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using System;
using System.Collections;
using System.Collections.Generic;
using System.Text;
using Google.ProtocolBuffers.Descriptors;
using Google.ProtocolBuffers.Collections;
namespace Google.ProtocolBuffers {
/// <summary>
/// A class which represents an arbitrary set of fields of some message type.
/// This is used to implement DynamicMessage, and also to represent extensions
/// in GeneratedMessage. This class is internal, since outside users should probably
/// be using DynamicMessage.
///
/// As in the Java implementation, this class goes against the rest of the framework
/// in terms of mutability. Instead of having a mutable Builder class and an immutable
/// FieldSet class, FieldSet just has a MakeImmutable() method. This is safe so long as
/// all callers are careful not to let a mutable FieldSet escape into the open. This would
/// be impossible to guarantee if this were a public class, of course.
/// </summary>
internal class FieldSet {
private static readonly FieldSet defaultInstance = new FieldSet(new Dictionary<FieldDescriptor, object>()).MakeImmutable();
private IDictionary<FieldDescriptor, object> fields;
private FieldSet(IDictionary<FieldDescriptor, object> fields) {
this.fields = fields;
}
/// <summary>
/// Makes this FieldSet immutable, and returns it for convenience. Any
/// mutable repeated fields are made immutable, as well as the map itself.
/// </summary>
internal FieldSet MakeImmutable() {
// First check if we have any repeated values
bool hasRepeats = false;
foreach (object value in fields.Values) {
IList<object> list = value as IList<object>;
if (list != null && !list.IsReadOnly) {
hasRepeats = true;
break;
}
}
if (hasRepeats) {
var tmp = new SortedList<FieldDescriptor, object>();
foreach (KeyValuePair<FieldDescriptor, object> entry in fields) {
IList<object> list = entry.Value as IList<object>;
tmp[entry.Key] = list == null ? entry.Value : Lists.AsReadOnly(list);
}
fields = tmp;
}
fields = Dictionaries.AsReadOnly(fields);
return this;
}
/// <summary>
/// Returns the default, immutable instance with no fields defined.
/// </summary>
internal static FieldSet DefaultInstance {
get { return defaultInstance; }
}
/// <summary>
/// Returns an immutable mapping of fields. Note that although the mapping itself
/// is immutable, the entries may not be (i.e. any repeated values are represented by
/// mutable lists). The behaviour is not specified if the contents are mutated.
/// </summary>
internal IDictionary<FieldDescriptor, object> AllFields {
get { return Dictionaries.AsReadOnly(fields); }
}
/// <summary>
/// See <see cref="IMessage.HasField"/>.
/// </summary>
public bool HasField(FieldDescriptor field) {
if (field.IsRepeated) {
throw new ArgumentException("HasField() can only be called on non-repeated fields.");
}
return fields.ContainsKey(field);
}
// TODO(jonskeet): Should this be in UnknownFieldSet.Builder really?
internal static void MergeFrom(CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistry extensionRegistry,
IBuilder builder) {
while (true) {
uint tag = input.ReadTag();
if (tag == 0) {
break;
}
if (!MergeFieldFrom(input, unknownFields, extensionRegistry,
builder, tag)) {
// end group tag
break;
}
}
}
// TODO(jonskeet): Should this be in UnknownFieldSet.Builder really?
/// <summary>
/// Like <see cref="MergeFrom(CodedInputStream, UnknownFieldSet.Builder, ExtensionRegistry, IBuilder)" />
/// but parses a single field.
/// </summary>
/// <param name="input">The input to read the field from</param>
/// <param name="unknownFields">The set of unknown fields to add the newly-read field to</param>
/// <param name="extensionRegistry">Registry to use when an extension field is encountered</param>
/// <param name="builder">A builder (???)</param>
/// <param name="tag">The tag, which should already have been read from the input</param>
/// <returns>true unless the tag is an end-group tag</returns>
internal static bool MergeFieldFrom(CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistry extensionRegistry,
IBuilder builder,
uint tag) {
MessageDescriptor type = builder.DescriptorForType;
if (type.Options.IsMessageSetWireFormat
&& tag == WireFormat.MessageSetTag.ItemStart) {
MergeMessageSetExtensionFromCodedStream(input, unknownFields, extensionRegistry, builder);
return true;
}
WireFormat.WireType wireType = WireFormat.GetTagWireType(tag);
int fieldNumber = WireFormat.GetTagFieldNumber(tag);
FieldDescriptor field;
IMessage defaultInstance = null;
if (type.IsExtensionNumber(fieldNumber)) {
ExtensionInfo extension = extensionRegistry[type, fieldNumber];
if (extension == null) {
field = null;
} else {
field = extension.Descriptor;
defaultInstance = extension.DefaultInstance;
}
} else {
field = type.FindFieldByNumber(fieldNumber);
}
// Unknown field or wrong wire type. Skip.
if (field == null || wireType != WireFormat.FieldTypeToWireFormatMap[field.FieldType]) {
return unknownFields.MergeFieldFrom(tag, input);
}
object value;
switch (field.FieldType) {
case FieldType.Group:
case FieldType.Message: {
IBuilder subBuilder;
if (defaultInstance != null) {
subBuilder = defaultInstance.CreateBuilderForType();
} else {
subBuilder = builder.CreateBuilderForField(field);
}
if (!field.IsRepeated) {
subBuilder.MergeFrom((IMessage) builder[field]);
}
if (field.FieldType == FieldType.Group) {
input.ReadGroup(field.FieldNumber, subBuilder, extensionRegistry);
} else {
input.ReadMessage(subBuilder, extensionRegistry);
}
value = subBuilder.Build();
break;
}
case FieldType.Enum: {
int rawValue = input.ReadEnum();
value = field.EnumType.FindValueByNumber(rawValue);
// If the number isn't recognized as a valid value for this enum,
// drop it.
if (value == null) {
unknownFields.MergeVarintField(fieldNumber, (ulong) rawValue);
return true;
}
break;
}
default:
value = input.ReadPrimitiveField(field.FieldType);
break;
}
if (field.IsRepeated) {
builder.AddRepeatedField(field, value);
} else {
builder[field] = value;
}
return true;
}
// TODO(jonskeet): Move to UnknownFieldSet.Builder?
/// <summary>
/// Called by MergeFieldFrom to parse a MessageSet extension.
/// </summary>
private static void MergeMessageSetExtensionFromCodedStream(CodedInputStream input,
UnknownFieldSet.Builder unknownFields,
ExtensionRegistry extensionRegistry,
IBuilder builder) {
MessageDescriptor type = builder.DescriptorForType;
// The wire format for MessageSet is:
// message MessageSet {
// repeated group Item = 1 {
// required int32 typeId = 2;
// required bytes message = 3;
// }
// }
// "typeId" is the extension's field number. The extension can only be
// a message type, where "message" contains the encoded bytes of that
// message.
//
// In practice, we will probably never see a MessageSet item in which
// the message appears before the type ID, or where either field does not
// appear exactly once. However, in theory such cases are valid, so we
// should be prepared to accept them.
int typeId = 0;
ByteString rawBytes = null; // If we encounter "message" before "typeId"
IBuilder subBuilder = null;
FieldDescriptor field = null;
while (true) {
uint tag = input.ReadTag();
if (tag == 0) {
break;
}
if (tag == WireFormat.MessageSetTag.TypeID) {
typeId = input.ReadInt32();
// Zero is not a valid type ID.
if (typeId != 0) {
ExtensionInfo extension = extensionRegistry[type, typeId];
if (extension != null) {
field = extension.Descriptor;
subBuilder = extension.DefaultInstance.CreateBuilderForType();
IMessage originalMessage = (IMessage) builder[field];
if (originalMessage != null) {
subBuilder.MergeFrom(originalMessage);
}
if (rawBytes != null) {
// We already encountered the message. Parse it now.
// TODO(jonskeet): Check this is okay. It's subtly different from the Java, as it doesn't create an input stream from rawBytes.
// In fact, why don't we just call MergeFrom(rawBytes)? And what about the extension registry?
subBuilder.MergeFrom(rawBytes.CreateCodedInput());
rawBytes = null;
}
} else {
// Unknown extension number. If we already saw data, put it
// in rawBytes.
if (rawBytes != null) {
unknownFields.MergeField(typeId,
UnknownField.CreateBuilder()
.AddLengthDelimited(rawBytes)
.Build());
rawBytes = null;
}
}
}
} else if (tag == WireFormat.MessageSetTag.Message) {
if (typeId == 0) {
// We haven't seen a type ID yet, so we have to store the raw bytes for now.
rawBytes = input.ReadBytes();
} else if (subBuilder == null) {
// We don't know how to parse this. Ignore it.
