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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 | // Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
// Author: kenton@google.com (Kenton Varda)
// Based on original Protocol Buffers design by
// Sanjay Ghemawat, Jeff Dean, and others.
//
// This file contains classes which describe a type of protocol message.
// You can use a message's descriptor to learn at runtime what fields
// it contains and what the types of those fields are. The Message
// interface also allows you to dynamically access and modify individual
// fields by passing the FieldDescriptor of the field you are interested
// in.
//
// Most users will not care about descriptors, because they will write
// code specific to certain protocol types and will simply use the classes
// generated by the protocol compiler directly. Advanced users who want
// to operate on arbitrary types (not known at compile time) may want to
// read descriptors in order to learn about the contents of a message.
// A very small number of users will want to construct their own
// Descriptors, either because they are implementing Message manually or
// because they are writing something like the protocol compiler.
//
// For an example of how you might use descriptors, see the code example
// at the top of message.h.
#ifndef GOOGLE_PROTOBUF_DESCRIPTOR_H__
#define GOOGLE_PROTOBUF_DESCRIPTOR_H__
#include <memory>
#ifndef _SHARED_PTR_H
#include <google/protobuf/stubs/shared_ptr.h>
#endif
#include <set>
#include <string>
#include <vector>
#include <google/protobuf/stubs/common.h>
// TYPE_BOOL is defined in the MacOS's ConditionalMacros.h.
#ifdef TYPE_BOOL
#undef TYPE_BOOL
#endif // TYPE_BOOL
namespace google {
namespace protobuf {
// Defined in this file.
class Descriptor;
class FieldDescriptor;
class OneofDescriptor;
class EnumDescriptor;
class EnumValueDescriptor;
class ServiceDescriptor;
class MethodDescriptor;
class FileDescriptor;
class DescriptorDatabase;
class DescriptorPool;
// Defined in descriptor.proto
class DescriptorProto;
class FieldDescriptorProto;
class OneofDescriptorProto;
class EnumDescriptorProto;
class EnumValueDescriptorProto;
class ServiceDescriptorProto;
class MethodDescriptorProto;
class FileDescriptorProto;
class MessageOptions;
class FieldOptions;
class OneofOptions;
class EnumOptions;
class EnumValueOptions;
class ServiceOptions;
class MethodOptions;
class FileOptions;
class UninterpretedOption;
class SourceCodeInfo;
// Defined in message.h
class Message;
// Defined in descriptor.cc
class DescriptorBuilder;
class FileDescriptorTables;
// Defined in unknown_field_set.h.
class UnknownField;
// Defined in generated_message_reflection.h.
namespace internal {
class GeneratedMessageReflection;
} // namespace internal
// Defined in command_line_interface.cc
namespace compiler {
class CommandLineInterface;
} // namespace compiler
namespace descriptor_unittest {
class DescriptorTest;
} // namespace descriptor_unittest
// Defined in printer.h
namespace io {
class Printer;
} // namespace io
// NB, all indices are zero-based.
struct SourceLocation {
int start_line;
int end_line;
int start_column;
int end_column;
// Doc comments found at the source location.
// See the comments in SourceCodeInfo.Location (descriptor.proto) for details.
string leading_comments;
string trailing_comments;
vector<string> leading_detached_comments;
};
// Options when generating machine-parsable output from a descriptor with
// DebugString().
struct DebugStringOptions {
// include original user comments as recorded in SourceLocation entries. N.B.
// that this must be |false| by default: several other pieces of code (for
// example, the C++ code generation for fields in the proto compiler) rely on
// DebugString() output being unobstructed by user comments.
bool include_comments;
// If true, elide the braced body in the debug string.
bool elide_group_body;
bool elide_oneof_body;
DebugStringOptions()
: include_comments(false),
elide_group_body(false),
elide_oneof_body(false) {}
};
// Describes a type of protocol message, or a particular group within a
// message. To obtain the Descriptor for a given message object, call
// Message::GetDescriptor(). Generated message classes also have a
// static method called descriptor() which returns the type's descriptor.
// Use DescriptorPool to construct your own descriptors.
class LIBPROTOBUF_EXPORT Descriptor {
public:
// The name of the message type, not including its scope.
const string& name() const;
// The fully-qualified name of the message type, scope delimited by
// periods. For example, message type "Foo" which is declared in package
// "bar" has full name "bar.Foo". If a type "Baz" is nested within
// Foo, Baz's full_name is "bar.Foo.Baz". To get only the part that
// comes after the last '.', use name().
const string& full_name() const;
// Index of this descriptor within the file or containing type's message
// type array.
int index() const;
// The .proto file in which this message type was defined. Never NULL.
const FileDescriptor* file() const;
// If this Descriptor describes a nested type, this returns the type
// in which it is nested. Otherwise, returns NULL.
const Descriptor* containing_type() const;
// Get options for this message type. These are specified in the .proto file
// by placing lines like "option foo = 1234;" in the message definition.
// Allowed options are defined by MessageOptions in
// google/protobuf/descriptor.proto, and any available extensions of that
// message.
const MessageOptions& options() const;
// Write the contents of this Descriptor into the given DescriptorProto.
// The target DescriptorProto must be clear before calling this; if it
// isn't, the result may be garbage.
void CopyTo(DescriptorProto* proto) const;
// Write the contents of this decriptor in a human-readable form. Output
// will be suitable for re-parsing.
string DebugString() const;
// Similar to DebugString(), but additionally takes options (e.g.,
// include original user comments in output).
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Returns true if this is a placeholder for an unknown type. This will
// only be the case if this descriptor comes from a DescriptorPool
// with AllowUnknownDependencies() set.
bool is_placeholder() const;
// Field stuff -----------------------------------------------------
// The number of fields in this message type.
int field_count() const;
// Gets a field by index, where 0 <= index < field_count().
// These are returned in the order they were defined in the .proto file.
const FieldDescriptor* field(int index) const;
// Looks up a field by declared tag number. Returns NULL if no such field
// exists.
const FieldDescriptor* FindFieldByNumber(int number) const;
// Looks up a field by name. Returns NULL if no such field exists.
const FieldDescriptor* FindFieldByName(const string& name) const;
// Looks up a field by lowercased name (as returned by lowercase_name()).
// This lookup may be ambiguous if multiple field names differ only by case,
// in which case the field returned is chosen arbitrarily from the matches.
const FieldDescriptor* FindFieldByLowercaseName(
const string& lowercase_name) const;
// Looks up a field by camel-case name (as returned by camelcase_name()).
// This lookup may be ambiguous if multiple field names differ in a way that
// leads them to have identical camel-case names, in which case the field
// returned is chosen arbitrarily from the matches.
const FieldDescriptor* FindFieldByCamelcaseName(
const string& camelcase_name) const;
// The number of oneofs in this message type.
int oneof_decl_count() const;
// Get a oneof by index, where 0 <= index < oneof_decl_count().
// These are returned in the order they were defined in the .proto file.
const OneofDescriptor* oneof_decl(int index) const;
// Looks up a oneof by name. Returns NULL if no such oneof exists.
const OneofDescriptor* FindOneofByName(const string& name) const;
// Nested type stuff -----------------------------------------------
// The number of nested types in this message type.
int nested_type_count() const;
// Gets a nested type by index, where 0 <= index < nested_type_count().
// These are returned in the order they were defined in the .proto file.
const Descriptor* nested_type(int index) const;
// Looks up a nested type by name. Returns NULL if no such nested type
// exists.
const Descriptor* FindNestedTypeByName(const string& name) const;
// Enum stuff ------------------------------------------------------
// The number of enum types in this message type.
int enum_type_count() const;
// Gets an enum type by index, where 0 <= index < enum_type_count().
// These are returned in the order they were defined in the .proto file.
const EnumDescriptor* enum_type(int index) const;
// Looks up an enum type by name. Returns NULL if no such enum type exists.
const EnumDescriptor* FindEnumTypeByName(const string& name) const;
// Looks up an enum value by name, among all enum types in this message.
// Returns NULL if no such value exists.
const EnumValueDescriptor* FindEnumValueByName(const string& name) const;
// Extensions ------------------------------------------------------
// A range of field numbers which are designated for third-party
// extensions.
struct ExtensionRange {
int start; // inclusive
int end; // exclusive
};
// The number of extension ranges in this message type.
int extension_range_count() const;
// Gets an extension range by index, where 0 <= index <
// extension_range_count(). These are returned in the order they were defined
// in the .proto file.
const ExtensionRange* extension_range(int index) const;
// Returns true if the number is in one of the extension ranges.
bool IsExtensionNumber(int number) const;
// Returns NULL if no extension range contains the given number.
const ExtensionRange* FindExtensionRangeContainingNumber(int number) const;
// The number of extensions -- extending *other* messages -- that were
// defined nested within this message type's scope.
int extension_count() const;
// Get an extension by index, where 0 <= index < extension_count().
// These are returned in the order they were defined in the .proto file.
const FieldDescriptor* extension(int index) const;
// Looks up a named extension (which extends some *other* message type)
// defined within this message type's scope.
const FieldDescriptor* FindExtensionByName(const string& name) const;
// Similar to FindFieldByLowercaseName(), but finds extensions defined within
// this message type's scope.
const FieldDescriptor* FindExtensionByLowercaseName(const string& name) const;
// Similar to FindFieldByCamelcaseName(), but finds extensions defined within
// this message type's scope.
const FieldDescriptor* FindExtensionByCamelcaseName(const string& name) const;
// Reserved fields -------------------------------------------------
// A range of reserved field numbers.
struct ReservedRange {
int start; // inclusive
int end; // exclusive
};
// The number of reserved ranges in this message type.
int reserved_range_count() const;
// Gets an reserved range by index, where 0 <= index <
// reserved_range_count(). These are returned in the order they were defined
// in the .proto file.
const ReservedRange* reserved_range(int index) const;
// Returns true if the number is in one of the reserved ranges.
bool IsReservedNumber(int number) const;
// Returns NULL if no reserved range contains the given number.
const ReservedRange* FindReservedRangeContainingNumber(int number) const;
// The number of reserved field names in this message type.
int reserved_name_count() const;
// Gets a reserved name by index, where 0 <= index < reserved_name_count().
const string& reserved_name(int index) const;
// Returns true if the field name is reserved.
bool IsReservedName(const string& name) const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this message declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef MessageOptions OptionsType;
// Allows tests to test CopyTo(proto, true).
friend class ::google::protobuf::descriptor_unittest::DescriptorTest;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// Fill the json_name field of FieldDescriptorProto.
void CopyJsonNameTo(DescriptorProto* proto) const;
// Internal version of DebugString; controls the level of indenting for
// correct depth. Takes |options| to control debug-string options, and
// |include_opening_clause| to indicate whether the "message ... " part of the
// clause has already been generated (this varies depending on context).
void DebugString(int depth, string *contents,
const DebugStringOptions& options,
bool include_opening_clause) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const FileDescriptor* file_;
const Descriptor* containing_type_;
const MessageOptions* options_;
// True if this is a placeholder for an unknown type.
bool is_placeholder_;
// True if this is a placeholder and the type name wasn't fully-qualified.
bool is_unqualified_placeholder_;
int field_count_;
FieldDescriptor* fields_;
int oneof_decl_count_;
OneofDescriptor* oneof_decls_;
int nested_type_count_;
Descriptor* nested_types_;
int enum_type_count_;
EnumDescriptor* enum_types_;
int extension_range_count_;
ExtensionRange* extension_ranges_;
int extension_count_;
FieldDescriptor* extensions_;
int reserved_range_count_;
ReservedRange* reserved_ranges_;
int reserved_name_count_;
const string** reserved_names_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<Descriptor>() and AllocateArray<Descriptor>() in descriptor.cc
// and update them to initialize the field.
// Must be constructed using DescriptorPool.
Descriptor() {}
friend class DescriptorBuilder;
friend class EnumDescriptor;
friend class FieldDescriptor;
friend class OneofDescriptor;
friend class MethodDescriptor;
friend class FileDescriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(Descriptor);
};
// Describes a single field of a message. To get the descriptor for a given
// field, first get the Descriptor for the message in which it is defined,
// then call Descriptor::FindFieldByName(). To get a FieldDescriptor for
// an extension, do one of the following:
// - Get the Descriptor or FileDescriptor for its containing scope, then
// call Descriptor::FindExtensionByName() or
// FileDescriptor::FindExtensionByName().
// - Given a DescriptorPool, call DescriptorPool::FindExtensionByNumber().
// - Given a Reflection for a message object, call
// Reflection::FindKnownExtensionByName() or
// Reflection::FindKnownExtensionByNumber().
// Use DescriptorPool to construct your own descriptors.
class LIBPROTOBUF_EXPORT FieldDescriptor {
public:
// Identifies a field type. 0 is reserved for errors. The order is weird
// for historical reasons. Types 12 and up are new in proto2.
enum Type {
TYPE_DOUBLE = 1, // double, exactly eight bytes on the wire.
TYPE_FLOAT = 2, // float, exactly four bytes on the wire.
TYPE_INT64 = 3, // int64, varint on the wire. Negative numbers
// take 10 bytes. Use TYPE_SINT64 if negative
// values are likely.
TYPE_UINT64 = 4, // uint64, varint on the wire.
TYPE_INT32 = 5, // int32, varint on the wire. Negative numbers
// take 10 bytes. Use TYPE_SINT32 if negative
// values are likely.
TYPE_FIXED64 = 6, // uint64, exactly eight bytes on the wire.
TYPE_FIXED32 = 7, // uint32, exactly four bytes on the wire.
TYPE_BOOL = 8, // bool, varint on the wire.
TYPE_STRING = 9, // UTF-8 text.
TYPE_GROUP = 10, // Tag-delimited message. Deprecated.
TYPE_MESSAGE = 11, // Length-delimited message.
TYPE_BYTES = 12, // Arbitrary byte array.
TYPE_UINT32 = 13, // uint32, varint on the wire
TYPE_ENUM = 14, // Enum, varint on the wire
TYPE_SFIXED32 = 15, // int32, exactly four bytes on the wire
TYPE_SFIXED64 = 16, // int64, exactly eight bytes on the wire
TYPE_SINT32 = 17, // int32, ZigZag-encoded varint on the wire
TYPE_SINT64 = 18, // int64, ZigZag-encoded varint on the wire
MAX_TYPE = 18, // Constant useful for defining lookup tables
// indexed by Type.
};
// Specifies the C++ data type used to represent the field. There is a
// fixed mapping from Type to CppType where each Type maps to exactly one
// CppType. 0 is reserved for errors.
enum CppType {
CPPTYPE_INT32 = 1, // TYPE_INT32, TYPE_SINT32, TYPE_SFIXED32
CPPTYPE_INT64 = 2, // TYPE_INT64, TYPE_SINT64, TYPE_SFIXED64
CPPTYPE_UINT32 = 3, // TYPE_UINT32, TYPE_FIXED32
CPPTYPE_UINT64 = 4, // TYPE_UINT64, TYPE_FIXED64
CPPTYPE_DOUBLE = 5, // TYPE_DOUBLE
CPPTYPE_FLOAT = 6, // TYPE_FLOAT
CPPTYPE_BOOL = 7, // TYPE_BOOL
CPPTYPE_ENUM = 8, // TYPE_ENUM
CPPTYPE_STRING = 9, // TYPE_STRING, TYPE_BYTES
CPPTYPE_MESSAGE = 10, // TYPE_MESSAGE, TYPE_GROUP
MAX_CPPTYPE = 10, // Constant useful for defining lookup tables
// indexed by CppType.
};
// Identifies whether the field is optional, required, or repeated. 0 is
// reserved for errors.
enum Label {
LABEL_OPTIONAL = 1, // optional
LABEL_REQUIRED = 2, // required
LABEL_REPEATED = 3, // repeated
MAX_LABEL = 3, // Constant useful for defining lookup tables
// indexed by Label.
};
// Valid field numbers are positive integers up to kMaxNumber.
static const int kMaxNumber = (1 << 29) - 1;
// First field number reserved for the protocol buffer library implementation.
// Users may not declare fields that use reserved numbers.
static const int kFirstReservedNumber = 19000;
// Last field number reserved for the protocol buffer library implementation.
// Users may not declare fields that use reserved numbers.
static const int kLastReservedNumber = 19999;
const string& name() const; // Name of this field within the message.
const string& full_name() const; // Fully-qualified name of the field.
const string& json_name() const; // JSON name of this field.
const FileDescriptor* file() const;// File in which this field was defined.
bool is_extension() const; // Is this an extension field?
int number() const; // Declared tag number.
// Same as name() except converted to lower-case. This (and especially the
// FindFieldByLowercaseName() method) can be useful when parsing formats
// which prefer to use lowercase naming style. (Although, technically
// field names should be lowercased anyway according to the protobuf style
// guide, so this only makes a difference when dealing with old .proto files
// which do not follow the guide.)
const string& lowercase_name() const;
// Same as name() except converted to camel-case. In this conversion, any
// time an underscore appears in the name, it is removed and the next
// letter is capitalized. Furthermore, the first letter of the name is
// lower-cased. Examples:
// FooBar -> fooBar
// foo_bar -> fooBar
// fooBar -> fooBar
// This (and especially the FindFieldByCamelcaseName() method) can be useful
// when parsing formats which prefer to use camel-case naming style.
const string& camelcase_name() const;
Type type() const; // Declared type of this field.
const char* type_name() const; // Name of the declared type.
CppType cpp_type() const; // C++ type of this field.
const char* cpp_type_name() const; // Name of the C++ type.
Label label() const; // optional/required/repeated
bool is_required() const; // shorthand for label() == LABEL_REQUIRED
bool is_optional() const; // shorthand for label() == LABEL_OPTIONAL
bool is_repeated() const; // shorthand for label() == LABEL_REPEATED
bool is_packable() const; // shorthand for is_repeated() &&
// IsTypePackable(type())
bool is_packed() const; // shorthand for is_packable() &&
// options().packed()
bool is_map() const; // shorthand for type() == TYPE_MESSAGE &&
// message_type()->options().map_entry()
// Index of this field within the message's field array, or the file or
// extension scope's extensions array.
int index() const;
// Does this field have an explicitly-declared default value?
bool has_default_value() const;
// Get the field default value if cpp_type() == CPPTYPE_INT32. If no
// explicit default was defined, the default is 0.
int32 default_value_int32() const;
// Get the field default value if cpp_type() == CPPTYPE_INT64. If no
// explicit default was defined, the default is 0.
int64 default_value_int64() const;
// Get the field default value if cpp_type() == CPPTYPE_UINT32. If no
// explicit default was defined, the default is 0.
uint32 default_value_uint32() const;
// Get the field default value if cpp_type() == CPPTYPE_UINT64. If no
// explicit default was defined, the default is 0.
uint64 default_value_uint64() const;
// Get the field default value if cpp_type() == CPPTYPE_FLOAT. If no
// explicit default was defined, the default is 0.0.
float default_value_float() const;
// Get the field default value if cpp_type() == CPPTYPE_DOUBLE. If no
// explicit default was defined, the default is 0.0.
double default_value_double() const;
// Get the field default value if cpp_type() == CPPTYPE_BOOL. If no
// explicit default was defined, the default is false.
bool default_value_bool() const;
// Get the field default value if cpp_type() == CPPTYPE_ENUM. If no
// explicit default was defined, the default is the first value defined
// in the enum type (all enum types are required to have at least one value).
// This never returns NULL.
const EnumValueDescriptor* default_value_enum() const;
// Get the field default value if cpp_type() == CPPTYPE_STRING. If no
// explicit default was defined, the default is the empty string.
const string& default_value_string() const;
// The Descriptor for the message of which this is a field. For extensions,
// this is the extended type. Never NULL.
const Descriptor* containing_type() const;
// If the field is a member of a oneof, this is the one, otherwise this is
// NULL.
const OneofDescriptor* containing_oneof() const;
// If the field is a member of a oneof, returns the index in that oneof.
int index_in_oneof() const;
// An extension may be declared within the scope of another message. If this
// field is an extension (is_extension() is true), then extension_scope()
// returns that message, or NULL if the extension was declared at global
// scope. If this is not an extension, extension_scope() is undefined (may
// assert-fail).
const Descriptor* extension_scope() const;
// If type is TYPE_MESSAGE or TYPE_GROUP, returns a descriptor for the
// message or the group type. Otherwise, returns null.
const Descriptor* message_type() const;
// If type is TYPE_ENUM, returns a descriptor for the enum. Otherwise,
// returns null.
const EnumDescriptor* enum_type() const;
// Get the FieldOptions for this field. This includes things listed in
// square brackets after the field definition. E.g., the field:
// optional string text = 1 [ctype=CORD];
// has the "ctype" option set. Allowed options are defined by FieldOptions
// in google/protobuf/descriptor.proto, and any available extensions of that
// message.
const FieldOptions& options() const;
// See Descriptor::CopyTo().
void CopyTo(FieldDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Helper method to get the CppType for a particular Type.
static CppType TypeToCppType(Type type);
// Helper method to get the name of a Type.
static const char* TypeName(Type type);
// Helper method to get the name of a CppType.
static const char* CppTypeName(CppType cpp_type);
// Return true iff [packed = true] is valid for fields of this type.
static inline bool IsTypePackable(Type field_type);
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this field declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef FieldOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// Fill the json_name field of FieldDescriptorProto.
void CopyJsonNameTo(FieldDescriptorProto* proto) const;
// See Descriptor::DebugString().
enum PrintLabelFlag { PRINT_LABEL, OMIT_LABEL };
void DebugString(int depth, PrintLabelFlag print_label_flag,
string* contents, const DebugStringOptions& options) const;
// formats the default value appropriately and returns it as a string.
// Must have a default value to call this. If quote_string_type is true, then
// types of CPPTYPE_STRING whill be surrounded by quotes and CEscaped.
string DefaultValueAsString(bool quote_string_type) const;
// Helper function that returns the field type name for DebugString.
string FieldTypeNameDebugString() const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const string* lowercase_name_;
const string* camelcase_name_;
// Whether the user has specified the json_name field option in the .proto
// file.
bool has_json_name_;
// If has_json_name_ is true, it's the value specified by the user.
// Otherwise, it has the same value as lowercase_name_.
const string* json_name_;
const FileDescriptor* file_;
int number_;
Type type_;
Label label_;
bool is_extension_;
int index_in_oneof_;
const Descriptor* containing_type_;
const OneofDescriptor* containing_oneof_;
const Descriptor* extension_scope_;
const Descriptor* message_type_;
const EnumDescriptor* enum_type_;
const FieldOptions* options_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<FieldDescriptor>() and AllocateArray<FieldDescriptor>() in
// descriptor.cc and update them to initialize the field.
bool has_default_value_;
union {
int32 default_value_int32_;
int64 default_value_int64_;
uint32 default_value_uint32_;
uint64 default_value_uint64_;
float default_value_float_;
double default_value_double_;
bool default_value_bool_;
const EnumValueDescriptor* default_value_enum_;
const string* default_value_string_;
};
static const CppType kTypeToCppTypeMap[MAX_TYPE + 1];
static const char * const kTypeToName[MAX_TYPE + 1];
static const char * const kCppTypeToName[MAX_CPPTYPE + 1];
static const char * const kLabelToName[MAX_LABEL + 1];
// Must be constructed using DescriptorPool.
FieldDescriptor() {}
friend class DescriptorBuilder;
friend class FileDescriptor;
friend class Descriptor;
friend class OneofDescriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(FieldDescriptor);
};
// Describes a oneof defined in a message type.
class LIBPROTOBUF_EXPORT OneofDescriptor {
public:
const string& name() const; // Name of this oneof.
const string& full_name() const; // Fully-qualified name of the oneof.
// Index of this oneof within the message's oneof array.
int index() const;
// The Descriptor for the message containing this oneof.
const Descriptor* containing_type() const;
// The number of (non-extension) fields which are members of this oneof.
int field_count() const;
// Get a member of this oneof, in the order in which they were declared in the
// .proto file. Does not include extensions.
const FieldDescriptor* field(int index) const;
const OneofOptions& options() const;
// See Descriptor::CopyTo().
void CopyTo(OneofDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this oneof declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef OneofOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// See Descriptor::DebugString().
void DebugString(int depth, string* contents,
const DebugStringOptions& options) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const Descriptor* containing_type_;
bool is_extendable_;
int field_count_;
const FieldDescriptor** fields_;
const OneofOptions* options_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<OneofDescriptor>() and AllocateArray<OneofDescriptor>()
// in descriptor.cc and update them to initialize the field.
// Must be constructed using DescriptorPool.
OneofDescriptor() {}
friend class DescriptorBuilder;
friend class Descriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(OneofDescriptor);
};
// Describes an enum type defined in a .proto file. To get the EnumDescriptor
// for a generated enum type, call TypeName_descriptor(). Use DescriptorPool
// to construct your own descriptors.
class LIBPROTOBUF_EXPORT EnumDescriptor {
public:
// The name of this enum type in the containing scope.
const string& name() const;
// The fully-qualified name of the enum type, scope delimited by periods.
const string& full_name() const;
// Index of this enum within the file or containing message's enum array.
int index() const;
// The .proto file in which this enum type was defined. Never NULL.
const FileDescriptor* file() const;
// The number of values for this EnumDescriptor. Guaranteed to be greater
// than zero.
int value_count() const;
// Gets a value by index, where 0 <= index < value_count().
// These are returned in the order they were defined in the .proto file.
const EnumValueDescriptor* value(int index) const;
// Looks up a value by name. Returns NULL if no such value exists.
const EnumValueDescriptor* FindValueByName(const string& name) const;
// Looks up a value by number. Returns NULL if no such value exists. If
// multiple values have this number, the first one defined is returned.
const EnumValueDescriptor* FindValueByNumber(int number) const;
// If this enum type is nested in a message type, this is that message type.
// Otherwise, NULL.
const Descriptor* containing_type() const;
// Get options for this enum type. These are specified in the .proto file by
// placing lines like "option foo = 1234;" in the enum definition. Allowed
// options are defined by EnumOptions in google/protobuf/descriptor.proto,
// and any available extensions of that message.
const EnumOptions& options() const;
// See Descriptor::CopyTo().
void CopyTo(EnumDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Returns true if this is a placeholder for an unknown enum. This will
// only be the case if this descriptor comes from a DescriptorPool
// with AllowUnknownDependencies() set.
bool is_placeholder() const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this enum declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef EnumOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// Looks up a value by number. If the value does not exist, dynamically
// creates a new EnumValueDescriptor for that value, assuming that it was
// unknown. If a new descriptor is created, this is done in a thread-safe way,
// and future calls will return the same value descriptor pointer.
//
// This is private but is used by GeneratedMessageReflection (which is
// friended below) to return a valid EnumValueDescriptor from GetEnum() when
// this feature is enabled.
const EnumValueDescriptor*
FindValueByNumberCreatingIfUnknown(int number) const;
// See Descriptor::DebugString().
void DebugString(int depth, string *contents,
const DebugStringOptions& options) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const FileDescriptor* file_;
const Descriptor* containing_type_;
const EnumOptions* options_;
// True if this is a placeholder for an unknown type.
bool is_placeholder_;
// True if this is a placeholder and the type name wasn't fully-qualified.
bool is_unqualified_placeholder_;
int value_count_;
EnumValueDescriptor* values_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<EnumDescriptor>() and AllocateArray<EnumDescriptor>() in
// descriptor.cc and update them to initialize the field.
// Must be constructed using DescriptorPool.
EnumDescriptor() {}
friend class DescriptorBuilder;
friend class Descriptor;
friend class FieldDescriptor;
friend class EnumValueDescriptor;
friend class FileDescriptor;
friend class internal::GeneratedMessageReflection;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(EnumDescriptor);
};
// Describes an individual enum constant of a particular type. To get the
// EnumValueDescriptor for a given enum value, first get the EnumDescriptor
// for its type, then use EnumDescriptor::FindValueByName() or
// EnumDescriptor::FindValueByNumber(). Use DescriptorPool to construct
// your own descriptors.
class LIBPROTOBUF_EXPORT EnumValueDescriptor {
public:
const string& name() const; // Name of this enum constant.
int index() const; // Index within the enums's Descriptor.
int number() const; // Numeric value of this enum constant.
// The full_name of an enum value is a sibling symbol of the enum type.
// e.g. the full name of FieldDescriptorProto::TYPE_INT32 is actually
// "google.protobuf.FieldDescriptorProto.TYPE_INT32", NOT
// "google.protobuf.FieldDescriptorProto.Type.TYPE_INT32". This is to conform
// with C++ scoping rules for enums.
const string& full_name() const;
// The type of this value. Never NULL.
const EnumDescriptor* type() const;
// Get options for this enum value. These are specified in the .proto file
// by adding text like "[foo = 1234]" after an enum value definition.
// Allowed options are defined by EnumValueOptions in
// google/protobuf/descriptor.proto, and any available extensions of that
// message.
const EnumValueOptions& options() const;
// See Descriptor::CopyTo().
void CopyTo(EnumValueDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this enum value declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef EnumValueOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// See Descriptor::DebugString().
void DebugString(int depth, string *contents,
const DebugStringOptions& options) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
int number_;
const EnumDescriptor* type_;
const EnumValueOptions* options_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<EnumValueDescriptor>() and AllocateArray<EnumValueDescriptor>()
// in descriptor.cc and update them to initialize the field.
// Must be constructed using DescriptorPool.
EnumValueDescriptor() {}
friend class DescriptorBuilder;
friend class EnumDescriptor;
friend class FileDescriptorTables;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(EnumValueDescriptor);
};
// Describes an RPC service. To get the ServiceDescriptor for a service,
// call Service::GetDescriptor(). Generated service classes also have a
// static method called descriptor() which returns the type's
// ServiceDescriptor. Use DescriptorPool to construct your own descriptors.
class LIBPROTOBUF_EXPORT ServiceDescriptor {
public:
// The name of the service, not including its containing scope.
const string& name() const;
// The fully-qualified name of the service, scope delimited by periods.
const string& full_name() const;
// Index of this service within the file's services array.
int index() const;
// The .proto file in which this service was defined. Never NULL.
const FileDescriptor* file() const;
// Get options for this service type. These are specified in the .proto file
// by placing lines like "option foo = 1234;" in the service definition.
// Allowed options are defined by ServiceOptions in
// google/protobuf/descriptor.proto, and any available extensions of that
// message.
const ServiceOptions& options() const;
// The number of methods this service defines.
int method_count() const;
// Gets a MethodDescriptor by index, where 0 <= index < method_count().
// These are returned in the order they were defined in the .proto file.
const MethodDescriptor* method(int index) const;
// Look up a MethodDescriptor by name.
const MethodDescriptor* FindMethodByName(const string& name) const;
// See Descriptor::CopyTo().
void CopyTo(ServiceDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this service declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef ServiceOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// See Descriptor::DebugString().
void DebugString(string *contents, const DebugStringOptions& options) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const FileDescriptor* file_;
const ServiceOptions* options_;
int method_count_;
MethodDescriptor* methods_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<ServiceDescriptor>() and AllocateArray<ServiceDescriptor>() in
// descriptor.cc and update them to initialize the field.
// Must be constructed using DescriptorPool.
ServiceDescriptor() {}
friend class DescriptorBuilder;
friend class FileDescriptor;
friend class MethodDescriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ServiceDescriptor);
};
// Describes an individual service method. To obtain a MethodDescriptor given
// a service, first get its ServiceDescriptor, then call
// ServiceDescriptor::FindMethodByName(). Use DescriptorPool to construct your
// own descriptors.
class LIBPROTOBUF_EXPORT MethodDescriptor {
public:
// Name of this method, not including containing scope.
const string& name() const;
// The fully-qualified name of the method, scope delimited by periods.
const string& full_name() const;
// Index within the service's Descriptor.
int index() const;
// Gets the service to which this method belongs. Never NULL.
const ServiceDescriptor* service() const;
// Gets the type of protocol message which this method accepts as input.
const Descriptor* input_type() const;
// Gets the type of protocol message which this message produces as output.
const Descriptor* output_type() const;
// Gets whether the client streams multiple requests.
bool client_streaming() const;
// Gets whether the server streams multiple responses.
bool server_streaming() const;
// Get options for this method. These are specified in the .proto file by
// placing lines like "option foo = 1234;" in curly-braces after a method
// declaration. Allowed options are defined by MethodOptions in
// google/protobuf/descriptor.proto, and any available extensions of that
// message.
const MethodOptions& options() const;
// See Descriptor::CopyTo().
void CopyTo(MethodDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Source Location ---------------------------------------------------
// Updates |*out_location| to the source location of the complete
// extent of this method declaration. Returns false and leaves
// |*out_location| unchanged iff location information was not available.
bool GetSourceLocation(SourceLocation* out_location) const;
private:
typedef MethodOptions OptionsType;
// Allows access to GetLocationPath for annotations.
friend class ::google::protobuf::io::Printer;
// See Descriptor::DebugString().
void DebugString(int depth, string *contents,
const DebugStringOptions& options) const;
// Walks up the descriptor tree to generate the source location path
// to this descriptor from the file root.
void GetLocationPath(std::vector<int>* output) const;
const string* name_;
const string* full_name_;
const ServiceDescriptor* service_;
const Descriptor* input_type_;
const Descriptor* output_type_;
const MethodOptions* options_;
bool client_streaming_;
bool server_streaming_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<MethodDescriptor>() and AllocateArray<MethodDescriptor>() in
// descriptor.cc and update them to initialize the field.
// Must be constructed using DescriptorPool.
MethodDescriptor() {}
friend class DescriptorBuilder;
friend class ServiceDescriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(MethodDescriptor);
};
// Describes a whole .proto file. To get the FileDescriptor for a compiled-in
// file, get the descriptor for something defined in that file and call
// descriptor->file(). Use DescriptorPool to construct your own descriptors.
class LIBPROTOBUF_EXPORT FileDescriptor {
public:
// The filename, relative to the source tree.
// e.g. "google/protobuf/descriptor.proto"
const string& name() const;
// The package, e.g. "google.protobuf.compiler".
const string& package() const;
// The DescriptorPool in which this FileDescriptor and all its contents were
// allocated. Never NULL.
const DescriptorPool* pool() const;
// The number of files imported by this one.
int dependency_count() const;
// Gets an imported file by index, where 0 <= index < dependency_count().
// These are returned in the order they were defined in the .proto file.
const FileDescriptor* dependency(int index) const;
// The number of files public imported by this one.
// The public dependency list is a subset of the dependency list.
int public_dependency_count() const;
// Gets a public imported file by index, where 0 <= index <
// public_dependency_count().
// These are returned in the order they were defined in the .proto file.
const FileDescriptor* public_dependency(int index) const;
// The number of files that are imported for weak fields.
// The weak dependency list is a subset of the dependency list.
int weak_dependency_count() const;
// Gets a weak imported file by index, where 0 <= index <
// weak_dependency_count().
// These are returned in the order they were defined in the .proto file.
const FileDescriptor* weak_dependency(int index) const;
// Number of top-level message types defined in this file. (This does not
// include nested types.)
int message_type_count() const;
// Gets a top-level message type, where 0 <= index < message_type_count().
// These are returned in the order they were defined in the .proto file.
const Descriptor* message_type(int index) const;
// Number of top-level enum types defined in this file. (This does not
// include nested types.)
int enum_type_count() const;
// Gets a top-level enum type, where 0 <= index < enum_type_count().
// These are returned in the order they were defined in the .proto file.
const EnumDescriptor* enum_type(int index) const;
// Number of services defined in this file.
int service_count() const;
// Gets a service, where 0 <= index < service_count().
// These are returned in the order they were defined in the .proto file.
const ServiceDescriptor* service(int index) const;
// Number of extensions defined at file scope. (This does not include
// extensions nested within message types.)
int extension_count() const;
// Gets an extension's descriptor, where 0 <= index < extension_count().
// These are returned in the order they were defined in the .proto file.
const FieldDescriptor* extension(int index) const;
// Get options for this file. These are specified in the .proto file by
// placing lines like "option foo = 1234;" at the top level, outside of any
// other definitions. Allowed options are defined by FileOptions in
// google/protobuf/descriptor.proto, and any available extensions of that
// message.
const FileOptions& options() const;
// Syntax of this file.
enum Syntax {
SYNTAX_UNKNOWN = 0,
SYNTAX_PROTO2 = 2,
SYNTAX_PROTO3 = 3,
};
Syntax syntax() const;
static const char* SyntaxName(Syntax syntax);
// Find a top-level message type by name. Returns NULL if not found.
const Descriptor* FindMessageTypeByName(const string& name) const;
// Find a top-level enum type by name. Returns NULL if not found.
const EnumDescriptor* FindEnumTypeByName(const string& name) const;
// Find an enum value defined in any top-level enum by name. Returns NULL if
// not found.
const EnumValueDescriptor* FindEnumValueByName(const string& name) const;
// Find a service definition by name. Returns NULL if not found.
const ServiceDescriptor* FindServiceByName(const string& name) const;
// Find a top-level extension definition by name. Returns NULL if not found.
const FieldDescriptor* FindExtensionByName(const string& name) const;
// Similar to FindExtensionByName(), but searches by lowercased-name. See
// Descriptor::FindFieldByLowercaseName().
const FieldDescriptor* FindExtensionByLowercaseName(const string& name) const;
// Similar to FindExtensionByName(), but searches by camelcased-name. See
// Descriptor::FindFieldByCamelcaseName().
const FieldDescriptor* FindExtensionByCamelcaseName(const string& name) const;
// See Descriptor::CopyTo().
// Notes:
// - This method does NOT copy source code information since it is relatively
// large and rarely needed. See CopySourceCodeInfoTo() below.
void CopyTo(FileDescriptorProto* proto) const;
// Write the source code information of this FileDescriptor into the given
// FileDescriptorProto. See CopyTo() above.
void CopySourceCodeInfoTo(FileDescriptorProto* proto) const;
// Fill the json_name field of FieldDescriptorProto for all fields. Can only
// be called after CopyTo().
void CopyJsonNameTo(FileDescriptorProto* proto) const;
// See Descriptor::DebugString().
string DebugString() const;
// See Descriptor::DebugStringWithOptions().
string DebugStringWithOptions(const DebugStringOptions& options) const;
// Returns true if this is a placeholder for an unknown file. This will
// only be the case if this descriptor comes from a DescriptorPool
// with AllowUnknownDependencies() set.
bool is_placeholder() const;
// Updates |*out_location| to the source location of the complete extent of
// this file declaration (namely, the empty path).
bool GetSourceLocation(SourceLocation* out_location) const;
// Updates |*out_location| to the source location of the complete
// extent of the declaration or declaration-part denoted by |path|.
