third_party/protobuf/3.6.1/csharp/src/Google.Protobuf/Reflection/FileDescriptor.cs - bazel - Git at Google

 #region Copyright notice and license
 // 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.
 #endregion

 using Google.Protobuf.WellKnownTypes;
 using System;
 using System.Collections.Generic;
 using System.Collections.ObjectModel;

 namespace Google.Protobuf.Reflection
 {
     /// <summary>
     /// Describes a .proto file, including everything defined within.
     /// IDescriptor is implemented such that the File property returns this descriptor,
     /// and the FullName is the same as the Name.
     /// </summary>
     public sealed class FileDescriptor : IDescriptor
     {
         // Prevent linker failures when using IL2CPP with the well-known types.
         static FileDescriptor()
         {
             ForceReflectionInitialization<Syntax>();
             ForceReflectionInitialization<NullValue>();
             ForceReflectionInitialization<Field.Types.Cardinality>();
             ForceReflectionInitialization<Field.Types.Kind>();
             ForceReflectionInitialization<Value.KindOneofCase>();
         }

         private FileDescriptor(ByteString descriptorData, FileDescriptorProto proto, FileDescriptor[] dependencies, DescriptorPool pool, bool allowUnknownDependencies, GeneratedClrTypeInfo generatedCodeInfo)
         {
             SerializedData = descriptorData;
             DescriptorPool = pool;
             Proto = proto;
             Dependencies = new ReadOnlyCollection<FileDescriptor>((FileDescriptor[]) dependencies.Clone());

             PublicDependencies = DeterminePublicDependencies(this, proto, dependencies, allowUnknownDependencies);

             pool.AddPackage(Package, this);

             MessageTypes = DescriptorUtil.ConvertAndMakeReadOnly(proto.MessageType,
                                                                  (message, index) =>
                                                                  new MessageDescriptor(message, this, null, index, generatedCodeInfo.NestedTypes[index]));

             EnumTypes = DescriptorUtil.ConvertAndMakeReadOnly(proto.EnumType,
                                                               (enumType, index) =>
                                                               new EnumDescriptor(enumType, this, null, index, generatedCodeInfo.NestedEnums[index]));

             Services = DescriptorUtil.ConvertAndMakeReadOnly(proto.Service,
                                                              (service, index) =>
                                                              new ServiceDescriptor(service, this, index));
         }

         /// <summary>
         /// Computes the full name of a descriptor within this file, with an optional parent message.
         /// </summary>
         internal string ComputeFullName(MessageDescriptor parent, string name)
         {
             if (parent != null)
             {
                 return parent.FullName + "." + name;
             }
             if (Package.Length > 0)
             {
                 return Package + "." + name;
             }
             return name;
         }

         /// <summary>
         /// Extracts public dependencies from direct dependencies. This is a static method despite its
         /// first parameter, as the value we're in the middle of constructing is only used for exceptions.
         /// </summary>
         private static IList<FileDescriptor> DeterminePublicDependencies(FileDescriptor @this, FileDescriptorProto proto, FileDescriptor[] dependencies, bool allowUnknownDependencies)
         {
             var nameToFileMap = new Dictionary<string, FileDescriptor>();
             foreach (var file in dependencies)
             {
                 nameToFileMap[file.Name] = file;
             }
             var publicDependencies = new List<FileDescriptor>();
             for (int i = 0; i < proto.PublicDependency.Count; i++)
             {
                 int index = proto.PublicDependency[i];
                 if (index < 0 || index >= proto.Dependency.Count)
                 {
                     throw new DescriptorValidationException(@this, "Invalid public dependency index.");
                 }
                 string name = proto.Dependency[index];
                 FileDescriptor file = nameToFileMap[name];
                 if (file == null)
                 {
                     if (!allowUnknownDependencies)
                     {
                         throw new DescriptorValidationException(@this, "Invalid public dependency: " + name);
                     }
                     // Ignore unknown dependencies.
                 }
                 else
                 {
                     publicDependencies.Add(file);
                 }
             }
             return new ReadOnlyCollection<FileDescriptor>(publicDependencies);
         }

         /// <value>
         /// The descriptor in its protocol message representation.
         /// </value>
         internal FileDescriptorProto Proto { get; }

         /// <value>
         /// The file name.
         /// </value>
         public string Name => Proto.Name;

         /// <summary>
         /// The package as declared in the .proto file. This may or may not
         /// be equivalent to the .NET namespace of the generated classes.
         /// </summary>
         public string Package => Proto.Package;

         /// <value>
         /// Unmodifiable list of top-level message types declared in this file.
         /// </value>
         public IList<MessageDescriptor> MessageTypes { get; }

         /// <value>
         /// Unmodifiable list of top-level enum types declared in this file.
         /// </value>
         public IList<EnumDescriptor> EnumTypes { get; }

         /// <value>
         /// Unmodifiable list of top-level services declared in this file.
         /// </value>
         public IList<ServiceDescriptor> Services { get; }

         /// <value>
         /// Unmodifiable list of this file's dependencies (imports).
         /// </value>
         public IList<FileDescriptor> Dependencies { get; }

         /// <value>
         /// Unmodifiable list of this file's public dependencies (public imports).
         /// </value>
         public IList<FileDescriptor> PublicDependencies { get; }

         /// <value>
         /// The original serialized binary form of this descriptor.
         /// </value>
         public ByteString SerializedData { get; }

         /// <value>
         /// Implementation of IDescriptor.FullName - just returns the same as Name.
         /// </value>
         string IDescriptor.FullName => Name;

         /// <value>
         /// Implementation of IDescriptor.File - just returns this descriptor.
         /// </value>
         FileDescriptor IDescriptor.File => this;

         /// <value>
         /// Pool containing symbol descriptors.
         /// </value>
         internal DescriptorPool DescriptorPool { get; }

         /// <summary>
         /// Finds a type (message, enum, service or extension) in the file by name. Does not find nested types.
         /// </summary>
         /// <param name="name">The unqualified type name to look for.</param>
         /// <typeparam name="T">The type of descriptor to look for</typeparam>
         /// <returns>The type's descriptor, or null if not found.</returns>
         public T FindTypeByName<T>(String name)
             where T : class, IDescriptor
         {
             // Don't allow looking up nested types.  This will make optimization
             // easier later.
             if (name.IndexOf('.') != -1)
             {
                 return null;
             }
             if (Package.Length > 0)
             {
                 name = Package + "." + name;
             }
             T result = DescriptorPool.FindSymbol<T>(name);
             if (result != null && result.File == this)
             {
                 return result;
             }
             return null;
         }

         /// <summary>
         /// Builds a FileDescriptor from its protocol buffer representation.
         /// </summary>
         /// <param name="descriptorData">The original serialized descriptor data.
         /// We have only limited proto2 support, so serializing FileDescriptorProto
         /// would not necessarily give us this.</param>
         /// <param name="proto">The protocol message form of the FileDescriptor.</param>
         /// <param name="dependencies">FileDescriptors corresponding to all of the
         /// file's dependencies, in the exact order listed in the .proto file. May be null,
         /// in which case it is treated as an empty array.</param>
         /// <param name="allowUnknownDependencies">Whether unknown dependencies are ignored (true) or cause an exception to be thrown (false).</param>
         /// <param name="generatedCodeInfo">Details about generated code, for the purposes of reflection.</param>
         /// <exception cref="DescriptorValidationException">If <paramref name="proto"/> is not
         /// a valid descriptor. This can occur for a number of reasons, such as a field
         /// having an undefined type or because two messages were defined with the same name.</exception>
         private static FileDescriptor BuildFrom(ByteString descriptorData, FileDescriptorProto proto, FileDescriptor[] dependencies, bool allowUnknownDependencies, GeneratedClrTypeInfo generatedCodeInfo)
         {
             // Building descriptors involves two steps: translating and linking.
             // In the translation step (implemented by FileDescriptor's
             // constructor), we build an object tree mirroring the
             // FileDescriptorProto's tree and put all of the descriptors into the
             // DescriptorPool's lookup tables.  In the linking step, we look up all
             // type references in the DescriptorPool, so that, for example, a
             // FieldDescriptor for an embedded message contains a pointer directly
             // to the Descriptor for that message's type.  We also detect undefined
             // types in the linking step.
             if (dependencies == null)
             {
                 dependencies = new FileDescriptor[0];
             }