unknownFields.MergeField(typeId,
UnknownField.CreateBuilder()
.AddLengthDelimited(input.ReadBytes())
.Build());
} else {
// We already know the type, so we can parse directly from the input
// with no copying. Hooray!
input.ReadMessage(subBuilder, extensionRegistry);
}
} else {
// Unknown tag. Skip it.
if (!input.SkipField(tag)) {
break; // end of group
}
}
}
input.CheckLastTagWas(WireFormat.MessageSetTag.ItemEnd);
if (subBuilder != null) {
builder[field] = subBuilder.Build();
}
}
/// <summary>
/// Clears all fields.
/// </summary>
internal void Clear() {
fields.Clear();
}
/// <summary>
/// See <see cref="IMessage.Item(FieldDescriptor)"/>
/// </summary>
/// <remarks>
/// If the field is not set, the behaviour when fetching this property varies by field type:
/// <list>
/// <item>For singular message values, null is returned.</item>
/// <item>For singular non-message values, the default value of the field is returned.</item>
/// <item>For repeated values, an empty immutable list is returned.</item>
/// </list>
/// This method returns null if the field is a singular message type
/// and is not set; in this case it is up to the caller to fetch the
/// message's default instance. For repeated fields of message types,
/// an empty collection is returned. For repeated fields of non-message
/// types, null is returned.
/// <para />
/// When setting this property, any list values are copied, and each element is checked
/// to ensure it is of an appropriate type.
/// </remarks>
///
internal object this[FieldDescriptor field] {
get {
object result;
if (fields.TryGetValue(field, out result)) {
return result;
}
// This will just do the right thing
return field.DefaultValue;
}
set {
if (field.IsRepeated) {
List<object> list = value as List<object>;
if (list == null) {
throw new ArgumentException("Wrong object type used with protocol message reflection.");
}
// Wrap the contents in a new list so that the caller cannot change
// the list's contents after setting it.
List<object> newList = new List<object>(list);
foreach (object element in newList) {
VerifyType(field, element);
}
value = newList;
}
else {
VerifyType(field, value);
}
fields[field] = value;
}
}
/// <summary>
/// See <see cref="IMessage.Item(FieldDescriptor,int)" />
/// </summary>
internal object this[FieldDescriptor field, int index] {
get {
if (!field.IsRepeated) {
throw new ArgumentException("Indexer specifying field and index can only be called on repeated fields.");
}
return ((List<object>)this[field])[index];
}
set {
if (!field.IsRepeated) {
throw new ArgumentException("Indexer specifying field and index can only be called on repeated fields.");
}
VerifyType(field, value);
object list;
if (!fields.TryGetValue(field, out list)) {
throw new ArgumentOutOfRangeException();
}
((List<object>) list)[index] = value;
}
}
/// <summary>
/// See <see cref="IBuilder.AddRepeatedField" />
/// </summary>
/// <param name="field"></param>
/// <param name="value"></param>
internal void AddRepeatedField(FieldDescriptor field, object value) {
if (!field.IsRepeated) {
throw new ArgumentException("AddRepeatedField can only be called on repeated fields.");
}
VerifyType(field, value);
object list;
if (!fields.TryGetValue(field, out list)) {
list = new List<object>();
fields[field] = list;
}
((List<object>) list).Add(value);
}
/// <summary>
/// See <see cref="IMessage.IsInitialized" />
/// </summary>
/// <remarks>
/// Since FieldSet itself does not have any way of knowing about
/// required fields that aren't actually present in the set, it is up
/// to the caller to check for genuinely required fields. This property
/// merely checks that any messages present are themselves initialized.
/// </remarks>
internal bool IsInitialized {
get {
foreach (KeyValuePair<FieldDescriptor, object> entry in fields) {
FieldDescriptor field = entry.Key;
if (field.MappedType == MappedType.Message) {
if (field.IsRepeated) {
foreach(IMessage message in (IEnumerable) entry.Value) {
if (!message.IsInitialized) {
return false;
}
}
} else {
if (!((IMessage) entry.Value).IsInitialized) {
return false;
}
}
}
}
return true;
}
}
/// <summary>
/// Verifies whether all the required fields in the specified message
/// descriptor are present in this field set, as well as whether
/// all the embedded messages are themselves initialized.
/// </summary>
internal bool IsInitializedWithRespectTo(MessageDescriptor type) {
foreach (FieldDescriptor field in type.Fields) {
if (field.IsRequired && !HasField(field)) {
return false;
}
}
return IsInitialized;
}
/// <summary>
/// See <see cref="IBuilder.ClearField" />
/// </summary>
public void ClearField(FieldDescriptor field) {
fields.Remove(field);
}
/// <summary>
/// See <see cref="IMessage.GetRepeatedFieldCount" />
/// </summary>
public int GetRepeatedFieldCount(FieldDescriptor field) {
if (!field.IsRepeated) {
throw new ArgumentException("GetRepeatedFieldCount() can only be called on repeated fields.");
}
return ((List<object>) this[field]).Count;
}
/// <summary>
/// Implementation of both <c>MergeFrom</c> methods.
/// </summary>
/// <param name="otherFields"></param>
private void MergeFields(IEnumerable<KeyValuePair<FieldDescriptor, object>> otherFields) {
// Note: We don't attempt to verify that other's fields have valid
// types. Doing so would be a losing battle. We'd have to verify
// all sub-messages as well, and we'd have to make copies of all of
// them to insure that they don't change after verification (since
// the IMessage interface itself cannot enforce immutability of
// implementations).
// TODO(jonskeet): Provide a function somewhere called MakeDeepCopy()
// which allows people to make secure deep copies of messages.
foreach (KeyValuePair<FieldDescriptor, object> entry in otherFields) {
FieldDescriptor field = entry.Key;
object existingValue;
fields.TryGetValue(field, out existingValue);
if (field.IsRepeated) {
if (existingValue == null) {
existingValue = new List<object>();
fields[field] = existingValue;
}
List<object> list = (List<object>)existingValue;
foreach (object otherValue in (IEnumerable)entry.Value) {
list.Add(otherValue);
}
} else if (field.MappedType == MappedType.Message && existingValue != null) {
IMessage existingMessage = (IMessage)existingValue;
IMessage merged = existingMessage.CreateBuilderForType()
.MergeFrom(existingMessage)
.MergeFrom((IMessage)entry.Value)
.Build();
this[field] = merged;
} else {
this[field] = entry.Value;
}
}
}
/// <summary>
/// See <see cref="IBuilder.MergeFrom(IMessage)" />
/// </summary>
public void MergeFrom(IMessage other) {
MergeFields(other.AllFields);
}
/// <summary>
/// Like <see cref="MergeFrom(IMessage)"/>, but merges from another <c>FieldSet</c>.
/// </summary>
public void MergeFrom(FieldSet other) {
MergeFields(other.fields);
}
/// <summary>
/// Verifies that the given object is of the correct type to be a valid
/// value for the given field.
/// </summary>
/// <remarks>
/// For repeated fields, this checks if the object is of the right
/// element type, not whether it's a list.
/// </remarks>
/// <exception cref="ArgumentException">The value is not of the right type.</exception>
private static void VerifyType(FieldDescriptor field, object value) {
bool isValid = false;
switch (field.MappedType) {
case MappedType.Int32: isValid = value is int; break;
case MappedType.Int64: isValid = value is long; break;
case MappedType.UInt32: isValid = value is uint; break;
case MappedType.UInt64: isValid = value is ulong; break;
case MappedType.Single: isValid = value is float; break;
case MappedType.Double: isValid = value is double; break;
case MappedType.Boolean: isValid = value is bool; break;
case MappedType.String: isValid = value is string; break;
case MappedType.ByteString: isValid = value is ByteString; break;
case MappedType.Enum:
EnumValueDescriptor enumValue = value as EnumValueDescriptor;
isValid = enumValue != null && enumValue.EnumDescriptor == field.EnumType;
break;
case MappedType.Message:
IMessage messageValue = value as IMessage;
isValid = messageValue != null && messageValue.DescriptorForType == field.MessageType;
break;
}
if (!isValid) {
// When chaining calls to SetField(), it can be hard to tell from
// the stack trace which exact call failed, since the whole chain is
// considered one line of code. So, let's make sure to include the
// field name and other useful info in the exception.
throw new ArgumentException("Wrong object type used with protocol message reflection. "
+ "Message type \"" + field.ContainingType.FullName
+ "\", field \"" + (field.IsExtension ? field.FullName : field.Name)
+ "\", value was type \"" + value.GetType().Name + "\".");
}
}
}
}
|