| #region Copyright notice and license |
| // Protocol Buffers - Google's data interchange format |
| // Copyright 2008 Google Inc. All rights reserved. |
| // http://github.com/jskeet/dotnet-protobufs/ |
| // Original C++/Java/Python code: |
| // http://code.google.com/p/protobuf/ |
| // |
| // 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 System; |
| using Google.ProtocolBuffers.Descriptors; |
| using Google.ProtocolBuffers.TestProtos; |
| using NUnit.Framework; |
| |
| namespace Google.ProtocolBuffers { |
| /// <summary> |
| /// Performs the same things that the methods of TestUtil do, but |
| /// via the reflection interface. This is its own class because it needs |
| /// to know what descriptor to use. |
| /// </summary> |
| internal class ReflectionTester { |
| private readonly MessageDescriptor baseDescriptor; |
| private readonly ExtensionRegistry extensionRegistry; |
| |
| private readonly FileDescriptor file; |
| private readonly FileDescriptor importFile; |
| |
| private readonly MessageDescriptor optionalGroup; |
| private readonly MessageDescriptor repeatedGroup; |
| private readonly MessageDescriptor nestedMessage; |
| private readonly MessageDescriptor foreignMessage; |
| private readonly MessageDescriptor importMessage; |
| |
| private readonly FieldDescriptor groupA; |
| private readonly FieldDescriptor repeatedGroupA; |
| private readonly FieldDescriptor nestedB; |
| private readonly FieldDescriptor foreignC; |
| private readonly FieldDescriptor importD; |
| |
| private readonly EnumDescriptor nestedEnum; |
| private readonly EnumDescriptor foreignEnum; |
| private readonly EnumDescriptor importEnum; |
| |
| private readonly EnumValueDescriptor nestedFoo; |
| private readonly EnumValueDescriptor nestedBar; |
| private readonly EnumValueDescriptor nestedBaz; |
| private readonly EnumValueDescriptor foreignFoo; |
| private readonly EnumValueDescriptor foreignBar; |
| private readonly EnumValueDescriptor foreignBaz; |
| private readonly EnumValueDescriptor importFoo; |
| private readonly EnumValueDescriptor importBar; |
| private readonly EnumValueDescriptor importBaz; |
| |
| /// <summary> |
| /// Constructs an instance that will expect messages using the given |
| /// descriptor. Normally <paramref name="baseDescriptor"/> should be |
| /// a descriptor for TestAllTypes. However, if extensionRegistry is non-null, |
| /// then baseDescriptor should be for TestAllExtensions instead, and instead of |
| /// reading and writing normal fields, the tester will read and write extensions. |
| /// All of the TestAllExtensions extensions must be registered in the registry. |
| /// </summary> |
| private ReflectionTester(MessageDescriptor baseDescriptor, |
| ExtensionRegistry extensionRegistry) { |
| this.baseDescriptor = baseDescriptor; |
| this.extensionRegistry = extensionRegistry; |
| |
| this.file = baseDescriptor.File; |
| // TODO(jonskeet): We've got 2 dependencies, not 1 - because of the C# options. Hmm. |
| // Assert.AreEqual(1, file.Dependencies.Count); |
| // TODO(jonskeet): Find dependency by name instead of number? |
| this.importFile = file.Dependencies[1]; |
| |
| MessageDescriptor testAllTypes; |
| if (baseDescriptor.Name == "TestAllTypes") { |
| testAllTypes = baseDescriptor; |
| } else { |
| testAllTypes = file.FindTypeByName<MessageDescriptor>("TestAllTypes"); |
| Assert.IsNotNull(testAllTypes); |
| } |
| |
| if (extensionRegistry == null) { |
| // Use testAllTypes, rather than baseDescriptor, to allow |
| // initialization using TestPackedTypes descriptors. These objects |
| // won't be used by the methods for packed fields. |
| this.optionalGroup = |
| testAllTypes.FindDescriptor<MessageDescriptor>("OptionalGroup"); |
| this.repeatedGroup = |
| testAllTypes.FindDescriptor<MessageDescriptor>("RepeatedGroup"); |
| } else { |
| this.optionalGroup = |
| file.FindTypeByName<MessageDescriptor>("OptionalGroup_extension"); |
| this.repeatedGroup = |
| file.FindTypeByName<MessageDescriptor>("RepeatedGroup_extension"); |
| } |
| this.nestedMessage = testAllTypes.FindDescriptor<MessageDescriptor>("NestedMessage"); |
| this.foreignMessage = file.FindTypeByName<MessageDescriptor>("ForeignMessage"); |
| this.importMessage = importFile.FindTypeByName<MessageDescriptor>("ImportMessage"); |
| |
| this.nestedEnum = testAllTypes.FindDescriptor<EnumDescriptor>("NestedEnum"); |
| this.foreignEnum = file.FindTypeByName<EnumDescriptor>("ForeignEnum"); |
| this.importEnum = importFile.FindTypeByName<EnumDescriptor>("ImportEnum"); |
| |
| Assert.IsNotNull(optionalGroup); |
| Assert.IsNotNull(repeatedGroup); |
| Assert.IsNotNull(nestedMessage); |
| Assert.IsNotNull(foreignMessage); |
| Assert.IsNotNull(importMessage); |
| Assert.IsNotNull(nestedEnum); |
| Assert.IsNotNull(foreignEnum); |
| Assert.IsNotNull(importEnum); |
| |
| this.nestedB = nestedMessage.FindDescriptor<FieldDescriptor>("bb"); |
| this.foreignC = foreignMessage.FindDescriptor<FieldDescriptor>("c"); |
| this.importD = importMessage.FindDescriptor<FieldDescriptor>("d"); |
| this.nestedFoo = nestedEnum.FindValueByName("FOO"); |
| this.nestedBar = nestedEnum.FindValueByName("BAR"); |
| this.nestedBaz = nestedEnum.FindValueByName("BAZ"); |
| this.foreignFoo = foreignEnum.FindValueByName("FOREIGN_FOO"); |
| this.foreignBar = foreignEnum.FindValueByName("FOREIGN_BAR"); |
| this.foreignBaz = foreignEnum.FindValueByName("FOREIGN_BAZ"); |
| this.importFoo = importEnum.FindValueByName("IMPORT_FOO"); |
| this.importBar = importEnum.FindValueByName("IMPORT_BAR"); |
| this.importBaz = importEnum.FindValueByName("IMPORT_BAZ"); |
| |
| this.groupA = optionalGroup.FindDescriptor<FieldDescriptor>("a"); |
| this.repeatedGroupA = repeatedGroup.FindDescriptor<FieldDescriptor>("a"); |
| |
| Assert.IsNotNull(groupA); |
| Assert.IsNotNull(repeatedGroupA); |
| Assert.IsNotNull(nestedB); |
| Assert.IsNotNull(foreignC); |
| Assert.IsNotNull(importD); |
| Assert.IsNotNull(nestedFoo); |
| Assert.IsNotNull(nestedBar); |
| Assert.IsNotNull(nestedBaz); |
| Assert.IsNotNull(foreignFoo); |
| Assert.IsNotNull(foreignBar); |
| Assert.IsNotNull(foreignBaz); |
| Assert.IsNotNull(importFoo); |
| Assert.IsNotNull(importBar); |
| Assert.IsNotNull(importBaz); |
| } |
| |
| /// <summary> |
| /// Creates an instance for the TestAllTypes message, with no extension registry. |
| /// </summary> |
| public static ReflectionTester CreateTestAllTypesInstance() { |
| return new ReflectionTester(TestAllTypes.Descriptor, null); |
| } |
| |
| /// <summary> |
| /// Creates an instance for the TestAllExtensions message, with an |
| /// extension registry from TestUtil.CreateExtensionRegistry. |
| /// </summary> |
| public static ReflectionTester CreateTestAllExtensionsInstance() { |
| return new ReflectionTester(TestAllExtensions.Descriptor, TestUtil.CreateExtensionRegistry()); |
| } |
| |
| /// <summary> |
| /// Creates an instance for the TestPackedTypes message, with no extensions. |
| /// </summary> |
| public static ReflectionTester CreateTestPackedTypesInstance() { |
| return new ReflectionTester(TestPackedTypes.Descriptor, null); |
| } |
| |
| /// <summary> |
| /// Shorthand to get a FieldDescriptor for a field of unittest::TestAllTypes. |
| /// </summary> |
| private FieldDescriptor f(String name) { |
| FieldDescriptor result; |
| if (extensionRegistry == null) { |
| result = baseDescriptor.FindDescriptor<FieldDescriptor>(name); |
| } else { |
| result = file.FindTypeByName<FieldDescriptor>(name + "_extension"); |
| } |
| Assert.IsNotNull(result); |
| return result; |
| } |
| |
| /// <summary> |
| /// Calls parent.CreateBuilderForField() or uses the extension registry |
| /// to find an appropriate builder, depending on what type is being tested. |
| /// </summary> |
| private IBuilder CreateBuilderForField(IBuilder parent, FieldDescriptor field) { |
| if (extensionRegistry == null) { |
| return parent.CreateBuilderForField(field); |
| } else { |
| ExtensionInfo extension = extensionRegistry[field.ContainingType, field.FieldNumber]; |
| Assert.IsNotNull(extension); |
| Assert.IsNotNull(extension.DefaultInstance); |
| return (IBuilder)extension.DefaultInstance.WeakCreateBuilderForType(); |
| } |
| } |
| |
| /// <summary> |
| /// Sets every field of the message to the values expected by |
| /// AssertAllFieldsSet, using the reflection interface. |
| /// </summary> |
| /// <param name="message"></param> |
| internal void SetAllFieldsViaReflection(IBuilder message) { |
| message[f("optional_int32")] = 101; |
| message[f("optional_int64")] = 102L; |
| message[f("optional_uint32")] = 103U; |
| message[f("optional_uint64")] = 104UL; |
| message[f("optional_sint32")] = 105; |
| message[f("optional_sint64")] = 106L; |
| message[f("optional_fixed32")] = 107U; |
| message[f("optional_fixed64")] = 108UL; |
| message[f("optional_sfixed32")] = 109; |
| message[f("optional_sfixed64")] = 110L; |
| message[f("optional_float")] = 111F; |
| message[f("optional_double")] = 112D; |
| message[f("optional_bool")] = true; |
| message[f("optional_string")] = "115"; |
| message[f("optional_bytes")] = TestUtil.ToBytes("116"); |
| |
| message[f("optionalgroup")] = CreateBuilderForField(message, f("optionalgroup")).SetField(groupA, 117).WeakBuild(); |
| message[f("optional_nested_message")] = CreateBuilderForField(message, f("optional_nested_message")).SetField(nestedB, 118).WeakBuild(); |
| message[f("optional_foreign_message")] = CreateBuilderForField(message, f("optional_foreign_message")).SetField(foreignC, 119).WeakBuild(); |
| message[f("optional_import_message")] = CreateBuilderForField(message, f("optional_import_message")).SetField(importD, 120).WeakBuild(); |
| |
| message[f("optional_nested_enum")] = nestedBaz; |
| message[f("optional_foreign_enum")] = foreignBaz; |
| message[f("optional_import_enum")] = importBaz; |
| |
| message[f("optional_string_piece")] = "124"; |
| message[f("optional_cord")] = "125"; |
| |
| // ----------------------------------------------------------------- |
| |
| message.WeakAddRepeatedField(f("repeated_int32"), 201); |
| message.WeakAddRepeatedField(f("repeated_int64"), 202L); |
| message.WeakAddRepeatedField(f("repeated_uint32"), 203U); |
| message.WeakAddRepeatedField(f("repeated_uint64"), 204UL); |
| message.WeakAddRepeatedField(f("repeated_sint32"), 205); |
| message.WeakAddRepeatedField(f("repeated_sint64"), 206L); |
| message.WeakAddRepeatedField(f("repeated_fixed32"), 207U); |
| message.WeakAddRepeatedField(f("repeated_fixed64"), 208UL); |
| message.WeakAddRepeatedField(f("repeated_sfixed32"), 209); |
| message.WeakAddRepeatedField(f("repeated_sfixed64"), 210L); |
| message.WeakAddRepeatedField(f("repeated_float"), 211F); |
| message.WeakAddRepeatedField(f("repeated_double"), 212D); |
| message.WeakAddRepeatedField(f("repeated_bool"), true); |
| message.WeakAddRepeatedField(f("repeated_string"), "215"); |
| message.WeakAddRepeatedField(f("repeated_bytes"), TestUtil.ToBytes("216")); |
| |
| |
| message.WeakAddRepeatedField(f("repeatedgroup"), CreateBuilderForField(message, f("repeatedgroup")).SetField(repeatedGroupA, 217).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_nested_message"), CreateBuilderForField(message, f("repeated_nested_message")).SetField(nestedB, 218).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_foreign_message"), CreateBuilderForField(message, f("repeated_foreign_message")).SetField(foreignC, 219).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_import_message"), CreateBuilderForField(message, f("repeated_import_message")).SetField(importD, 220).WeakBuild()); |
| |
| message.WeakAddRepeatedField(f("repeated_nested_enum"), nestedBar); |
| message.WeakAddRepeatedField(f("repeated_foreign_enum"), foreignBar); |
| message.WeakAddRepeatedField(f("repeated_import_enum"), importBar); |
| |
| message.WeakAddRepeatedField(f("repeated_string_piece"), "224"); |
| message.WeakAddRepeatedField(f("repeated_cord"), "225"); |
| |
| // Add a second one of each field. |
| message.WeakAddRepeatedField(f("repeated_int32"), 301); |
| message.WeakAddRepeatedField(f("repeated_int64"), 302L); |
| message.WeakAddRepeatedField(f("repeated_uint32"), 303U); |
| message.WeakAddRepeatedField(f("repeated_uint64"), 304UL); |
| message.WeakAddRepeatedField(f("repeated_sint32"), 305); |
| message.WeakAddRepeatedField(f("repeated_sint64"), 306L); |
| message.WeakAddRepeatedField(f("repeated_fixed32"), 307U); |
| message.WeakAddRepeatedField(f("repeated_fixed64"), 308UL); |
| message.WeakAddRepeatedField(f("repeated_sfixed32"), 309); |
| message.WeakAddRepeatedField(f("repeated_sfixed64"), 310L); |
| message.WeakAddRepeatedField(f("repeated_float"), 311F); |
| message.WeakAddRepeatedField(f("repeated_double"), 312D); |
| message.WeakAddRepeatedField(f("repeated_bool"), false); |
| message.WeakAddRepeatedField(f("repeated_string"), "315"); |
| message.WeakAddRepeatedField(f("repeated_bytes"), TestUtil.ToBytes("316")); |
| |
| message.WeakAddRepeatedField(f("repeatedgroup"), |
| CreateBuilderForField(message, f("repeatedgroup")) |
| .SetField(repeatedGroupA, 317).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_nested_message"), |
| CreateBuilderForField(message, f("repeated_nested_message")) |
| .SetField(nestedB, 318).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_foreign_message"), |
| CreateBuilderForField(message, f("repeated_foreign_message")) |
| .SetField(foreignC, 319).WeakBuild()); |
| message.WeakAddRepeatedField(f("repeated_import_message"), |
| CreateBuilderForField(message, f("repeated_import_message")) |
| .SetField(importD, 320).WeakBuild()); |
| |
| message.WeakAddRepeatedField(f("repeated_nested_enum"), nestedBaz); |
| message.WeakAddRepeatedField(f("repeated_foreign_enum"), foreignBaz); |
| message.WeakAddRepeatedField(f("repeated_import_enum"), importBaz); |
| |
| message.WeakAddRepeatedField(f("repeated_string_piece"), "324"); |
| message.WeakAddRepeatedField(f("repeated_cord"), "325"); |
| |
| // ----------------------------------------------------------------- |
| |
| message[f("default_int32")] = 401; |
| message[f("default_int64")] = 402L; |
| message[f("default_uint32")] = 403U; |
| message[f("default_uint64")] = 404UL; |
| message[f("default_sint32")] = 405; |
| message[f("default_sint64")] = 406L; |
| message[f("default_fixed32")] = 407U; |
| message[f("default_fixed64")] = 408UL; |
| message[f("default_sfixed32")] = 409; |
| message[f("default_sfixed64")] = 410L; |
| message[f("default_float")] = 411F; |
| message[f("default_double")] = 412D; |
| message[f("default_bool")] = false; |
| message[f("default_string")] = "415"; |
| message[f("default_bytes")] = TestUtil.ToBytes("416"); |
| |
| message[f("default_nested_enum")] = nestedFoo; |
| message[f("default_foreign_enum")] = foreignFoo; |
| message[f("default_import_enum")] = importFoo; |
| |
| message[f("default_string_piece")] = "424"; |
| message[f("default_cord")] = "425"; |
| } |
| |
| // ------------------------------------------------------------------- |
| |
| /// <summary> |
| /// Modify the repeated fields of the specified message to contain the |
| /// values expected by AssertRepeatedFieldsModified, using the IBuilder |
| /// reflection interface. |
| /// </summary> |
| internal void ModifyRepeatedFieldsViaReflection(IBuilder message) { |
| message[f("repeated_int32"), 1] = 501; |
| message[f("repeated_int64"), 1] = 502L; |
| message[f("repeated_uint32"), 1] = 503U; |
| message[f("repeated_uint64"), 1] = 504UL; |
| message[f("repeated_sint32"), 1] = 505; |
| message[f("repeated_sint64"), 1] = 506L; |
| message[f("repeated_fixed32"), 1] = 507U; |
| message[f("repeated_fixed64"), 1] = 508UL; |
| message[f("repeated_sfixed32"), 1] = 509; |
| message[f("repeated_sfixed64"), 1] = 510L; |
| message[f("repeated_float"), 1] = 511F; |
| message[f("repeated_double"), 1] = 512D; |
| message[f("repeated_bool"), 1] = true; |
| message[f("repeated_string"), 1] = "515"; |
| message.SetRepeatedField(f("repeated_bytes"), 1, TestUtil.ToBytes("516")); |
| |
| message.SetRepeatedField(f("repeatedgroup"), 1, CreateBuilderForField(message, f("repeatedgroup")).SetField(repeatedGroupA, 517).WeakBuild()); |
| message.SetRepeatedField(f("repeated_nested_message"), 1, CreateBuilderForField(message, f("repeated_nested_message")).SetField(nestedB, 518).WeakBuild()); |
| message.SetRepeatedField(f("repeated_foreign_message"), 1, CreateBuilderForField(message, f("repeated_foreign_message")).SetField(foreignC, 519).WeakBuild()); |
| message.SetRepeatedField(f("repeated_import_message"), 1, CreateBuilderForField(message, f("repeated_import_message")).SetField(importD, 520).WeakBuild()); |
| |
| message[f("repeated_nested_enum"), 1] = nestedFoo; |
| message[f("repeated_foreign_enum"), 1] = foreignFoo; |
| message[f("repeated_import_enum"), 1] = importFoo; |
| |
| message[f("repeated_string_piece"), 1] = "524"; |
| message[f("repeated_cord"), 1] = "525"; |
| } |
| |
| // ------------------------------------------------------------------- |
| |
| /// <summary> |
| /// Asserts that all fields of the specified message are set to the values |
| /// assigned by SetAllFields, using the IMessage reflection interface. |
| /// </summary> |
| public void AssertAllFieldsSetViaReflection(IMessage message) { |
| Assert.IsTrue(message.HasField(f("optional_int32"))); |
| Assert.IsTrue(message.HasField(f("optional_int64"))); |
| Assert.IsTrue(message.HasField(f("optional_uint32"))); |
| Assert.IsTrue(message.HasField(f("optional_uint64"))); |
| Assert.IsTrue(message.HasField(f("optional_sint32"))); |
| Assert.IsTrue(message.HasField(f("optional_sint64"))); |
| Assert.IsTrue(message.HasField(f("optional_fixed32"))); |
| Assert.IsTrue(message.HasField(f("optional_fixed64"))); |
| Assert.IsTrue(message.HasField(f("optional_sfixed32"))); |
| Assert.IsTrue(message.HasField(f("optional_sfixed64"))); |
| Assert.IsTrue(message.HasField(f("optional_float"))); |
| Assert.IsTrue(message.HasField(f("optional_double"))); |
| Assert.IsTrue(message.HasField(f("optional_bool"))); |
| Assert.IsTrue(message.HasField(f("optional_string"))); |
| Assert.IsTrue(message.HasField(f("optional_bytes"))); |
| |
| Assert.IsTrue(message.HasField(f("optionalgroup"))); |
| Assert.IsTrue(message.HasField(f("optional_nested_message"))); |
| Assert.IsTrue(message.HasField(f("optional_foreign_message"))); |
| Assert.IsTrue(message.HasField(f("optional_import_message"))); |
| |
| Assert.IsTrue(((IMessage)message[f("optionalgroup")]).HasField(groupA)); |
| Assert.IsTrue(((IMessage)message[f("optional_nested_message")]).HasField(nestedB)); |
| Assert.IsTrue(((IMessage)message[f("optional_foreign_message")]).HasField(foreignC)); |
| Assert.IsTrue(((IMessage)message[f("optional_import_message")]).HasField(importD)); |
| |
| Assert.IsTrue(message.HasField(f("optional_nested_enum"))); |
| Assert.IsTrue(message.HasField(f("optional_foreign_enum"))); |
| Assert.IsTrue(message.HasField(f("optional_import_enum"))); |
| |
| Assert.IsTrue(message.HasField(f("optional_string_piece"))); |
| Assert.IsTrue(message.HasField(f("optional_cord"))); |
| |
| Assert.AreEqual(101, message[f("optional_int32")]); |
| Assert.AreEqual(102L, message[f("optional_int64")]); |
| Assert.AreEqual(103U, message[f("optional_uint32")]); |
| Assert.AreEqual(104UL, message[f("optional_uint64")]); |
| Assert.AreEqual(105, message[f("optional_sint32")]); |
| Assert.AreEqual(106L, message[f("optional_sint64")]); |
| Assert.AreEqual(107U, message[f("optional_fixed32")]); |
| Assert.AreEqual(108UL, message[f("optional_fixed64")]); |
| Assert.AreEqual(109, message[f("optional_sfixed32")]); |
| Assert.AreEqual(110L, message[f("optional_sfixed64")]); |
| Assert.AreEqual(111F, message[f("optional_float")]); |
| Assert.AreEqual(112D, message[f("optional_double")]); |
| Assert.AreEqual(true, message[f("optional_bool")]); |
| Assert.AreEqual("115", message[f("optional_string")]); |
| Assert.AreEqual(TestUtil.ToBytes("116"), message[f("optional_bytes")]); |
| |
| Assert.AreEqual(117, ((IMessage)message[f("optionalgroup")])[groupA]); |
| Assert.AreEqual(118, ((IMessage)message[f("optional_nested_message")])[nestedB]); |
| Assert.AreEqual(119, ((IMessage)message[f("optional_foreign_message")])[foreignC]); |
| Assert.AreEqual(120, ((IMessage)message[f("optional_import_message")])[importD]); |
| |
| Assert.AreEqual(nestedBaz, message[f("optional_nested_enum")]); |
| Assert.AreEqual(foreignBaz, message[f("optional_foreign_enum")]); |
| Assert.AreEqual(importBaz, message[f("optional_import_enum")]); |
| |
| Assert.AreEqual("124", message[f("optional_string_piece")]); |
| Assert.AreEqual("125", message[f("optional_cord")]); |
| |
| // ----------------------------------------------------------------- |
| |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_int32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_int64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_uint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_uint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_fixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_fixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sfixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sfixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_float"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_double"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_bool"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_string"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_bytes"))); |
| |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeatedgroup"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_nested_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_foreign_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_import_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_nested_enum"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_foreign_enum"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_import_enum"))); |
| |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_string_piece"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_cord"))); |
| |
| Assert.AreEqual(201, message[f("repeated_int32"), 0]); |
| Assert.AreEqual(202L, message[f("repeated_int64"), 0]); |
| Assert.AreEqual(203U, message[f("repeated_uint32"), 0]); |
| Assert.AreEqual(204UL, message[f("repeated_uint64"), 0]); |
| Assert.AreEqual(205, message[f("repeated_sint32"), 0]); |
| Assert.AreEqual(206L, message[f("repeated_sint64"), 0]); |
| Assert.AreEqual(207U, message[f("repeated_fixed32"), 0]); |
| Assert.AreEqual(208UL, message[f("repeated_fixed64"), 0]); |
| Assert.AreEqual(209, message[f("repeated_sfixed32"), 0]); |
| Assert.AreEqual(210L, message[f("repeated_sfixed64"), 0]); |
| Assert.AreEqual(211F, message[f("repeated_float"), 0]); |
| Assert.AreEqual(212D, message[f("repeated_double"), 0]); |
| Assert.AreEqual(true, message[f("repeated_bool"), 0]); |
| Assert.AreEqual("215", message[f("repeated_string"), 0]); |
| Assert.AreEqual(TestUtil.ToBytes("216"), message[f("repeated_bytes"), 0]); |
| |
| Assert.AreEqual(217, ((IMessage)message[f("repeatedgroup"), 0])[repeatedGroupA]); |
| Assert.AreEqual(218, ((IMessage)message[f("repeated_nested_message"), 0])[nestedB]); |
| Assert.AreEqual(219, ((IMessage)message[f("repeated_foreign_message"), 0])[foreignC]); |
| Assert.AreEqual(220, ((IMessage)message[f("repeated_import_message"), 0])[importD]); |
| |
| Assert.AreEqual(nestedBar, message[f("repeated_nested_enum"), 0]); |
| Assert.AreEqual(foreignBar, message[f("repeated_foreign_enum"), 0]); |
| Assert.AreEqual(importBar, message[f("repeated_import_enum"), 0]); |
| |
| Assert.AreEqual("224", message[f("repeated_string_piece"), 0]); |
| Assert.AreEqual("225", message[f("repeated_cord"), 0]); |
| |
| Assert.AreEqual(301, message[f("repeated_int32"), 1]); |
| Assert.AreEqual(302L, message[f("repeated_int64"), 1]); |
| Assert.AreEqual(303U, message[f("repeated_uint32"), 1]); |
| Assert.AreEqual(304UL, message[f("repeated_uint64"), 1]); |
| Assert.AreEqual(305, message[f("repeated_sint32"), 1]); |
| Assert.AreEqual(306L, message[f("repeated_sint64"), 1]); |
| Assert.AreEqual(307U, message[f("repeated_fixed32"), 1]); |
| Assert.AreEqual(308UL, message[f("repeated_fixed64"), 1]); |
| Assert.AreEqual(309, message[f("repeated_sfixed32"), 1]); |
| Assert.AreEqual(310L, message[f("repeated_sfixed64"), 1]); |
| Assert.AreEqual(311F, message[f("repeated_float"), 1]); |
| Assert.AreEqual(312D, message[f("repeated_double"), 1]); |
| Assert.AreEqual(false, message[f("repeated_bool"), 1]); |
| Assert.AreEqual("315", message[f("repeated_string"), 1]); |
| Assert.AreEqual(TestUtil.ToBytes("316"), message[f("repeated_bytes"), 1]); |
| |
| Assert.AreEqual(317, ((IMessage)message[f("repeatedgroup"), 1])[repeatedGroupA]); |
| Assert.AreEqual(318, ((IMessage)message[f("repeated_nested_message"), 1])[nestedB]); |
| Assert.AreEqual(319, ((IMessage)message[f("repeated_foreign_message"), 1])[foreignC]); |
| Assert.AreEqual(320, ((IMessage)message[f("repeated_import_message"), 1])[importD]); |
| |
| Assert.AreEqual(nestedBaz, message[f("repeated_nested_enum"), 1]); |
| Assert.AreEqual(foreignBaz, message[f("repeated_foreign_enum"), 1]); |
| Assert.AreEqual(importBaz, message[f("repeated_import_enum"), 1]); |
| |
| Assert.AreEqual("324", message[f("repeated_string_piece"), 1]); |
| Assert.AreEqual("325", message[f("repeated_cord"), 1]); |
| |
| // ----------------------------------------------------------------- |
| |
| Assert.IsTrue(message.HasField(f("default_int32"))); |
| Assert.IsTrue(message.HasField(f("default_int64"))); |
| Assert.IsTrue(message.HasField(f("default_uint32"))); |
| Assert.IsTrue(message.HasField(f("default_uint64"))); |
| Assert.IsTrue(message.HasField(f("default_sint32"))); |
| Assert.IsTrue(message.HasField(f("default_sint64"))); |
| Assert.IsTrue(message.HasField(f("default_fixed32"))); |
| Assert.IsTrue(message.HasField(f("default_fixed64"))); |
| Assert.IsTrue(message.HasField(f("default_sfixed32"))); |
| Assert.IsTrue(message.HasField(f("default_sfixed64"))); |
| Assert.IsTrue(message.HasField(f("default_float"))); |
| Assert.IsTrue(message.HasField(f("default_double"))); |
| Assert.IsTrue(message.HasField(f("default_bool"))); |
| Assert.IsTrue(message.HasField(f("default_string"))); |
| Assert.IsTrue(message.HasField(f("default_bytes"))); |
| |
| Assert.IsTrue(message.HasField(f("default_nested_enum"))); |
| