FieldDescriptorProto &
extension(int index) const
FieldDescriptorProto *
mutable_extension(int index)
FieldDescriptorProto *
add_extension()
const RepeatedPtrField< FieldDescriptorProto > &
extension() const
RepeatedPtrField< FieldDescriptorProto > *
mutable_extension()
int
nested_type_size() const
repeated .google.protobuf.DescriptorProto nested_type = 3;
void
clear_nested_type()
const DescriptorProto &
nested_type(int index) const
DescriptorProto *
mutable_nested_type(int index)
DescriptorProto *
add_nested_type()
const RepeatedPtrField< DescriptorProto > &
nested_type() const
RepeatedPtrField< DescriptorProto > *
mutable_nested_type()
int
enum_type_size() const
repeated .google.protobuf.EnumDescriptorProto enum_type = 4;
void
clear_enum_type()
const EnumDescriptorProto &
enum_type(int index) const
EnumDescriptorProto *
mutable_enum_type(int index)
EnumDescriptorProto *
add_enum_type()
const RepeatedPtrField< EnumDescriptorProto > &
enum_type() const
RepeatedPtrField< EnumDescriptorProto > *
mutable_enum_type()
int
extension_range_size() const
repeated .google.protobuf.DescriptorProto.ExtensionRange extension_range = 5;
void
clear_extension_range()
const DescriptorProto_ExtensionRange &
extension_range(int index) const
DescriptorProto_ExtensionRange *
mutable_extension_range(int index)
DescriptorProto_ExtensionRange *
add_extension_range()
const RepeatedPtrField< DescriptorProto_ExtensionRange > &
extension_range() const
RepeatedPtrField< DescriptorProto_ExtensionRange > *
mutable_extension_range()
bool
has_options() const
optional .google.protobuf.MessageOptions options = 7;
void
clear_options()
const MessageOptions &
options() const
MessageOptions *
mutable_options()
MessageOptions *
release_options()
void
set_allocated_options(MessageOptions * options)
static const Descriptor *
descriptor()
static const DescriptorProto &
default_instance()

implements Message

virtual DescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const DescriptorProto & from)
void
MergeFrom(const DescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual DescriptorProto *
    DescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void DescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void DescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void DescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int DescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool DescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void DescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * DescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int DescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata DescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class FieldDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
FieldDescriptorProto_Type Type
typedef
FieldDescriptorProto_Label Label
const Type
TYPE_DOUBLE = FieldDescriptorProto_Type_TYPE_DOUBLE
const Type
TYPE_FLOAT = FieldDescriptorProto_Type_TYPE_FLOAT
const Type
TYPE_INT64 = FieldDescriptorProto_Type_TYPE_INT64
const Type
TYPE_UINT64 = FieldDescriptorProto_Type_TYPE_UINT64
const Type
TYPE_INT32 = FieldDescriptorProto_Type_TYPE_INT32
const Type
TYPE_FIXED64 = FieldDescriptorProto_Type_TYPE_FIXED64
const Type
TYPE_FIXED32 = FieldDescriptorProto_Type_TYPE_FIXED32
const Type
TYPE_BOOL = FieldDescriptorProto_Type_TYPE_BOOL
const Type
TYPE_STRING = FieldDescriptorProto_Type_TYPE_STRING
const Type
TYPE_GROUP = FieldDescriptorProto_Type_TYPE_GROUP
const Type
TYPE_MESSAGE = FieldDescriptorProto_Type_TYPE_MESSAGE
const Type
TYPE_BYTES = FieldDescriptorProto_Type_TYPE_BYTES
const Type
TYPE_UINT32 = FieldDescriptorProto_Type_TYPE_UINT32
const Type
TYPE_ENUM = FieldDescriptorProto_Type_TYPE_ENUM
const Type
TYPE_SFIXED32 = FieldDescriptorProto_Type_TYPE_SFIXED32
const Type
TYPE_SFIXED64 = FieldDescriptorProto_Type_TYPE_SFIXED64
const Type
TYPE_SINT32 = FieldDescriptorProto_Type_TYPE_SINT32
const Type
TYPE_SINT64 = FieldDescriptorProto_Type_TYPE_SINT64
const Type
Type_MIN = FieldDescriptorProto_Type_Type_MIN
const Type
Type_MAX = FieldDescriptorProto_Type_Type_MAX
const int
Type_ARRAYSIZE = FieldDescriptorProto_Type_Type_ARRAYSIZE
const Label
LABEL_OPTIONAL = FieldDescriptorProto_Label_LABEL_OPTIONAL
const Label
LABEL_REQUIRED = FieldDescriptorProto_Label_LABEL_REQUIRED
const Label
LABEL_REPEATED = FieldDescriptorProto_Label_LABEL_REPEATED
const Label
Label_MIN = FieldDescriptorProto_Label_Label_MIN
const Label
Label_MAX = FieldDescriptorProto_Label_Label_MAX
const int
Label_ARRAYSIZE = FieldDescriptorProto_Label_Label_ARRAYSIZE
const int
kNameFieldNumber = 1
const int
kNumberFieldNumber = 3
const int
kLabelFieldNumber = 4
const int
kTypeFieldNumber = 5
const int
kTypeNameFieldNumber = 6
const int
kExtendeeFieldNumber = 2
const int
kDefaultValueFieldNumber = 7
const int
kOptionsFieldNumber = 8
FieldDescriptorProto()
virtual
~FieldDescriptorProto()
FieldDescriptorProto(const FieldDescriptorProto & from)
FieldDescriptorProto &
operator=(const FieldDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(FieldDescriptorProto * other)
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
bool
has_number() const
optional int32 number = 3;
void
clear_number()
int32
number() const
void
set_number(int32 value)
bool
has_label() const
optional .google.protobuf.FieldDescriptorProto.Label label = 4;
void
clear_label()
FieldDescriptorProto_Label
label() const
void
set_label(FieldDescriptorProto_Label value)
bool
has_type() const
optional .google.protobuf.FieldDescriptorProto.Type type = 5;
void
clear_type()
FieldDescriptorProto_Type
type() const
void
set_type(FieldDescriptorProto_Type value)
bool
has_type_name() const
optional string type_name = 6;
void
clear_type_name()
const ::std::string &
type_name() const
void
set_type_name(const ::std::string & value)
void
set_type_name(const char * value)
void
set_type_name(const char * value, size_t size)
inline::std::string *
mutable_type_name()
inline::std::string *
release_type_name()
void
set_allocated_type_name(::std::string * type_name)
bool
has_extendee() const
optional string extendee = 2;
void
clear_extendee()
const ::std::string &
extendee() const
void
set_extendee(const ::std::string & value)
void
set_extendee(const char * value)
void
set_extendee(const char * value, size_t size)
inline::std::string *
mutable_extendee()
inline::std::string *
release_extendee()
void
set_allocated_extendee(::std::string * extendee)
bool
has_default_value() const
optional string default_value = 7;
void
clear_default_value()
const ::std::string &
default_value() const
void
set_default_value(const ::std::string & value)
void
set_default_value(const char * value)
void
set_default_value(const char * value, size_t size)
inline::std::string *
mutable_default_value()
inline::std::string *
release_default_value()
void
set_allocated_default_value(::std::string * default_value)
bool
has_options() const
optional .google.protobuf.FieldOptions options = 8;
void
clear_options()
const FieldOptions &
options() const
FieldOptions *
mutable_options()
FieldOptions *
release_options()
void
set_allocated_options(FieldOptions * options)
static const Descriptor *
descriptor()
static const FieldDescriptorProto &
default_instance()
static bool
Type_IsValid(int value)
static const EnumDescriptor *
Type_descriptor()
static const ::std::string &
Type_Name(Type value)
static bool
Type_Parse(const ::std::string & name, Type * value)
static bool
Label_IsValid(int value)
static const EnumDescriptor *
Label_descriptor()
static const ::std::string &
Label_Name(Label value)
static bool
Label_Parse(const ::std::string & name, Label * value)

implements Message

virtual FieldDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const FieldDescriptorProto & from)
void
MergeFrom(const FieldDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual FieldDescriptorProto *
    FieldDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void FieldDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void FieldDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void FieldDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int FieldDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool FieldDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void FieldDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * FieldDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int FieldDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata FieldDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class EnumDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNameFieldNumber = 1
const int
kValueFieldNumber = 2
const int
kOptionsFieldNumber = 3
EnumDescriptorProto()
virtual
~EnumDescriptorProto()
EnumDescriptorProto(const EnumDescriptorProto & from)
EnumDescriptorProto &
operator=(const EnumDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(EnumDescriptorProto * other)
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
int
value_size() const
void
clear_value()
const EnumValueDescriptorProto &
value(int index) const
EnumValueDescriptorProto *
mutable_value(int index)
EnumValueDescriptorProto *
add_value()
const RepeatedPtrField< EnumValueDescriptorProto > &
value() const
RepeatedPtrField< EnumValueDescriptorProto > *
mutable_value()
bool
has_options() const
optional .google.protobuf.EnumOptions options = 3;
void
clear_options()
const EnumOptions &
options() const
EnumOptions *
mutable_options()
EnumOptions *
release_options()
void
set_allocated_options(EnumOptions * options)
static const Descriptor *
descriptor()
static const EnumDescriptorProto &
default_instance()

implements Message

virtual EnumDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const EnumDescriptorProto & from)
void
MergeFrom(const EnumDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual EnumDescriptorProto *
    EnumDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void EnumDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void EnumDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void EnumDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int EnumDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool EnumDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void EnumDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * EnumDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int EnumDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata EnumDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class EnumValueDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNameFieldNumber = 1
const int
kNumberFieldNumber = 2
const int
kOptionsFieldNumber = 3
EnumValueDescriptorProto()
virtual
~EnumValueDescriptorProto()
EnumValueDescriptorProto(const EnumValueDescriptorProto & from)
EnumValueDescriptorProto &
operator=(const EnumValueDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
bool
has_number() const
optional int32 number = 2;
void
clear_number()
int32
number() const
void
set_number(int32 value)
bool
has_options() const
optional .google.protobuf.EnumValueOptions options = 3;
void
clear_options()
const EnumValueOptions &
options() const
EnumValueOptions *
mutable_options()
EnumValueOptions *
release_options()
void
set_allocated_options(EnumValueOptions * options)
static const Descriptor *
descriptor()
static const EnumValueDescriptorProto &
default_instance()

implements Message

virtual EnumValueDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const EnumValueDescriptorProto & from)
void
MergeFrom(const EnumValueDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual EnumValueDescriptorProto *
    EnumValueDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void EnumValueDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void EnumValueDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void EnumValueDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int EnumValueDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool EnumValueDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void EnumValueDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * EnumValueDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int EnumValueDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata EnumValueDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class ServiceDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNameFieldNumber = 1
const int
kMethodFieldNumber = 2
const int
kOptionsFieldNumber = 3
ServiceDescriptorProto()
virtual
~ServiceDescriptorProto()
ServiceDescriptorProto(const ServiceDescriptorProto & from)
ServiceDescriptorProto &
operator=(const ServiceDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
int
method_size() const
void
clear_method()
const MethodDescriptorProto &
method(int index) const
MethodDescriptorProto *
mutable_method(int index)
MethodDescriptorProto *
add_method()
const RepeatedPtrField< MethodDescriptorProto > &
method() const
RepeatedPtrField< MethodDescriptorProto > *
mutable_method()
bool
has_options() const
optional .google.protobuf.ServiceOptions options = 3;
void
clear_options()
const ServiceOptions &
options() const
ServiceOptions *
mutable_options()
ServiceOptions *
release_options()
void
set_allocated_options(ServiceOptions * options)
static const Descriptor *
descriptor()
static const ServiceDescriptorProto &
default_instance()

implements Message

virtual ServiceDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const ServiceDescriptorProto & from)
void
MergeFrom(const ServiceDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual ServiceDescriptorProto *
    ServiceDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void ServiceDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void ServiceDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void ServiceDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int ServiceDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool ServiceDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void ServiceDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * ServiceDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int ServiceDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata ServiceDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class MethodDescriptorProto: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNameFieldNumber = 1
const int
kInputTypeFieldNumber = 2
const int
kOutputTypeFieldNumber = 3
const int
kOptionsFieldNumber = 4
MethodDescriptorProto()
virtual
~MethodDescriptorProto()
MethodDescriptorProto(const MethodDescriptorProto & from)
MethodDescriptorProto &
operator=(const MethodDescriptorProto & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(MethodDescriptorProto * other)
bool
has_name() const
optional string name = 1;
void
clear_name()
const ::std::string &
name() const
void
set_name(const ::std::string & value)
void
set_name(const char * value)
void
set_name(const char * value, size_t size)
inline::std::string *
mutable_name()
inline::std::string *
release_name()
void
set_allocated_name(::std::string * name)
bool
has_input_type() const
optional string input_type = 2;
void
clear_input_type()
const ::std::string &
input_type() const
void
set_input_type(const ::std::string & value)
void
set_input_type(const char * value)
void
set_input_type(const char * value, size_t size)
inline::std::string *
mutable_input_type()
inline::std::string *
release_input_type()
void
set_allocated_input_type(::std::string * input_type)
bool
has_output_type() const
optional string output_type = 3;
void
clear_output_type()
const ::std::string &
output_type() const
void
set_output_type(const ::std::string & value)
void
set_output_type(const char * value)
void
set_output_type(const char * value, size_t size)
inline::std::string *
mutable_output_type()
inline::std::string *
release_output_type()
void
set_allocated_output_type(::std::string * output_type)
bool
has_options() const
optional .google.protobuf.MethodOptions options = 4;
void
clear_options()
const MethodOptions &
options() const
MethodOptions *
mutable_options()
MethodOptions *
release_options()
void
set_allocated_options(MethodOptions * options)
static const Descriptor *
descriptor()
static const MethodDescriptorProto &
default_instance()

implements Message

virtual MethodDescriptorProto *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const MethodDescriptorProto & from)
void
MergeFrom(const MethodDescriptorProto & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual MethodDescriptorProto *
    MethodDescriptorProto::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void MethodDescriptorProto::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void MethodDescriptorProto::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void MethodDescriptorProto::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int MethodDescriptorProto::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool MethodDescriptorProto::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void MethodDescriptorProto::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * MethodDescriptorProto::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int MethodDescriptorProto::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata MethodDescriptorProto::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class FileOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
FileOptions_OptimizeMode OptimizeMode
const OptimizeMode
SPEED = FileOptions_OptimizeMode_SPEED
const OptimizeMode
CODE_SIZE = FileOptions_OptimizeMode_CODE_SIZE
const OptimizeMode
LITE_RUNTIME = FileOptions_OptimizeMode_LITE_RUNTIME
const OptimizeMode
OptimizeMode_MIN = FileOptions_OptimizeMode_OptimizeMode_MIN
const OptimizeMode
OptimizeMode_MAX = FileOptions_OptimizeMode_OptimizeMode_MAX
const int
OptimizeMode_ARRAYSIZE = FileOptions_OptimizeMode_OptimizeMode_ARRAYSIZE
const int
kJavaPackageFieldNumber = 1
const int
kJavaOuterClassnameFieldNumber = 8
const int
kJavaMultipleFilesFieldNumber = 10
const int
kJavaGenerateEqualsAndHashFieldNumber = 20
const int
kOptimizeForFieldNumber = 9
const int
kGoPackageFieldNumber = 11
const int
kCcGenericServicesFieldNumber = 16
const int
kJavaGenericServicesFieldNumber = 17
const int
kPyGenericServicesFieldNumber = 18
const int
kUninterpretedOptionFieldNumber = 999
FileOptions()
virtual
~FileOptions()
FileOptions(const FileOptions & from)
FileOptions &
operator=(const FileOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(FileOptions * other)
bool
has_java_package() const
optional string java_package = 1;
void
clear_java_package()
const ::std::string &
java_package() const
void
set_java_package(const ::std::string & value)
void
set_java_package(const char * value)
void
set_java_package(const char * value, size_t size)
inline::std::string *
mutable_java_package()
inline::std::string *
release_java_package()
void
set_allocated_java_package(::std::string * java_package)
bool
has_java_outer_classname() const
optional string java_outer_classname = 8;
void
clear_java_outer_classname()
const ::std::string &
java_outer_classname() const
void
set_java_outer_classname(const ::std::string & value)
void
set_java_outer_classname(const char * value)
void
set_java_outer_classname(const char * value, size_t size)
inline::std::string *
mutable_java_outer_classname()
inline::std::string *
release_java_outer_classname()
void
set_allocated_java_outer_classname(::std::string * java_outer_classname)
bool
has_java_multiple_files() const
optional bool java_multiple_files = 10 [[]default = false];
void
clear_java_multiple_files()
bool
java_multiple_files() const
void
set_java_multiple_files(bool value)
bool
has_java_generate_equals_and_hash() const
optional bool java_generate_equals_and_hash = 20 [[]default = false];
void
clear_java_generate_equals_and_hash()
bool
java_generate_equals_and_hash() const
void
set_java_generate_equals_and_hash(bool value)
bool
has_optimize_for() const
optional .google.protobuf.FileOptions.OptimizeMode optimize_for = 9 [[]default = SPEED];
void
clear_optimize_for()
FileOptions_OptimizeMode
optimize_for() const
void
set_optimize_for(FileOptions_OptimizeMode value)
bool
has_go_package() const
optional string go_package = 11;
void
clear_go_package()
const ::std::string &
go_package() const
void
set_go_package(const ::std::string & value)
void
set_go_package(const char * value)
void
set_go_package(const char * value, size_t size)
inline::std::string *
mutable_go_package()
inline::std::string *
release_go_package()
void
set_allocated_go_package(::std::string * go_package)
bool
has_cc_generic_services() const
optional bool cc_generic_services = 16 [[]default = false];
void
clear_cc_generic_services()
bool
cc_generic_services() const
void
set_cc_generic_services(bool value)
bool
has_java_generic_services() const
optional bool java_generic_services = 17 [[]default = false];
void
clear_java_generic_services()
bool
java_generic_services() const
void
set_java_generic_services(bool value)
bool
has_py_generic_services() const
optional bool py_generic_services = 18 [[]default = false];
void
clear_py_generic_services()
bool
py_generic_services() const
void
set_py_generic_services(bool value)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const FileOptions &
default_instance()
static bool
OptimizeMode_IsValid(int value)
static const EnumDescriptor *
OptimizeMode_descriptor()
static const ::std::string &
OptimizeMode_Name(OptimizeMode value)
static bool
OptimizeMode_Parse(const ::std::string & name, OptimizeMode * value)

implements Message

virtual FileOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const FileOptions & from)
void
MergeFrom(const FileOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual FileOptions * FileOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void FileOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void FileOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void FileOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int FileOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool FileOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void FileOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * FileOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int FileOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata FileOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class MessageOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kMessageSetWireFormatFieldNumber = 1
const int
kNoStandardDescriptorAccessorFieldNumber = 2
const int
kUninterpretedOptionFieldNumber = 999
MessageOptions()
virtual
~MessageOptions()
MessageOptions(const MessageOptions & from)
MessageOptions &
operator=(const MessageOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(MessageOptions * other)
bool
has_message_set_wire_format() const
optional bool message_set_wire_format = 1 [[]default = false];
void
clear_message_set_wire_format()
bool
message_set_wire_format() const
void
set_message_set_wire_format(bool value)
bool
has_no_standard_descriptor_accessor() const
optional bool no_standard_descriptor_accessor = 2 [[]default = false];
void
clear_no_standard_descriptor_accessor()
bool
no_standard_descriptor_accessor() const
void
set_no_standard_descriptor_accessor(bool value)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const MessageOptions &
default_instance()

implements Message

virtual MessageOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const MessageOptions & from)
void
MergeFrom(const MessageOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual MessageOptions * MessageOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void MessageOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void MessageOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void MessageOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int MessageOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool MessageOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void MessageOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * MessageOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int MessageOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata MessageOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class FieldOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
FieldOptions_CType CType
const CType
STRING = FieldOptions_CType_STRING
const CType
CORD = FieldOptions_CType_CORD
const CType
STRING_PIECE = FieldOptions_CType_STRING_PIECE
const CType
CType_MIN = FieldOptions_CType_CType_MIN
const CType
CType_MAX = FieldOptions_CType_CType_MAX
const int
CType_ARRAYSIZE = FieldOptions_CType_CType_ARRAYSIZE
const int
kCtypeFieldNumber = 1
const int
kPackedFieldNumber = 2
const int
kLazyFieldNumber = 5
const int
kDeprecatedFieldNumber = 3
const int
kExperimentalMapKeyFieldNumber = 9
const int
kWeakFieldNumber = 10
const int
kUninterpretedOptionFieldNumber = 999
FieldOptions()
virtual
~FieldOptions()
FieldOptions(const FieldOptions & from)
FieldOptions &
operator=(const FieldOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(FieldOptions * other)
bool
has_ctype() const
optional .google.protobuf.FieldOptions.CType ctype = 1 [[]default = STRING];
void
clear_ctype()
FieldOptions_CType
ctype() const
void
set_ctype(FieldOptions_CType value)
bool
has_packed() const
optional bool packed = 2;
void
clear_packed()
bool
packed() const
void
set_packed(bool value)
bool
has_lazy() const
optional bool lazy = 5 [[]default = false];
void
clear_lazy()
bool
lazy() const
void
set_lazy(bool value)
bool
has_deprecated() const
optional bool deprecated = 3 [[]default = false];
void
clear_deprecated()
bool
deprecated() const
void
set_deprecated(bool value)
bool
has_experimental_map_key() const
optional string experimental_map_key = 9;
void
clear_experimental_map_key()
const ::std::string &
experimental_map_key() const
void
set_experimental_map_key(const ::std::string & value)
void
set_experimental_map_key(const char * value)
void
set_experimental_map_key(const char * value, size_t size)
inline::std::string *
mutable_experimental_map_key()
inline::std::string *
release_experimental_map_key()
void
set_allocated_experimental_map_key(::std::string * experimental_map_key)
bool
has_weak() const
optional bool weak = 10 [[]default = false];
void
clear_weak()
bool
weak() const
void
set_weak(bool value)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const FieldOptions &
default_instance()
static bool
CType_IsValid(int value)
static const EnumDescriptor *
CType_descriptor()
static const ::std::string &
CType_Name(CType value)
static bool
CType_Parse(const ::std::string & name, CType * value)

implements Message

virtual FieldOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const FieldOptions & from)
void
MergeFrom(const FieldOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual FieldOptions * FieldOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void FieldOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void FieldOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void FieldOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int FieldOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool FieldOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void FieldOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * FieldOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int FieldOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata FieldOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class EnumOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kAllowAliasFieldNumber = 2
const int
kUninterpretedOptionFieldNumber = 999
EnumOptions()
virtual
~EnumOptions()
EnumOptions(const EnumOptions & from)
EnumOptions &
operator=(const EnumOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(EnumOptions * other)
bool
has_allow_alias() const
optional bool allow_alias = 2 [[]default = true];
void
clear_allow_alias()
bool
allow_alias() const
void
set_allow_alias(bool value)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const EnumOptions &
default_instance()

implements Message

virtual EnumOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const EnumOptions & from)
void
MergeFrom(const EnumOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual EnumOptions * EnumOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void EnumOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void EnumOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void EnumOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int EnumOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool EnumOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void EnumOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * EnumOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int EnumOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata EnumOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class EnumValueOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kUninterpretedOptionFieldNumber = 999
EnumValueOptions()
virtual
~EnumValueOptions()
EnumValueOptions(const EnumValueOptions & from)
EnumValueOptions &
operator=(const EnumValueOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(EnumValueOptions * other)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const EnumValueOptions &
default_instance()

implements Message

virtual EnumValueOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const EnumValueOptions & from)
void
MergeFrom(const EnumValueOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual EnumValueOptions *
    EnumValueOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void EnumValueOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void EnumValueOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void EnumValueOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int EnumValueOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool EnumValueOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void EnumValueOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * EnumValueOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int EnumValueOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata EnumValueOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class ServiceOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kUninterpretedOptionFieldNumber = 999
ServiceOptions()
virtual
~ServiceOptions()
ServiceOptions(const ServiceOptions & from)
ServiceOptions &
operator=(const ServiceOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(ServiceOptions * other)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const ServiceOptions &
default_instance()

implements Message

virtual ServiceOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const ServiceOptions & from)
void
MergeFrom(const ServiceOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual ServiceOptions * ServiceOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void ServiceOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void ServiceOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void ServiceOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int ServiceOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool ServiceOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void ServiceOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * ServiceOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int ServiceOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata ServiceOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class MethodOptions: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kUninterpretedOptionFieldNumber = 999
MethodOptions()
virtual
~MethodOptions()
MethodOptions(const MethodOptions & from)
MethodOptions &
operator=(const MethodOptions & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(MethodOptions * other)
int
uninterpreted_option_size() const
repeated .google.protobuf.UninterpretedOption uninterpreted_option = 999;
void
clear_uninterpreted_option()
const UninterpretedOption &
uninterpreted_option(int index) const
UninterpretedOption *
mutable_uninterpreted_option(int index)
UninterpretedOption *
add_uninterpreted_option()
const RepeatedPtrField< UninterpretedOption > &
uninterpreted_option() const
RepeatedPtrField< UninterpretedOption > *
mutable_uninterpreted_option()
static const Descriptor *
descriptor()
static const MethodOptions &
default_instance()

implements Message

virtual MethodOptions *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const MethodOptions & from)
void
MergeFrom(const MethodOptions & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual MethodOptions * MethodOptions::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void MethodOptions::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void MethodOptions::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void MethodOptions::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int MethodOptions::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool MethodOptions::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void MethodOptions::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * MethodOptions::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int MethodOptions::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata MethodOptions::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class UninterpretedOption_NamePart: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kNamePartFieldNumber = 1
const int
kIsExtensionFieldNumber = 2
UninterpretedOption_NamePart()
virtual
~UninterpretedOption_NamePart()
UninterpretedOption_NamePart(const UninterpretedOption_NamePart & from)
UninterpretedOption_NamePart &
operator=(const UninterpretedOption_NamePart & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
bool
has_name_part() const
required string name_part = 1;
void
clear_name_part()
const ::std::string &
name_part() const
void
set_name_part(const ::std::string & value)
void
set_name_part(const char * value)
void
set_name_part(const char * value, size_t size)
inline::std::string *
mutable_name_part()
inline::std::string *
release_name_part()
void
set_allocated_name_part(::std::string * name_part)
bool
has_is_extension() const
required bool is_extension = 2;
void
clear_is_extension()
bool
is_extension() const
void
set_is_extension(bool value)
static const Descriptor *
descriptor()
static const UninterpretedOption_NamePart &
default_instance()

implements Message

virtual UninterpretedOption_NamePart *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const UninterpretedOption_NamePart & from)
void
MergeFrom(const UninterpretedOption_NamePart & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual UninterpretedOption_NamePart *
    UninterpretedOption_NamePart::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void UninterpretedOption_NamePart::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void UninterpretedOption_NamePart::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void UninterpretedOption_NamePart::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int UninterpretedOption_NamePart::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool UninterpretedOption_NamePart::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void UninterpretedOption_NamePart::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * UninterpretedOption_NamePart::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int UninterpretedOption_NamePart::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata UninterpretedOption_NamePart::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class UninterpretedOption: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
const int
kNameFieldNumber = 2
const int
kIdentifierValueFieldNumber = 3
const int
kPositiveIntValueFieldNumber = 4
const int
kNegativeIntValueFieldNumber = 5
const int
kDoubleValueFieldNumber = 6
const int
kStringValueFieldNumber = 7
const int
kAggregateValueFieldNumber = 8
UninterpretedOption()
virtual
~UninterpretedOption()
UninterpretedOption(const UninterpretedOption & from)
UninterpretedOption &
operator=(const UninterpretedOption & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(UninterpretedOption * other)
int
name_size() const
repeated .google.protobuf.UninterpretedOption.NamePart name = 2;
void
clear_name()
const UninterpretedOption_NamePart &
name(int index) const
UninterpretedOption_NamePart *
mutable_name(int index)
UninterpretedOption_NamePart *
add_name()
const RepeatedPtrField< UninterpretedOption_NamePart > &
name() const
RepeatedPtrField< UninterpretedOption_NamePart > *
mutable_name()
bool
has_identifier_value() const
optional string identifier_value = 3;
void
clear_identifier_value()
const ::std::string &
identifier_value() const
void
set_identifier_value(const ::std::string & value)
void
set_identifier_value(const char * value)
void
set_identifier_value(const char * value, size_t size)
inline::std::string *
mutable_identifier_value()
inline::std::string *
release_identifier_value()
void
set_allocated_identifier_value(::std::string * identifier_value)
bool
has_positive_int_value() const
optional uint64 positive_int_value = 4;
void
clear_positive_int_value()
uint64
positive_int_value() const
void
set_positive_int_value(uint64 value)
bool
has_negative_int_value() const
optional int64 negative_int_value = 5;
void
clear_negative_int_value()
int64
negative_int_value() const
void
set_negative_int_value(int64 value)
bool
has_double_value() const
optional double double_value = 6;
void
clear_double_value()
double
double_value() const
void
set_double_value(double value)
bool
has_string_value() const
optional bytes string_value = 7;
void
clear_string_value()
const ::std::string &
string_value() const
void
set_string_value(const ::std::string & value)
void
set_string_value(const char * value)
void
set_string_value(const void * value, size_t size)
inline::std::string *
mutable_string_value()
inline::std::string *
release_string_value()
void
set_allocated_string_value(::std::string * string_value)
bool
has_aggregate_value() const
optional string aggregate_value = 8;
void
clear_aggregate_value()
const ::std::string &
aggregate_value() const
void
set_aggregate_value(const ::std::string & value)
void
set_aggregate_value(const char * value)
void
set_aggregate_value(const char * value, size_t size)
inline::std::string *
mutable_aggregate_value()
inline::std::string *
release_aggregate_value()
void
set_allocated_aggregate_value(::std::string * aggregate_value)
static const Descriptor *
descriptor()
static const UninterpretedOption &
default_instance()

implements Message

virtual UninterpretedOption *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const UninterpretedOption & from)
void
MergeFrom(const UninterpretedOption & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual UninterpretedOption *
    UninterpretedOption::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void UninterpretedOption::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void UninterpretedOption::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void UninterpretedOption::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int UninterpretedOption::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool UninterpretedOption::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void UninterpretedOption::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * UninterpretedOption::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int UninterpretedOption::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata UninterpretedOption::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class SourceCodeInfo_Location: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

const int
kPathFieldNumber = 1
const int
kSpanFieldNumber = 2
const int
kLeadingCommentsFieldNumber = 3
const int
kTrailingCommentsFieldNumber = 4
SourceCodeInfo_Location()
virtual
~SourceCodeInfo_Location()
SourceCodeInfo_Location(const SourceCodeInfo_Location & from)
SourceCodeInfo_Location &
operator=(const SourceCodeInfo_Location & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
int
path_size() const
repeated int32 path = 1 [[]packed = true];
void
clear_path()
int32
path(int index) const
void
set_path(int index, int32 value)
void
add_path(int32 value)
const RepeatedField< int32 > &
path() const
RepeatedField< int32 > *
mutable_path()
int
span_size() const
repeated int32 span = 2 [[]packed = true];
void
clear_span()
int32
span(int index) const
void
set_span(int index, int32 value)
void
add_span(int32 value)
const RepeatedField< int32 > &
span() const
RepeatedField< int32 > *
mutable_span()
bool
has_leading_comments() const
optional string leading_comments = 3;
void
clear_leading_comments()
const ::std::string &
leading_comments() const
void
set_leading_comments(const ::std::string & value)
void
set_leading_comments(const char * value)
void
set_leading_comments(const char * value, size_t size)
inline::std::string *
mutable_leading_comments()
inline::std::string *
release_leading_comments()
void
set_allocated_leading_comments(::std::string * leading_comments)
bool
has_trailing_comments() const
optional string trailing_comments = 4;
void
clear_trailing_comments()
const ::std::string &
trailing_comments() const
void
set_trailing_comments(const ::std::string & value)
void
set_trailing_comments(const char * value)
void
set_trailing_comments(const char * value, size_t size)
inline::std::string *
mutable_trailing_comments()
inline::std::string *
release_trailing_comments()
void
set_allocated_trailing_comments(::std::string * trailing_comments)
static const Descriptor *
descriptor()
static const SourceCodeInfo_Location &
default_instance()

implements Message

virtual SourceCodeInfo_Location *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const SourceCodeInfo_Location & from)
void
MergeFrom(const SourceCodeInfo_Location & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual SourceCodeInfo_Location *
    SourceCodeInfo_Location::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void SourceCodeInfo_Location::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void SourceCodeInfo_Location::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void SourceCodeInfo_Location::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int SourceCodeInfo_Location::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool SourceCodeInfo_Location::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void SourceCodeInfo_Location::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * SourceCodeInfo_Location::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int SourceCodeInfo_Location::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata SourceCodeInfo_Location::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

class SourceCodeInfo: public Message

#include <google/protobuf/descriptor.pb.h>
namespace google::protobuf

See the docs for descriptor.pb.h for more information about this class.

Members

typedef
const int
kLocationFieldNumber = 1
SourceCodeInfo()
virtual
~SourceCodeInfo()
SourceCodeInfo(const SourceCodeInfo & from)
SourceCodeInfo &
operator=(const SourceCodeInfo & from)
const UnknownFieldSet &
unknown_fields() const
UnknownFieldSet *
mutable_unknown_fields()
void
Swap(SourceCodeInfo * other)
int
location_size() const
repeated .google.protobuf.SourceCodeInfo.Location location = 1;
void
clear_location()
const SourceCodeInfo_Location &
location(int index) const
SourceCodeInfo_Location *
mutable_location(int index)
SourceCodeInfo_Location *
add_location()
const RepeatedPtrField< SourceCodeInfo_Location > &
location() const
RepeatedPtrField< SourceCodeInfo_Location > *
mutable_location()
static const Descriptor *
descriptor()
static const SourceCodeInfo &
default_instance()

implements Message

virtual SourceCodeInfo *
New() const
Construct a new instance of the same type. more...
virtual void
CopyFrom(const Message & from)
Make this message into a copy of the given message. more...
virtual void
MergeFrom(const Message & from)
Merge the fields from the given message into this message. more...
void
CopyFrom(const SourceCodeInfo & from)
void
MergeFrom(const SourceCodeInfo & from)
virtual void
Clear()
Clear all fields of the message and set them to their default values. more...
virtual bool
IsInitialized() const
Quickly check if all required fields have values set.
virtual int
ByteSize() const
Computes the serialized size of the message. more...
virtual bool
MergePartialFromCodedStream(io::CodedInputStream * input)
Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input. more...
virtual void
SerializeWithCachedSizes(io::CodedOutputStream * output) const
Serializes the message without recomputing the size. more...
virtual uint8 *
SerializeWithCachedSizesToArray(uint8 * target) const
Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written. more...
virtual int
GetCachedSize() const
Returns the result of the last call to ByteSize(). more...
virtual Metadata
GetMetadata() const
Get a struct containing the metadata for the Message. more...

virtual SourceCodeInfo * SourceCodeInfo::New() const

Construct a new instance of the same type.

Ownership is passed to the caller. (This is also defined in MessageLite, but is defined again here for return-type covariance.)


virtual void SourceCodeInfo::CopyFrom(
        const Message & from)

Make this message into a copy of the given message.

The given message must have the same descriptor, but need not necessarily be the same class. By default this is just implemented as "Clear(); MergeFrom(from);".


virtual void SourceCodeInfo::MergeFrom(
        const Message & from)

Merge the fields from the given message into this message.

Singular fields will be overwritten, except for embedded messages which will be merged. Repeated fields will be concatenated. The given message must be of the same type as this message (i.e. the exact same class).


virtual void SourceCodeInfo::Clear()

Clear all fields of the message and set them to their default values.

Clear() avoids freeing memory, assuming that any memory allocated to hold parts of the message will be needed again to hold the next message. If you actually want to free the memory used by a Message, you must delete it.


virtual int SourceCodeInfo::ByteSize() const

Computes the serialized size of the message.

This recursively calls ByteSize() on all embedded messages. If a subclass does not override this, it MUST override SetCachedSize().


virtual bool SourceCodeInfo::MergePartialFromCodedStream(
        io::CodedInputStream * input)

Like MergeFromCodedStream(), but succeeds even if required fields are missing in the input.

MergeFromCodedStream() is just implemented as MergePartialFromCodedStream() followed by IsInitialized().


virtual void SourceCodeInfo::SerializeWithCachedSizes(
        io::CodedOutputStream * output) const

Serializes the message without recomputing the size.

The message must not have changed since the last call to ByteSize(); if it has, the results are undefined.


virtual uint8 * SourceCodeInfo::SerializeWithCachedSizesToArray(
        uint8 * target) const

Like SerializeWithCachedSizes, but writes directly to *target, returning a pointer to the byte immediately after the last byte written.

"target" must point at a byte array of at least ByteSize() bytes.


virtual int SourceCodeInfo::GetCachedSize() const

Returns the result of the last call to ByteSize().

An embedded message's size is needed both to serialize it (because embedded messages are length-delimited) and to compute the outer message's size. Caching the size avoids computing it multiple times.

ByteSize() does not automatically use the cached size when available because this would require invalidating it every time the message was modified, which would be too hard and expensive. (E.g. if a deeply-nested sub-message is changed, all of its parents' cached sizes would need to be invalidated, which is too much work for an otherwise inlined setter method.)


virtual Metadata SourceCodeInfo::GetMetadata() const

Get a struct containing the metadata for the Message.

Most subclasses only need to implement this method, rather than the GetDescriptor() and GetReflection() wrappers.

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