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source: trunk/sources/HeuristicLab.ExtLibs/HeuristicLab.ProtobufCS/0.9.1/ProtobufCS/src/ProtocolBuffers.Test/AbstractMessageTest.cs @ 6042

Last change on this file since 6042 was 4068, checked in by swagner, 14 years ago

Sorted usings and removed unused usings in entire solution (#1094)

File size: 16.0 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 Google.ProtocolBuffers.Descriptors;
38using Google.ProtocolBuffers.TestProtos;
39using NUnit.Framework;
40
41namespace Google.ProtocolBuffers {
42  [TestFixture]
43  public class AbstractMessageTest {
44
45    [Test]
46    public void Clear() {
47      AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.CreateBuilder(TestUtil.GetAllSet())).Clear().Build();
48      TestUtil.AssertClear((TestAllTypes)message.WrappedMessage);
49    }
50
51    [Test]
52    public void Copy() {
53      AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.CreateBuilder()).MergeFrom(TestUtil.GetAllSet()).Build();
54      TestUtil.AssertAllFieldsSet((TestAllTypes)message.WrappedMessage);
55    }
56
57    [Test]
58    public void SerializedSize() {
59      TestAllTypes message = TestUtil.GetAllSet();
60      IMessage abstractMessage = new AbstractMessageWrapper(TestUtil.GetAllSet());
61
62      Assert.AreEqual(message.SerializedSize, abstractMessage.SerializedSize);
63    }
64
65    [Test]
66    public void Serialization() {
67      IMessage abstractMessage = new AbstractMessageWrapper(TestUtil.GetAllSet());
68      TestUtil.AssertAllFieldsSet(TestAllTypes.ParseFrom(abstractMessage.ToByteString()));
69      Assert.AreEqual(TestUtil.GetAllSet().ToByteString(), abstractMessage.ToByteString());
70    }
71
72    [Test]
73    public void Parsing() {
74      IBuilder builder = new AbstractMessageWrapper.Builder(TestAllTypes.CreateBuilder());
75      AbstractMessageWrapper message = (AbstractMessageWrapper)builder.WeakMergeFrom(TestUtil.GetAllSet().ToByteString()).WeakBuild();
76      TestUtil.AssertAllFieldsSet((TestAllTypes)message.WrappedMessage);
77    }
78
79    [Test]
80    public void PackedSerialization() {
81      IMessage abstractMessage = new AbstractMessageWrapper(TestUtil.GetPackedSet());
82      TestUtil.AssertPackedFieldsSet(TestPackedTypes.ParseFrom(abstractMessage.ToByteString()));
83      Assert.AreEqual(TestUtil.GetPackedSet().ToByteString(), abstractMessage.ToByteString());
84    }
85
86    [Test]
87    public void PackedParsing() {
88      AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestPackedTypes.CreateBuilder());
89      AbstractMessageWrapper message = builder.MergeFrom(TestUtil.GetPackedSet().ToByteString()).Build();
90      TestUtil.AssertPackedFieldsSet((TestPackedTypes)message.WrappedMessage);
91    }
92
93    [Test]
94    public void OptimizedForSize() {
95      // We're mostly only Checking that this class was compiled successfully.
96      TestOptimizedForSize message = TestOptimizedForSize.CreateBuilder().SetI(1).Build();
97      message = TestOptimizedForSize.ParseFrom(message.ToByteString());
98      Assert.AreEqual(2, message.SerializedSize);
99    }
100
101    // -----------------------------------------------------------------
102    // Tests for isInitialized().
