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using System;
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using System.Collections;
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using System.Collections.Generic;
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using System.Reflection;
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using System.Text;
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using Google.ProtocolBuffers.Descriptors;
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namespace Google.ProtocolBuffers {
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/// <summary>
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/// Base type for all generated extensions.
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/// </summary>
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/// <remarks>
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/// The protocol compiler generates a static singleton instance of this
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/// class for each extension. For exmaple, imagine a .proto file with:
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/// <code>
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/// message Foo {
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/// extensions 1000 to max
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/// }
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///
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/// extend Foo {
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/// optional int32 bar;
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/// }
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/// </code>
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/// Then MyProto.Foo.Bar has type GeneratedExtensionBase<MyProto.Foo,int>.
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/// <para />
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/// In general, users should ignore the details of this type, and
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/// simply use the static singletons as parameters to the extension accessors
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/// in ExtendableMessage and ExtendableBuilder.
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/// The interface implemented by both GeneratedException and GeneratedRepeatException,
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/// to make it easier to cope with repeats separately.
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/// </remarks>
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public abstract class GeneratedExtensionBase<TContainer, TExtension> {
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private readonly FieldDescriptor descriptor;
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private readonly IMessage messageDefaultInstance;
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protected GeneratedExtensionBase(FieldDescriptor descriptor, Type singularExtensionType) {
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if (!descriptor.IsExtension) {
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throw new ArgumentException("GeneratedExtension given a regular (non-extension) field.");
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}
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this.descriptor = descriptor;
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if (descriptor.MappedType == MappedType.Message) {
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PropertyInfo defaultInstanceProperty = singularExtensionType
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.GetProperty("DefaultInstance", BindingFlags.Static | BindingFlags.Public);
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if (defaultInstanceProperty == null) {
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throw new ArgumentException("No public static DefaultInstance property for type " + typeof(TExtension).Name);
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}
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messageDefaultInstance = (IMessage)defaultInstanceProperty.GetValue(null, null);
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}
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}
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public FieldDescriptor Descriptor {
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get { return descriptor; }
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}
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/// <summary>
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/// Returns the default message instance for extensions which are message types.
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/// </summary>
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public IMessage MessageDefaultInstance {
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get { return messageDefaultInstance; }
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}
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public object SingularFromReflectionType(object value) {
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switch (Descriptor.MappedType) {
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case MappedType.Message:
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if (value is TExtension) {
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return value;
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} else {
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// It seems the copy of the embedded message stored inside the
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// extended message is not of the exact type the user was
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// expecting. This can happen if a user defines a
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// GeneratedExtension manually and gives it a different type.
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// This should not happen in normal use. But, to be nice, we'll
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// copy the message to whatever type the caller was expecting.
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return MessageDefaultInstance.CreateBuilderForType()
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.MergeFrom((IMessage)value).Build();
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}
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case MappedType.Enum:
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// Just return a boxed int - that can be unboxed to the enum
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return ((EnumValueDescriptor) value).Number;
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default:
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return value;
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}
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}
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/// <summary>
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/// Converts from the type used by the native accessors to the type
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/// used by reflection accessors. For example, the reflection accessors
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/// for enums use EnumValueDescriptors but the native accessors use
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/// the generated enum type.
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/// </summary>
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public object ToReflectionType(object value) {
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if (descriptor.IsRepeated) {
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if (descriptor.MappedType == MappedType.Enum) {
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// Must convert the whole list.
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IList<object> result = new List<object>();
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foreach (object element in (IEnumerable) value) {
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result.Add(SingularToReflectionType(element));
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}
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return result;
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} else {
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return value;
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}
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} else {
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return SingularToReflectionType(value);
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}
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}
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/// <summary>
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/// Like ToReflectionType(object) but for a single element.
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/// </summary>
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internal Object SingularToReflectionType(object value) {
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return descriptor.MappedType == MappedType.Enum
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? descriptor.EnumType.FindValueByNumber((int) value)
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: value;
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}
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public abstract object FromReflectionType(object value);
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}
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}
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