             DescriptorPool pool = new DescriptorPool(dependencies);
             FileDescriptor result = new FileDescriptor(descriptorData, proto, dependencies, pool, allowUnknownDependencies, generatedCodeInfo);

             // Validate that the dependencies we've been passed (as FileDescriptors) are actually the ones we
             // need.
             if (dependencies.Length != proto.Dependency.Count)
             {
                 throw new DescriptorValidationException(
                     result,
                     "Dependencies passed to FileDescriptor.BuildFrom() don't match " +
                     "those listed in the FileDescriptorProto.");
             }

             result.CrossLink();
             return result;
         }

         private void CrossLink()
         {
             foreach (MessageDescriptor message in MessageTypes)
             {
                 message.CrossLink();
             }

             foreach (ServiceDescriptor service in Services)
             {
                 service.CrossLink();
             }
         }

         /// <summary>
         /// Creates a descriptor for generated code.
         /// </summary>
         /// <remarks>
         /// This method is only designed to be used by the results of generating code with protoc,
         /// which creates the appropriate dependencies etc. It has to be public because the generated
         /// code is "external", but should not be called directly by end users.
         /// </remarks>
         public static FileDescriptor FromGeneratedCode(
             byte[] descriptorData,
             FileDescriptor[] dependencies,
             GeneratedClrTypeInfo generatedCodeInfo)
         {
             FileDescriptorProto proto;
             try
             {
                 proto = FileDescriptorProto.Parser.ParseFrom(descriptorData);
             }
             catch (InvalidProtocolBufferException e)
             {
                 throw new ArgumentException("Failed to parse protocol buffer descriptor for generated code.", e);
             }

             try
             {
                 // When building descriptors for generated code, we allow unknown
                 // dependencies by default.
                 return BuildFrom(ByteString.CopyFrom(descriptorData), proto, dependencies, true, generatedCodeInfo);
             }
             catch (DescriptorValidationException e)
             {
                 throw new ArgumentException($"Invalid embedded descriptor for \"{proto.Name}\".", e);
             }
         }

         /// <summary>
         /// Returns a <see cref="System.String" /> that represents this instance.
         /// </summary>
         /// <returns>
         /// A <see cref="System.String" /> that represents this instance.
         /// </returns>
         public override string ToString()
         {
             return $"FileDescriptor for {Name}";
         }

         /// <summary>
         /// Returns the file descriptor for descriptor.proto.
         /// </summary>
         /// <remarks>
         /// This is used for protos which take a direct dependency on <c>descriptor.proto</c>, typically for
         /// annotations. While <c>descriptor.proto</c> is a proto2 file, it is built into the Google.Protobuf
         /// runtime for reflection purposes. The messages are internal to the runtime as they would require
         /// proto2 semantics for full support, but the file descriptor is available via this property. The
         /// C# codegen in protoc automatically uses this property when it detects a dependency on <c>descriptor.proto</c>.
         /// </remarks>
         /// <value>
         /// The file descriptor for <c>descriptor.proto</c>.
         /// </value>
         public static FileDescriptor DescriptorProtoFileDescriptor { get { return DescriptorReflection.Descriptor; } }

         /// <summary>
         /// The (possibly empty) set of custom options for this file.
         /// </summary>
         public CustomOptions CustomOptions => Proto.Options?.CustomOptions ?? CustomOptions.Empty;