103
104    private static readonly TestRequired TestRequiredUninitialized = TestRequired.DefaultInstance;
105    private static readonly TestRequired TestRequiredInitialized = TestRequired.CreateBuilder().SetA(1).SetB(2).SetC(3).Build();
106
107    [Test]
108    public void IsInitialized() {
109      TestRequired.Builder builder = TestRequired.CreateBuilder();
110      AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder);
111
112      Assert.IsFalse(abstractBuilder.IsInitialized);
113      builder.A = 1;
114      Assert.IsFalse(abstractBuilder.IsInitialized);
115      builder.B = 1;
116      Assert.IsFalse(abstractBuilder.IsInitialized);
117      builder.C = 1;
118      Assert.IsTrue(abstractBuilder.IsInitialized);
119    }
120
121    [Test]
122    public void ForeignIsInitialized() {
123      TestRequiredForeign.Builder builder = TestRequiredForeign.CreateBuilder();
124      AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder);
125
126      Assert.IsTrue(abstractBuilder.IsInitialized);
127
128      builder.SetOptionalMessage(TestRequiredUninitialized);
129      Assert.IsFalse(abstractBuilder.IsInitialized);
130
131      builder.SetOptionalMessage(TestRequiredInitialized);
132      Assert.IsTrue(abstractBuilder.IsInitialized);
133
134      builder.AddRepeatedMessage(TestRequiredUninitialized);
135      Assert.IsFalse(abstractBuilder.IsInitialized);
136
137      builder.SetRepeatedMessage(0, TestRequiredInitialized);
138      Assert.IsTrue(abstractBuilder.IsInitialized);
139    }
140
141    // -----------------------------------------------------------------
142    // Tests for mergeFrom
143
144    static readonly TestAllTypes MergeSource = TestAllTypes.CreateBuilder()
145        .SetOptionalInt32(1)
146        .SetOptionalString("foo")
147        .SetOptionalForeignMessage(ForeignMessage.DefaultInstance)
148        .AddRepeatedString("bar")
149        .Build();
150
151    static readonly TestAllTypes MergeDest = TestAllTypes.CreateBuilder()
152        .SetOptionalInt64(2)
153        .SetOptionalString("baz")
154        .SetOptionalForeignMessage(ForeignMessage.CreateBuilder().SetC(3).Build())
155        .AddRepeatedString("qux")
156        .Build();
157
158    const string MergeResultText = "optional_int32: 1\n" +
159        "optional_int64: 2\n" +
160        "optional_string: \"foo\"\n" +
161        "optional_foreign_message {\n" +
162        "  c: 3\n" +
163        "}\n" +
164        "repeated_string: \"qux\"\n" +
165        "repeated_string: \"bar\"\n";
166
167    [Test]
168    public void MergeFrom() {
169      AbstractMessageWrapper result = (AbstractMessageWrapper)
170        new AbstractMessageWrapper.Builder(TestAllTypes.CreateBuilder(MergeDest))
171            .MergeFrom(MergeSource)
172            .Build();
173
174      Assert.AreEqual(MergeResultText, result.ToString());
175    }
176
177    // -----------------------------------------------------------------
178    // Tests for equals and hashCode
179
180    [Test]
181    public void EqualsAndHashCode() {
182      TestAllTypes a = TestUtil.GetAllSet();
183      TestAllTypes b = TestAllTypes.CreateBuilder().Build();
184      TestAllTypes c = TestAllTypes.CreateBuilder(b).AddRepeatedString("x").Build();
185      TestAllTypes d = TestAllTypes.CreateBuilder(c).AddRepeatedString("y").Build();
186      TestAllExtensions e = TestUtil.GetAllExtensionsSet();
187      TestAllExtensions f = TestAllExtensions.CreateBuilder(e)
188          .AddExtension(UnitTestProtoFile.RepeatedInt32Extension, 999).Build();
189
190      CheckEqualsIsConsistent(a);
191      CheckEqualsIsConsistent(b);
192      CheckEqualsIsConsistent(c);
193      CheckEqualsIsConsistent(d);
194      CheckEqualsIsConsistent(e);
195      CheckEqualsIsConsistent(f);
196
197      CheckNotEqual(a, b);
198      CheckNotEqual(a, c);
199      CheckNotEqual(a, d);
200      CheckNotEqual(a, e);
201      CheckNotEqual(a, f);
202
203      CheckNotEqual(b, c);
204      CheckNotEqual(b, d);
205      CheckNotEqual(b, e);
206      CheckNotEqual(b, f);
207
208      CheckNotEqual(c, d);
209      CheckNotEqual(c, e);
210      CheckNotEqual(c, f);
211
212      CheckNotEqual(d, e);
213      CheckNotEqual(d, f);
214
215      CheckNotEqual(e, f);
216
217      // Deserializing into the TestEmptyMessage such that every field is an UnknownFieldSet.Field
218      TestEmptyMessage eUnknownFields = TestEmptyMessage.ParseFrom(e.ToByteArray());
219      TestEmptyMessage fUnknownFields = TestEmptyMessage.ParseFrom(f.ToByteArray());
220      CheckNotEqual(eUnknownFields, fUnknownFields);
221      CheckEqualsIsConsistent(eUnknownFields);
222      CheckEqualsIsConsistent(fUnknownFields);
223
224      // Subseqent reconstitutions should be identical
225      TestEmptyMessage eUnknownFields2 = TestEmptyMessage.ParseFrom(e.ToByteArray());
226      CheckEqualsIsConsistent(eUnknownFields, eUnknownFields2);
227    }
228
229    /// <summary>
230    /// Asserts that the given protos are equal and have the same hash code.