// Returns false and leaves |*out_location| unchanged iff location
// information was not available. (See SourceCodeInfo for
// description of path encoding.)
bool GetSourceLocation(const std::vector<int>& path,
SourceLocation* out_location) const;
private:
typedef FileOptions OptionsType;
const string* name_;
const string* package_;
const DescriptorPool* pool_;
int dependency_count_;
const FileDescriptor** dependencies_;
int public_dependency_count_;
int* public_dependencies_;
int weak_dependency_count_;
int* weak_dependencies_;
int message_type_count_;
Descriptor* message_types_;
int enum_type_count_;
EnumDescriptor* enum_types_;
int service_count_;
ServiceDescriptor* services_;
int extension_count_;
Syntax syntax_;
bool is_placeholder_;
FieldDescriptor* extensions_;
const FileOptions* options_;
const FileDescriptorTables* tables_;
const SourceCodeInfo* source_code_info_;
// IMPORTANT: If you add a new field, make sure to search for all instances
// of Allocate<FileDescriptor>() and AllocateArray<FileDescriptor>() in
// descriptor.cc and update them to initialize the field.
FileDescriptor() {}
friend class DescriptorBuilder;
friend class Descriptor;
friend class FieldDescriptor;
friend class OneofDescriptor;
friend class EnumDescriptor;
friend class EnumValueDescriptor;
friend class MethodDescriptor;
friend class ServiceDescriptor;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(FileDescriptor);
};
// ===================================================================
// Used to construct descriptors.
//
// Normally you won't want to build your own descriptors. Message classes
// constructed by the protocol compiler will provide them for you. However,
// if you are implementing Message on your own, or if you are writing a
// program which can operate on totally arbitrary types and needs to load
// them from some sort of database, you might need to.
//
// Since Descriptors are composed of a whole lot of cross-linked bits of
// data that would be a pain to put together manually, the
// DescriptorPool class is provided to make the process easier. It can
// take a FileDescriptorProto (defined in descriptor.proto), validate it,
// and convert it to a set of nicely cross-linked Descriptors.
//
// DescriptorPool also helps with memory management. Descriptors are
// composed of many objects containing static data and pointers to each
// other. In all likelihood, when it comes time to delete this data,
// you'll want to delete it all at once. In fact, it is not uncommon to
// have a whole pool of descriptors all cross-linked with each other which
// you wish to delete all at once. This class represents such a pool, and
// handles the memory management for you.
//
// You can also search for descriptors within a DescriptorPool by name, and
// extensions by number.
class LIBPROTOBUF_EXPORT DescriptorPool {
public:
// Create a normal, empty DescriptorPool.
DescriptorPool();
// Constructs a DescriptorPool that, when it can't find something among the
// descriptors already in the pool, looks for it in the given
// DescriptorDatabase.
// Notes:
// - If a DescriptorPool is constructed this way, its BuildFile*() methods
// must not be called (they will assert-fail). The only way to populate
// the pool with descriptors is to call the Find*By*() methods.
// - The Find*By*() methods may block the calling thread if the
// DescriptorDatabase blocks. This in turn means that parsing messages
// may block if they need to look up extensions.
// - The Find*By*() methods will use mutexes for thread-safety, thus making
// them slower even when they don't have to fall back to the database.
// In fact, even the Find*By*() methods of descriptor objects owned by
// this pool will be slower, since they will have to obtain locks too.
// - An ErrorCollector may optionally be given to collect validation errors
// in files loaded from the database. If not given, errors will be printed
// to GOOGLE_LOG(ERROR). Remember that files are built on-demand, so this
// ErrorCollector may be called from any thread that calls one of the
// Find*By*() methods.
// - The DescriptorDatabase must not be mutated during the lifetime of
// the DescriptorPool. Even if the client takes care to avoid data races,
// changes to the content of the DescriptorDatabase may not be reflected
// in subsequent lookups in the DescriptorPool.
class ErrorCollector;
explicit DescriptorPool(DescriptorDatabase* fallback_database,
ErrorCollector* error_collector = NULL);
~DescriptorPool();
// Get a pointer to the generated pool. Generated protocol message classes
// which are compiled into the binary will allocate their descriptors in
// this pool. Do not add your own descriptors to this pool.
static const DescriptorPool* generated_pool();
// Find a FileDescriptor in the pool by file name. Returns NULL if not
// found.
const FileDescriptor* FindFileByName(const string& name) const;
// Find the FileDescriptor in the pool which defines the given symbol.
// If any of the Find*ByName() methods below would succeed, then this is
// equivalent to calling that method and calling the result's file() method.
// Otherwise this returns NULL.
const FileDescriptor* FindFileContainingSymbol(
const string& symbol_name) const;
// Looking up descriptors ------------------------------------------
// These find descriptors by fully-qualified name. These will find both
// top-level descriptors and nested descriptors. They return NULL if not
// found.
const Descriptor* FindMessageTypeByName(const string& name) const;
const FieldDescriptor* FindFieldByName(const string& name) const;
const FieldDescriptor* FindExtensionByName(const string& name) const;
const OneofDescriptor* FindOneofByName(const string& name) const;
const EnumDescriptor* FindEnumTypeByName(const string& name) const;
const EnumValueDescriptor* FindEnumValueByName(const string& name) const;
const ServiceDescriptor* FindServiceByName(const string& name) const;
const MethodDescriptor* FindMethodByName(const string& name) const;
// Finds an extension of the given type by number. The extendee must be
// a member of this DescriptorPool or one of its underlays.
const FieldDescriptor* FindExtensionByNumber(const Descriptor* extendee,
int number) const;
// Finds extensions of extendee. The extensions will be appended to
// out in an undefined order. Only extensions defined directly in
// this DescriptorPool or one of its underlays are guaranteed to be
// found: extensions defined in the fallback database might not be found
// depending on the database implementation.
void FindAllExtensions(const Descriptor* extendee,
std::vector<const FieldDescriptor*>* out) const;
// Building descriptors --------------------------------------------
// When converting a FileDescriptorProto to a FileDescriptor, various
// errors might be detected in the input. The caller may handle these
// programmatically by implementing an ErrorCollector.
class LIBPROTOBUF_EXPORT ErrorCollector {
public:
inline ErrorCollector() {}
virtual ~ErrorCollector();
// These constants specify what exact part of the construct is broken.
// This is useful e.g. for mapping the error back to an exact location
// in a .proto file.
enum ErrorLocation {
NAME, // the symbol name, or the package name for files
NUMBER, // field or extension range number
TYPE, // field type
EXTENDEE, // field extendee
DEFAULT_VALUE, // field default value
INPUT_TYPE, // method input type
OUTPUT_TYPE, // method output type
OPTION_NAME, // name in assignment
OPTION_VALUE, // value in option assignment
OTHER // some other problem
};
// Reports an error in the FileDescriptorProto. Use this function if the
// problem occurred should interrupt building the FileDescriptorProto.
virtual void AddError(
const string& filename, // File name in which the error occurred.
const string& element_name, // Full name of the erroneous element.
const Message* descriptor, // Descriptor of the erroneous element.
ErrorLocation location, // One of the location constants, above.
const string& message // Human-readable error message.
) = 0;
// Reports a warning in the FileDescriptorProto. Use this function if the
// problem occurred should NOT interrupt building the FileDescriptorProto.
virtual void AddWarning(
const string& /*filename*/, // File name in which the error occurred.
const string& /*element_name*/, // Full name of the erroneous element.
const Message* /*descriptor*/, // Descriptor of the erroneous element.
ErrorLocation /*location*/, // One of the location constants, above.
const string& /*message*/ // Human-readable error message.
