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source: trunk/sources/HeuristicLab.ExtLibs/HeuristicLab.ProtobufCS/0.9.1/ProtobufCS/src/ProtocolBuffers/IMessage.cs @ 5728

Last change on this file since 5728 was 3857, checked in by abeham, 15 years ago

#866

  • Added protobuf-csharp-port project source to ExtLibs
File size: 10.0 KB
Line 
1#region Copyright notice and license
2// Protocol Buffers - Google's data interchange format
3// Copyright 2008 Google Inc.  All rights reserved.
4// http://github.com/jskeet/dotnet-protobufs/
5// Original C++/Java/Python code:
6// http://code.google.com/p/protobuf/
7//
8// Redistribution and use in source and binary forms, with or without
9// modification, are permitted provided that the following conditions are
10// met:
11//
12//     * Redistributions of source code must retain the above copyright
13// notice, this list of conditions and the following disclaimer.
14//     * Redistributions in binary form must reproduce the above
15// copyright notice, this list of conditions and the following disclaimer
16// in the documentation and/or other materials provided with the
17// distribution.
18//     * Neither the name of Google Inc. nor the names of its
19// contributors may be used to endorse or promote products derived from
20// this software without specific prior written permission.
21//
22// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
23// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
24// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
25// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
26// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
27// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
28// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
29// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
30// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
31// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
32// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
33#endregion
34
35using System;
36using System.Collections.Generic;
37using System.IO;
38using Google.ProtocolBuffers.Descriptors;
39
40namespace Google.ProtocolBuffers {
41
42  /// <summary>
43  /// Non-generic interface used for all parts of the API which don't require
44  /// any type knowledge.
45  /// </summary>
46  public interface IMessage {
47    /// <summary>
48    /// Returns the message's type's descriptor. This differs from the
49    /// Descriptor property of each generated message class in that this
50    /// method is an abstract method of IMessage whereas Descriptor is
51    /// a static property of a specific class. They return the same thing.
52    /// </summary>
53    MessageDescriptor DescriptorForType { get; }
54    /// <summary>
55    /// Returns a collection of all the fields in this message which are set
56    /// and their corresponding values.  A singular ("required" or "optional")
57    /// field is set iff HasField() returns true for that field.  A "repeated"
58    /// field is set iff GetRepeatedFieldSize() is greater than zero.  The
59    /// values are exactly what would be returned by calling
60    /// GetField(FieldDescriptor) for each field.  The map
61    /// is guaranteed to be a sorted map, so iterating over it will return fields
62    /// in order by field number.
63    /// </summary>
64    IDictionary<FieldDescriptor, object> AllFields { get; }
65
66    /// <summary>
67    /// Returns true if the given field is set. This is exactly equivalent
68    /// to calling the generated "Has" property corresponding to the field.
69    /// </summary>
70    /// <exception cref="ArgumentException">the field is a repeated field,
71    /// or it's not a field of this type</exception>
72    bool HasField(FieldDescriptor field);
73
74    /// <summary>
75    /// Obtains the value of the given field, or the default value if
76    /// it isn't set. For value type fields, the boxed value is returned.
77    /// For enum fields, the EnumValueDescriptor for the enum is returned.
78    /// For embedded message fields, the sub-message
79    /// is returned. For repeated fields, an IList&lt;T&gt; is returned.
80    /// </summary>
81    object this[FieldDescriptor field] { get; }
82
83    /// <summary>
84    /// Returns the number of elements of a repeated field. This is
85    /// exactly equivalent to calling the generated "Count" property
86    /// corresponding to the field.
87    /// </summary>
88    /// <exception cref="ArgumentException">the field is not a repeated field,
89    /// or it's not a field of this type</exception>
90    int GetRepeatedFieldCount(FieldDescriptor field);
91
92    /// <summary>
93    /// Gets an element of a repeated field. For value type fields
94    /// excluding enums, the boxed value is returned. For embedded
95    /// message fields, the sub-message is returned. For enums, the
96    /// relevant EnumValueDescriptor is returned.
97    /// </summary>
98    /// <exception cref="ArgumentException">the field is not a repeated field,
99    /// or it's not a field of this type</exception>
100    /// <exception cref="ArgumentOutOfRangeException">the index is out of
101    /// range for the repeated field's value</exception>
102    object this[FieldDescriptor field, int index] { get; }
103
104    /// <summary>
105    /// Returns the unknown fields for this message.
106    /// </summary>