231    /// </summary>
232    private static void CheckEqualsIsConsistent(IMessage message) {
233      // Object should be equal to itself.
234      Assert.AreEqual(message, message);
235
236      // Object should be equal to a dynamic copy of itself.
237      DynamicMessage dynamic = DynamicMessage.CreateBuilder(message).Build();
238      CheckEqualsIsConsistent(message, dynamic);
239    }
240
241    /// <summary>
242    /// Asserts that the given protos are equal and have the same hash code.
243    /// </summary>
244    private static void CheckEqualsIsConsistent(IMessage message1, IMessage message2) {
245      Assert.AreEqual(message1, message2);
246      Assert.AreEqual(message2, message1);
247      Assert.AreEqual(message2.GetHashCode(), message1.GetHashCode());
248    }
249
250    /// <summary>
251    /// Asserts that the given protos are not equal and have different hash codes.
252    /// </summary>
253    /// <remarks>
254    /// It's valid for non-equal objects to have the same hash code, so
255    /// this test is stricter than it needs to be. However, this should happen
256    /// relatively rarely. (If this test fails, it's probably still due to a bug.)
257    /// </remarks>
258    private static void CheckNotEqual(IMessage m1, IMessage m2) {
259      String equalsError = string.Format("{0} should not be equal to {1}", m1, m2);
260      Assert.IsFalse(m1.Equals(m2), equalsError);
261      Assert.IsFalse(m2.Equals(m1), equalsError);
262
263      Assert.IsFalse(m1.GetHashCode() == m2.GetHashCode(),
264        string.Format("{0} should have a different hash code from {1}", m1, m2));
265    }
266
267    /// <summary>
268    /// Extends AbstractMessage and wraps some other message object.  The methods
269    /// of the Message interface which aren't explicitly implemented by
270    /// AbstractMessage are forwarded to the wrapped object.  This allows us to
271    /// test that AbstractMessage's implementations work even if the wrapped
272    /// object does not use them.
273    /// </summary>
274    private class AbstractMessageWrapper : AbstractMessage<AbstractMessageWrapper, AbstractMessageWrapper.Builder> {
275      private readonly IMessage wrappedMessage;
276
277      public IMessage WrappedMessage {
278        get { return wrappedMessage; }
279      }
280
281      public AbstractMessageWrapper(IMessage wrappedMessage) {
282        this.wrappedMessage = wrappedMessage;
283      }
284
285      public override MessageDescriptor DescriptorForType {
286        get { return wrappedMessage.DescriptorForType; }
287      }
288
289      public override AbstractMessageWrapper DefaultInstanceForType {
290        get { return new AbstractMessageWrapper(wrappedMessage.WeakDefaultInstanceForType); }
291      }
292
293      public override IDictionary<FieldDescriptor, object> AllFields {
294        get { return wrappedMessage.AllFields; }
295      }
296
297      public override bool HasField(FieldDescriptor field) {
298        return wrappedMessage.HasField(field);
299      }
300
301      public override object this[FieldDescriptor field] {
302        get { return wrappedMessage[field]; }
303      }
304
305      public override object this[FieldDescriptor field, int index] {
306        get { return wrappedMessage[field, index]; }
307      }
308
309      public override int GetRepeatedFieldCount(FieldDescriptor field) {
310        return wrappedMessage.GetRepeatedFieldCount(field);
311      }
312
313      public override UnknownFieldSet UnknownFields {
314        get { return wrappedMessage.UnknownFields; }
315      }
316
317      public override Builder CreateBuilderForType() {
318        return new Builder(wrappedMessage.WeakCreateBuilderForType());
319      }
320
321      public override Builder ToBuilder() {
322        return new Builder(wrappedMessage.WeakToBuilder());
323      }
324
325      internal class Builder : AbstractBuilder<AbstractMessageWrapper, Builder> {
326        private readonly IBuilder wrappedBuilder;
327
328        protected override Builder ThisBuilder {
329          get { return this; }
330        }
331
332        internal Builder(IBuilder wrappedBuilder) {
333          this.wrappedBuilder = wrappedBuilder;
334        }
335
336        public override Builder MergeFrom(AbstractMessageWrapper other) {
337          wrappedBuilder.WeakMergeFrom(other.wrappedMessage);
338          return this;
339        }
340
341        public override bool IsInitialized {
342          get { return wrappedBuilder.IsInitialized; }
343        }
344
345        public override IDictionary<FieldDescriptor, object> AllFields {
346          get { return wrappedBuilder.AllFields; }
347        }
348
349        public override object this[FieldDescriptor field] {
350          get { return wrappedBuilder[field]; }
351          set { wrappedBuilder[field] = value; }
352        }
353
354        public override MessageDescriptor DescriptorForType {
355          get { return wrappedBuilder.DescriptorForType; }
356        }
357
358        public override int GetRepeatedFieldCount(FieldDescriptor field) {
359          return wrappedBuilder.GetRepeatedFieldCount(field);
360        }
361
362        public override object this[FieldDescriptor field, int index] {
363          get { return wrappedBuilder[field, index]; }
364          set { wrappedBuilder[field, index] = value; }
365        }
366
367        public override bool HasField(FieldDescriptor field) {
368          return wrappedBuilder.HasField(field);
369        }
370
371        public override UnknownFieldSet UnknownFields {
372          get { return wrappedBuilder.UnknownFields; }
373          set { wrappedBuilder.UnknownFields = value; }
374        }
375
376        public override AbstractMessageWrapper Build() {
377          return new AbstractMessageWrapper(wrappedBuilder.WeakBuild());
378        }
379
380        public override AbstractMessageWrapper BuildPartial() {
381          return new AbstractMessageWrapper(wrappedBuilder.WeakBuildPartial());
382        }
383
384        public override Builder Clone() {
385          return new Builder(wrappedBuilder.WeakClone());
386        }
387
388        public override AbstractMessageWrapper DefaultInstanceForType {
389          get { return new AbstractMessageWrapper(wrappedBuilder.WeakDefaultInstanceForType); }
390        }
391
392        public override Builder ClearField(FieldDescriptor field) {
393          wrappedBuilder.WeakClearField(field);
394          return this;
395        }
396
397        public override Builder AddRepeatedField(FieldDescriptor field, object value) {
398          wrappedBuilder.WeakAddRepeatedField(field, value);
399          return this;
400        }
401
402        public override IBuilder CreateBuilderForField(FieldDescriptor field) {
403          wrappedBuilder.CreateBuilderForField(field);
404          return this;
405        }
406
407        public override Builder MergeFrom(IMessage other) {
408          wrappedBuilder.WeakMergeFrom(other);
409          return this;
410        }
411
412        public override Builder MergeFrom(CodedInputStream input, ExtensionRegistry extensionRegistry) {
413          wrappedBuilder.WeakMergeFrom(input, extensionRegistry);
414          return this;
415        }
416      }
417    }
418  }
419}
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