         /// <summary>
         /// Performs initialization for the given generic type argument.
         /// </summary>
         /// <remarks>
         /// This method is present for the sake of AOT compilers. It allows code (whether handwritten or generated)
         /// to make calls into the reflection machinery of this library to express an intention to use that type
         /// reflectively (e.g. for JSON parsing and formatting). The call itself does almost nothing, but AOT compilers
         /// attempting to determine which generic type arguments need to be handled will spot the code path and act
         /// accordingly.
         /// </remarks>
         /// <typeparam name="T">The type to force initialization for.</typeparam>
         public static void ForceReflectionInitialization<T>() => ReflectionUtil.ForceInitialize<T>();
     }
 }
	#region Copyright notice and license
	// 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.
	#endregion

	using Google.Protobuf.WellKnownTypes;
	using System;
	using System.Collections.Generic;
	using System.Collections.ObjectModel;

	namespace Google.Protobuf.Reflection
	{
	/// <summary>
	/// Describes a .proto file, including everything defined within.
	/// IDescriptor is implemented such that the File property returns this descriptor,
	/// and the FullName is the same as the Name.
	/// </summary>
	public sealed class FileDescriptor : IDescriptor
	{
	// Prevent linker failures when using IL2CPP with the well-known types.
	static FileDescriptor()
	{
	ForceReflectionInitialization<Syntax>();
	ForceReflectionInitialization<NullValue>();
	ForceReflectionInitialization<Field.Types.Cardinality>();
	ForceReflectionInitialization<Field.Types.Kind>();
	ForceReflectionInitialization<Value.KindOneofCase>();
	}

	private FileDescriptor(ByteString descriptorData, FileDescriptorProto proto, FileDescriptor[] dependencies, DescriptorPool pool, bool allowUnknownDependencies, GeneratedClrTypeInfo generatedCodeInfo)
	{
	SerializedData = descriptorData;
	DescriptorPool = pool;
	Proto = proto;
	Dependencies = new ReadOnlyCollection<FileDescriptor>((FileDescriptor[]) dependencies.Clone());

	PublicDependencies = DeterminePublicDependencies(this, proto, dependencies, allowUnknownDependencies);

	pool.AddPackage(Package, this);

	MessageTypes = DescriptorUtil.ConvertAndMakeReadOnly(proto.MessageType,
	(message, index) =>
	new MessageDescriptor(message, this, null, index, generatedCodeInfo.NestedTypes[index]));

	EnumTypes = DescriptorUtil.ConvertAndMakeReadOnly(proto.EnumType,
	(enumType, index) =>
	new EnumDescriptor(enumType, this, null, index, generatedCodeInfo.NestedEnums[index]));

	Services = DescriptorUtil.ConvertAndMakeReadOnly(proto.Service,
	(service, index) =>
	new ServiceDescriptor(service, this, index));
	}

	/// <summary>
	/// Computes the full name of a descriptor within this file, with an optional parent message.
	/// </summary>
	internal string ComputeFullName(MessageDescriptor parent, string name)
	{
	if (parent != null)
	{
	return parent.FullName + "." + name;
	}
	if (Package.Length > 0)
	{
	return Package + "." + name;
	}
	return name;
	}

	/// <summary>
	/// Extracts public dependencies from direct dependencies. This is a static method despite its
	/// first parameter, as the value we're in the middle of constructing is only used for exceptions.
	/// </summary>
	private static IList<FileDescriptor> DeterminePublicDependencies(FileDescriptor @this, FileDescriptorProto proto, FileDescriptor[] dependencies, bool allowUnknownDependencies)
	{
	var nameToFileMap = new Dictionary<string, FileDescriptor>();
	foreach (var file in dependencies)
	{
	nameToFileMap[file.Name] = file;
	}
	var publicDependencies = new List<FileDescriptor>();
	for (int i = 0; i < proto.PublicDependency.Count; i++)
	{
	int index = proto.PublicDependency[i];
	if (index < 0 \|\| index >= proto.Dependency.Count)
	{
	throw new DescriptorValidationException(@this, "Invalid public dependency index.");
	}
	string name = proto.Dependency[index];
	FileDescriptor file = nameToFileMap[name];
	if (file == null)
	{
	if (!allowUnknownDependencies)
	{
	throw new DescriptorValidationException(@this, "Invalid public dependency: " + name);
	}
	// Ignore unknown dependencies.
	}
	else
	{
	publicDependencies.Add(file);
	}
	}
	return new ReadOnlyCollection<FileDescriptor>(publicDependencies);
	}

	/// <value>
	/// The descriptor in its protocol message representation.
	/// </value>
	internal FileDescriptorProto Proto { get; }

	/// <value>
	/// The file name.
	/// </value>
	public string Name => Proto.Name;

	/// <summary>
	/// The package as declared in the .proto file. This may or may not
	/// be equivalent to the .NET namespace of the generated classes.
	/// </summary>
	public string Package => Proto.Package;

	/// <value>
	/// Unmodifiable list of top-level message types declared in this file.
	/// </value>
	public IList<MessageDescriptor> MessageTypes { get; }

	/// <value>
	/// Unmodifiable list of top-level enum types declared in this file.
	/// </value>
	public IList<EnumDescriptor> EnumTypes { get; }

	/// <value>
	/// Unmodifiable list of top-level services declared in this file.
	/// </value>
	public IList<ServiceDescriptor> Services { get; }

	/// <value>
	/// Unmodifiable list of this file's dependencies (imports).
	/// </value>
	public IList<FileDescriptor> Dependencies { get; }

	/// <value>
	/// Unmodifiable list of this file's public dependencies (public imports).
	/// </value>
	public IList<FileDescriptor> PublicDependencies { get; }

	/// <value>
	/// The original serialized binary form of this descriptor.
	/// </value>
	public ByteString SerializedData { get; }

	/// <value>
	/// Implementation of IDescriptor.FullName - just returns the same as Name.
	/// </value>
	string IDescriptor.FullName => Name;

	/// <value>
	/// Implementation of IDescriptor.File - just returns this descriptor.
	/// </value>
	FileDescriptor IDescriptor.File => this;

	/// <value>
	/// Pool containing symbol descriptors.
	/// </value>
	internal DescriptorPool DescriptorPool { get; }

	/// <summary>
	/// Finds a type (message, enum, service or extension) in the file by name. Does not find nested types.
	/// </summary>
	/// <param name="name">The unqualified type name to look for.</param>
	/// <typeparam name="T">The type of descriptor to look for</typeparam>
	/// <returns>The type's descriptor, or null if not found.</returns>
	public T FindTypeByName<T>(String name)
	where T : class, IDescriptor
	{
	// Don't allow looking up nested types. This will make optimization
	// easier later.
	if (name.IndexOf('.') != -1)
	{
	return null;
	}
	if (Package.Length > 0)
	{
	name = Package + "." + name;
	}
	T result = DescriptorPool.FindSymbol<T>(name);
	if (result != null && result.File == this)
	{
	return result;
	}
	return null;
	}

	/// <summary>
	/// Builds a FileDescriptor from its protocol buffer representation.
	/// </summary>
	/// <param name="descriptorData">The original serialized descriptor data.
	/// We have only limited proto2 support, so serializing FileDescriptorProto
	/// would not necessarily give us this.</param>
	/// <param name="proto">The protocol message form of the FileDescriptor.</param>
	/// <param name="dependencies">FileDescriptors corresponding to all of the
	/// file's dependencies, in the exact order listed in the .proto file. May be null,
	/// in which case it is treated as an empty array.</param>
	/// <param name="allowUnknownDependencies">Whether unknown dependencies are ignored (true) or cause an exception to be thrown (false).</param>
	/// <param name="generatedCodeInfo">Details about generated code, for the purposes of reflection.</param>
	/// <exception cref="DescriptorValidationException">If <paramref name="proto"/> is not
	/// a valid descriptor. This can occur for a number of reasons, such as a field
	/// having an undefined type or because two messages were defined with the same name.</exception>
	private static FileDescriptor BuildFrom(ByteString descriptorData, FileDescriptorProto proto, FileDescriptor[] dependencies, bool allowUnknownDependencies, GeneratedClrTypeInfo generatedCodeInfo)
	{
	// Building descriptors involves two steps: translating and linking.
	// In the translation step (implemented by FileDescriptor's
	// constructor), we build an object tree mirroring the
	// FileDescriptorProto's tree and put all of the descriptors into the
	// DescriptorPool's lookup tables. In the linking step, we look up all
	// type references in the DescriptorPool, so that, for example, a
	// FieldDescriptor for an embedded message contains a pointer directly
	// to the Descriptor for that message's type. We also detect undefined
	// types in the linking step.
	if (dependencies == null)
	{
	dependencies = new FileDescriptor[0];
	}

	DescriptorPool pool = new DescriptorPool(dependencies);
	FileDescriptor result = new FileDescriptor(descriptorData, proto, dependencies, pool, allowUnknownDependencies, generatedCodeInfo);

	// Validate that the dependencies we've been passed (as FileDescriptors) are actually the ones we
	// need.
	if (dependencies.Length != proto.Dependency.Count)
	{
	throw new DescriptorValidationException(
	result,
	"Dependencies passed to FileDescriptor.BuildFrom() don't match " +
	"those listed in the FileDescriptorProto.");
	}

	result.CrossLink();
	return result;
	}

	private void CrossLink()
	{
	foreach (MessageDescriptor message in MessageTypes)
	{
	message.CrossLink();
	}

	foreach (ServiceDescriptor service in Services)
	{
	service.CrossLink();
	}
	}

	/// <summary>
	/// Creates a descriptor for generated code.
	/// </summary>
	/// <remarks>
	/// This method is only designed to be used by the results of generating code with protoc,
	/// which creates the appropriate dependencies etc. It has to be public because the generated
	/// code is "external", but should not be called directly by end users.
	/// </remarks>
	public static FileDescriptor FromGeneratedCode(
	byte[] descriptorData,
	FileDescriptor[] dependencies,
	GeneratedClrTypeInfo generatedCodeInfo)
	{
	FileDescriptorProto proto;
	try
	{
	proto = FileDescriptorProto.Parser.ParseFrom(descriptorData);
	}
	catch (InvalidProtocolBufferException e)
	{
	throw new ArgumentException("Failed to parse protocol buffer descriptor for generated code.", e);
	}

	try
	{
	// When building descriptors for generated code, we allow unknown
	// dependencies by default.
	return BuildFrom(ByteString.CopyFrom(descriptorData), proto, dependencies, true, generatedCodeInfo);
	}
	catch (DescriptorValidationException e)
	{
	throw new ArgumentException($"Invalid embedded descriptor for \"{proto.Name}\".", e);
	}
	}

	/// <summary>
	/// Returns a <see cref="System.String" /> that represents this instance.
	/// </summary>
	/// <returns>
	/// A <see cref="System.String" /> that represents this instance.
	/// </returns>
	public override string ToString()
	{
	return $"FileDescriptor for {Name}";
	}

	/// <summary>
	/// Returns the file descriptor for descriptor.proto.
	/// </summary>
	/// <remarks>
	/// This is used for protos which take a direct dependency on <c>descriptor.proto</c>, typically for
	/// annotations. While <c>descriptor.proto</c> is a proto2 file, it is built into the Google.Protobuf
	/// runtime for reflection purposes. The messages are internal to the runtime as they would require
	/// proto2 semantics for full support, but the file descriptor is available via this property. The
	/// C# codegen in protoc automatically uses this property when it detects a dependency on <c>descriptor.proto</c>.
	/// </remarks>
	/// <value>
	/// The file descriptor for <c>descriptor.proto</c>.
	/// </value>
	public static FileDescriptor DescriptorProtoFileDescriptor { get { return DescriptorReflection.Descriptor; } }

	/// <summary>
	/// The (possibly empty) set of custom options for this file.
	/// </summary>
	public CustomOptions CustomOptions => Proto.Options?.CustomOptions ?? CustomOptions.Empty;

	/// <summary>
	/// Performs initialization for the given generic type argument.
	/// </summary>
	/// <remarks>
	/// This method is present for the sake of AOT compilers. It allows code (whether handwritten or generated)
	/// to make calls into the reflection machinery of this library to express an intention to use that type
	/// reflectively (e.g. for JSON parsing and formatting). The call itself does almost nothing, but AOT compilers
	/// attempting to determine which generic type arguments need to be handled will spot the code path and act
	/// accordingly.
	/// </remarks>
	/// <typeparam name="T">The type to force initialization for.</typeparam>
	public static void ForceReflectionInitialization<T>() => ReflectionUtil.ForceInitialize<T>();
	}
	}