) {}
private:
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ErrorCollector);
};
// Convert the FileDescriptorProto to real descriptors and place them in
// this DescriptorPool. All dependencies of the file must already be in
// the pool. Returns the resulting FileDescriptor, or NULL if there were
// problems with the input (e.g. the message was invalid, or dependencies
// were missing). Details about the errors are written to GOOGLE_LOG(ERROR).
const FileDescriptor* BuildFile(const FileDescriptorProto& proto);
// Same as BuildFile() except errors are sent to the given ErrorCollector.
const FileDescriptor* BuildFileCollectingErrors(
const FileDescriptorProto& proto,
ErrorCollector* error_collector);
// By default, it is an error if a FileDescriptorProto contains references
// to types or other files that are not found in the DescriptorPool (or its
// backing DescriptorDatabase, if any). If you call
// AllowUnknownDependencies(), however, then unknown types and files
// will be replaced by placeholder descriptors (which can be identified by
// the is_placeholder() method). This can allow you to
// perform some useful operations with a .proto file even if you do not
// have access to other .proto files on which it depends. However, some
// heuristics must be used to fill in the gaps in information, and these
// can lead to descriptors which are inaccurate. For example, the
// DescriptorPool may be forced to guess whether an unknown type is a message
// or an enum, as well as what package it resides in. Furthermore,
// placeholder types will not be discoverable via FindMessageTypeByName()
// and similar methods, which could confuse some descriptor-based algorithms.
// Generally, the results of this option should be handled with extreme care.
void AllowUnknownDependencies() { allow_unknown_ = true; }
// By default, weak imports are allowed to be missing, in which case we will
// use a placeholder for the dependency and convert the field to be an Empty
// message field. If you call EnforceWeakDependencies(true), however, the
// DescriptorPool will report a import not found error.
void EnforceWeakDependencies(bool enforce) { enforce_weak_ = enforce; }
// Internal stuff --------------------------------------------------
// These methods MUST NOT be called from outside the proto2 library.
// These methods may contain hidden pitfalls and may be removed in a
// future library version.
// Create a DescriptorPool which is overlaid on top of some other pool.
// If you search for a descriptor in the overlay and it is not found, the
// underlay will be searched as a backup. If the underlay has its own
// underlay, that will be searched next, and so on. This also means that
// files built in the overlay will be cross-linked with the underlay's
// descriptors if necessary. The underlay remains property of the caller;
// it must remain valid for the lifetime of the newly-constructed pool.
//
// Example: Say you want to parse a .proto file at runtime in order to use
// its type with a DynamicMessage. Say this .proto file has dependencies,
// but you know that all the dependencies will be things that are already
// compiled into the binary. For ease of use, you'd like to load the types
// right out of generated_pool() rather than have to parse redundant copies
// of all these .protos and runtime. But, you don't want to add the parsed
// types directly into generated_pool(): this is not allowed, and would be
// bad design anyway. So, instead, you could use generated_pool() as an
// underlay for a new DescriptorPool in which you add only the new file.
//
// WARNING: Use of underlays can lead to many subtle gotchas. Instead,
// try to formulate what you want to do in terms of DescriptorDatabases.
explicit DescriptorPool(const DescriptorPool* underlay);
// Called by generated classes at init time to add their descriptors to
// generated_pool. Do NOT call this in your own code! filename must be a
// permanent string (e.g. a string literal).
static void InternalAddGeneratedFile(
const void* encoded_file_descriptor, int size);
// For internal use only: Gets a non-const pointer to the generated pool.
// This is called at static-initialization time only, so thread-safety is
// not a concern. If both an underlay and a fallback database are present,
// the underlay takes precedence.
static DescriptorPool* internal_generated_pool();
// For internal use only: Changes the behavior of BuildFile() such that it
// allows the file to make reference to message types declared in other files
// which it did not officially declare as dependencies.
void InternalDontEnforceDependencies();
// For internal use only.
void internal_set_underlay(const DescriptorPool* underlay) {
underlay_ = underlay;
}
// For internal (unit test) use only: Returns true if a FileDescriptor has
// been constructed for the given file, false otherwise. Useful for testing
// lazy descriptor initialization behavior.
bool InternalIsFileLoaded(const string& filename) const;
// Add a file to unused_import_track_files_. DescriptorBuilder will log
// warnings for those files if there is any unused import.
void AddUnusedImportTrackFile(const string& file_name);
void ClearUnusedImportTrackFiles();
private:
friend class Descriptor;
friend class FieldDescriptor;
friend class EnumDescriptor;
friend class ServiceDescriptor;
friend class FileDescriptor;
friend class DescriptorBuilder;
friend class FileDescriptorTables;
// Return true if the given name is a sub-symbol of any non-package
// descriptor that already exists in the descriptor pool. (The full
// definition of such types is already known.)
bool IsSubSymbolOfBuiltType(const string& name) const;
// Tries to find something in the fallback database and link in the
// corresponding proto file. Returns true if successful, in which case
// the caller should search for the thing again. These are declared
// const because they are called by (semantically) const methods.
bool TryFindFileInFallbackDatabase(const string& name) const;
bool TryFindSymbolInFallbackDatabase(const string& name) const;
bool TryFindExtensionInFallbackDatabase(const Descriptor* containing_type,
int field_number) const;
// Like BuildFile() but called internally when the file has been loaded from
// fallback_database_. Declared const because it is called by (semantically)
// const methods.
const FileDescriptor* BuildFileFromDatabase(
const FileDescriptorProto& proto) const;
// If fallback_database_ is NULL, this is NULL. Otherwise, this is a mutex
// which must be locked while accessing tables_.
Mutex* mutex_;
// See constructor.
DescriptorDatabase* fallback_database_;
ErrorCollector* default_error_collector_;
const DescriptorPool* underlay_;
// This class contains a lot of hash maps with complicated types that
// we'd like to keep out of the header.
class Tables;
google::protobuf::scoped_ptr<Tables> tables_;
bool enforce_dependencies_;
bool allow_unknown_;
bool enforce_weak_;
std::set<string> unused_import_track_files_;
GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(DescriptorPool);
};
// inline methods ====================================================
// These macros makes this repetitive code more readable.
#define PROTOBUF_DEFINE_ACCESSOR(CLASS, FIELD, TYPE) \
inline TYPE CLASS::FIELD() const { return FIELD##_; }
// Strings fields are stored as pointers but returned as const references.
#define PROTOBUF_DEFINE_STRING_ACCESSOR(CLASS, FIELD) \
inline const string& CLASS::FIELD() const { return *FIELD##_; }
// Arrays take an index parameter, obviously.
#define PROTOBUF_DEFINE_ARRAY_ACCESSOR(CLASS, FIELD, TYPE) \
inline TYPE CLASS::FIELD(int index) const { return FIELD##s_ + index; }
#define PROTOBUF_DEFINE_OPTIONS_ACCESSOR(CLASS, TYPE) \
inline const TYPE& CLASS::options() const { return *options_; }
PROTOBUF_DEFINE_STRING_ACCESSOR(Descriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(Descriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, file, const FileDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, containing_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, field_count, int)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, oneof_decl_count, int)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, nested_type_count, int)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, enum_type_count, int)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, field, const FieldDescriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, oneof_decl, const OneofDescriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, nested_type, const Descriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, enum_type, const EnumDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, extension_range_count, int)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, extension_count, int)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, extension_range,
const Descriptor::ExtensionRange*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, extension,
const FieldDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, reserved_range_count, int)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(Descriptor, reserved_range,
const Descriptor::ReservedRange*)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, reserved_name_count, int)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(Descriptor, MessageOptions)
PROTOBUF_DEFINE_ACCESSOR(Descriptor, is_placeholder, bool)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, full_name)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, json_name)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, lowercase_name)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, camelcase_name)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, file, const FileDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, number, int)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, is_extension, bool)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, type, FieldDescriptor::Type)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, label, FieldDescriptor::Label)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, containing_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, containing_oneof,
const OneofDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, index_in_oneof, int)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, extension_scope, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, message_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, enum_type, const EnumDescriptor*)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(FieldDescriptor, FieldOptions)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, has_default_value, bool)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_int32 , int32 )
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_int64 , int64 )
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_uint32, uint32)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_uint64, uint64)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_float , float )
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_double, double)
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_bool , bool )
PROTOBUF_DEFINE_ACCESSOR(FieldDescriptor, default_value_enum,
const EnumValueDescriptor*)
PROTOBUF_DEFINE_STRING_ACCESSOR(FieldDescriptor, default_value_string)
PROTOBUF_DEFINE_STRING_ACCESSOR(OneofDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(OneofDescriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(OneofDescriptor, containing_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(OneofDescriptor, field_count, int)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(OneofDescriptor, OneofOptions)
PROTOBUF_DEFINE_STRING_ACCESSOR(EnumDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(EnumDescriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(EnumDescriptor, file, const FileDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(EnumDescriptor, containing_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(EnumDescriptor, value_count, int)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(EnumDescriptor, value,
const EnumValueDescriptor*)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(EnumDescriptor, EnumOptions)
PROTOBUF_DEFINE_ACCESSOR(EnumDescriptor, is_placeholder, bool)
PROTOBUF_DEFINE_STRING_ACCESSOR(EnumValueDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(EnumValueDescriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(EnumValueDescriptor, number, int)
PROTOBUF_DEFINE_ACCESSOR(EnumValueDescriptor, type, const EnumDescriptor*)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(EnumValueDescriptor, EnumValueOptions)
PROTOBUF_DEFINE_STRING_ACCESSOR(ServiceDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(ServiceDescriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(ServiceDescriptor, file, const FileDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(ServiceDescriptor, method_count, int)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(ServiceDescriptor, method,
const MethodDescriptor*)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(ServiceDescriptor, ServiceOptions)
PROTOBUF_DEFINE_STRING_ACCESSOR(MethodDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(MethodDescriptor, full_name)
PROTOBUF_DEFINE_ACCESSOR(MethodDescriptor, service, const ServiceDescriptor*)
PROTOBUF_DEFINE_ACCESSOR(MethodDescriptor, input_type, const Descriptor*)
PROTOBUF_DEFINE_ACCESSOR(MethodDescriptor, output_type, const Descriptor*)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(MethodDescriptor, MethodOptions)
PROTOBUF_DEFINE_ACCESSOR(MethodDescriptor, client_streaming, bool)
PROTOBUF_DEFINE_ACCESSOR(MethodDescriptor, server_streaming, bool)
PROTOBUF_DEFINE_STRING_ACCESSOR(FileDescriptor, name)
PROTOBUF_DEFINE_STRING_ACCESSOR(FileDescriptor, package)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, pool, const DescriptorPool*)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, dependency_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, public_dependency_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, weak_dependency_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, message_type_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, enum_type_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, service_count, int)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, extension_count, int)
PROTOBUF_DEFINE_OPTIONS_ACCESSOR(FileDescriptor, FileOptions)
PROTOBUF_DEFINE_ACCESSOR(FileDescriptor, is_placeholder, bool)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(FileDescriptor, message_type, const Descriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(FileDescriptor, enum_type, const EnumDescriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(FileDescriptor, service,
const ServiceDescriptor*)
PROTOBUF_DEFINE_ARRAY_ACCESSOR(FileDescriptor, extension,
const FieldDescriptor*)
#undef PROTOBUF_DEFINE_ACCESSOR
#undef PROTOBUF_DEFINE_STRING_ACCESSOR
#undef PROTOBUF_DEFINE_ARRAY_ACCESSOR
// A few accessors differ from the macros...
inline bool Descriptor::IsExtensionNumber(int number) const {
return FindExtensionRangeContainingNumber(number) != NULL;
}
inline bool Descriptor::IsReservedNumber(int number) const {
return FindReservedRangeContainingNumber(number) != NULL;
}
inline bool Descriptor::IsReservedName(const string& name) const {
for (int i = 0; i < reserved_name_count(); i++) {
if (name == reserved_name(i)) {
return true;
}
}
return false;
}
// Can't use PROTOBUF_DEFINE_ARRAY_ACCESSOR because reserved_names_ is actually
// an array of pointers rather than the usual array of objects.
inline const string& Descriptor::reserved_name(int index) const {
return *reserved_names_[index];
}
inline bool FieldDescriptor::is_required() const {
return label() == LABEL_REQUIRED;
}
inline bool FieldDescriptor::is_optional() const {
return label() == LABEL_OPTIONAL;
}
inline bool FieldDescriptor::is_repeated() const {
return label() == LABEL_REPEATED;
}
inline bool FieldDescriptor::is_packable() const {
return is_repeated() && IsTypePackable(type());
}
// To save space, index() is computed by looking at the descriptor's position
// in the parent's array of children.
inline int FieldDescriptor::index() const {
if (!is_extension_) {
return static_cast<int>(this - containing_type_->fields_);
} else if (extension_scope_ != NULL) {
return static_cast<int>(this - extension_scope_->extensions_);
} else {
return static_cast<int>(this - file_->extensions_);
}
}
inline int Descriptor::index() const {
if (containing_type_ == NULL) {
return static_cast<int>(this - file_->message_types_);
} else {
return static_cast<int>(this - containing_type_->nested_types_);
}
}
inline int OneofDescriptor::index() const {
return static_cast<int>(this - containing_type_->oneof_decls_);
}
inline int EnumDescriptor::index() const {
if (containing_type_ == NULL) {
return static_cast<int>(this - file_->enum_types_);
} else {
return static_cast<int>(this - containing_type_->enum_types_);
}
}
inline int EnumValueDescriptor::index() const {
return static_cast<int>(this - type_->values_);
}
inline int ServiceDescriptor::index() const {
return static_cast<int>(this - file_->services_);
}
inline int MethodDescriptor::index() const {
return static_cast<int>(this - service_->methods_);
}
inline const char* FieldDescriptor::type_name() const {
return kTypeToName[type_];
}
inline FieldDescriptor::CppType FieldDescriptor::cpp_type() const {
return kTypeToCppTypeMap[type_];
}
inline const char* FieldDescriptor::cpp_type_name() const {
return kCppTypeToName[kTypeToCppTypeMap[type_]];
}
inline FieldDescriptor::CppType FieldDescriptor::TypeToCppType(Type type) {
return kTypeToCppTypeMap[type];
}
inline const char* FieldDescriptor::TypeName(Type type) {
return kTypeToName[type];
}
inline const char* FieldDescriptor::CppTypeName(CppType cpp_type) {
return kCppTypeToName[cpp_type];
}
inline bool FieldDescriptor::IsTypePackable(Type field_type) {
return (field_type != FieldDescriptor::TYPE_STRING &&
field_type != FieldDescriptor::TYPE_GROUP &&
field_type != FieldDescriptor::TYPE_MESSAGE &&
field_type != FieldDescriptor::TYPE_BYTES);
}
inline const FileDescriptor* FileDescriptor::dependency(int index) const {
return dependencies_[index];
}
inline const FileDescriptor* FileDescriptor::public_dependency(
int index) const {
return dependencies_[public_dependencies_[index]];
}
inline const FileDescriptor* FileDescriptor::weak_dependency(
int index) const {
return dependencies_[weak_dependencies_[index]];
}
inline FileDescriptor::Syntax FileDescriptor::syntax() const {
return syntax_;
}
// Can't use PROTOBUF_DEFINE_ARRAY_ACCESSOR because fields_ is actually an array
// of pointers rather than the usual array of objects.
inline const FieldDescriptor* OneofDescriptor::field(int index) const {
return fields_[index];
}
} // namespace protobuf
} // namespace google
#endif // GOOGLE_PROTOBUF_DESCRIPTOR_H__
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