107    UnknownFieldSet UnknownFields { get; }
108
109    /// <summary>
110    /// Returns true iff all required fields in the message and all embedded
111    /// messages are set.
112    /// </summary>
113    bool IsInitialized { get; }
114
115    /// <summary>
116    /// Serializes the message and writes it to the given output stream.
117    /// This does not flush or close the stream.
118    /// </summary>
119    /// <remarks>
120    /// Protocol Buffers are not self-delimiting. Therefore, if you write
121    /// any more data to the stream after the message, you must somehow ensure
122    /// that the parser on the receiving end does not interpret this as being
123    /// part of the protocol message. One way of doing this is by writing the size
124    /// of the message before the data, then making sure you limit the input to
125    /// that size when receiving the data. Alternatively, use WriteDelimitedTo(Stream).
126    /// </remarks>
127    void WriteTo(CodedOutputStream output);
128
129    /// <summary>
130    /// Like WriteTo(Stream) but writes the size of the message as a varint before
131    /// writing the data. This allows more data to be written to the stream after the
132    /// message without the need to delimit the message data yourself. Use
133    /// IBuilder.MergeDelimitedFrom(Stream) or the static method
134    /// YourMessageType.ParseDelimitedFrom(Stream) to parse messages written by this method.
135    /// </summary>
136    /// <param name="output"></param>
137    void WriteDelimitedTo(Stream output);
138
139    /// <summary>
140    /// Returns the number of bytes required to encode this message.
141    /// The result is only computed on the first call and memoized after that.
142    /// </summary>
143    int SerializedSize { get; }
144
145    #region Comparison and hashing
146    /// <summary>
147    /// Compares the specified object with this message for equality.
148    /// Returns true iff the given object is a message of the same type
149    /// (as defined by DescriptorForType) and has identical values
150    /// for all its fields.
151    /// </summary>
152    bool Equals(object other);
153
154    /// <summary>
155    /// Returns the hash code value for this message.
156    /// TODO(jonskeet): Specify the hash algorithm, but better than the Java one!
157    /// </summary>
158    int GetHashCode();
159    #endregion
160
161    #region Convenience methods
162    /// <summary>
163    /// Converts the message to a string in protocol buffer text format.
164    /// This is just a trivial wrapper around TextFormat.PrintToString.
165    /// </summary>
166    string ToString();
167
168    /// <summary>
169    /// Serializes the message to a ByteString. This is a trivial wrapper
170    /// around WriteTo(CodedOutputStream).
171    /// </summary>
172    ByteString ToByteString();
173
174    /// <summary>
175    /// Serializes the message to a byte array. This is a trivial wrapper
176    /// around WriteTo(CodedOutputStream).
177    /// </summary>
178    byte[] ToByteArray();
179
180    /// <summary>
181    /// Serializes the message and writes it to the given stream.
182    /// This is just a wrapper around WriteTo(CodedOutputStream). This
183    /// does not flush or close the stream.
184    /// </summary>
185    /// <param name="output"></param>
186    void WriteTo(Stream output);
187    #endregion
188
189    /// <summary>
190    /// Creates a builder for the type, but in a weakly typed manner. This
191    /// is typically implemented by strongly typed messages by just returning
192    /// the result of CreateBuilderForType.
193    /// </summary>
194    IBuilder WeakCreateBuilderForType();
195
196    /// <summary>
197    /// Creates a builder with the same contents as this message. This
198    /// is typically implemented by strongly typed messages by just returning
199    /// the result of ToBuilder.
200    /// </summary>
201    IBuilder WeakToBuilder();
202
203    IMessage WeakDefaultInstanceForType { get; }
204  }
205
206  public interface IMessage<TMessage> : IMessage {
207    /// <summary>
208    /// Returns an instance of this message type with all fields set to
209    /// their default values. This may or may not be a singleton. This differs
210    /// from the DefaultInstance property of each generated message class in that this
211    /// method is an abstract method of IMessage whereas DefaultInstance is
212    /// a static property of a specific class. They return the same thing.
213    /// </summary>
214    TMessage DefaultInstanceForType { get; }
215  }
216
217  /// <summary>
218  /// Type-safe interface for all generated messages to implement.
219  /// </summary>
220  public interface IMessage<TMessage, TBuilder> : IMessage<TMessage>
221      where TMessage : IMessage<TMessage, TBuilder>
222      where TBuilder : IBuilder<TMessage, TBuilder> {
223    #region Builders
224    /// <summary>
225    /// Constructs a new builder for a message of the same type as this message.
226    /// </summary>
227    TBuilder CreateBuilderForType();
228    /// <summary>
229    /// Creates a builder with the same contents as this current instance.
230    /// This is typically implemented by strongly typed messages by just
231    /// returning the result of ToBuilder().
232    /// </summary>
233    TBuilder ToBuilder();
234    #endregion
235  }
236}
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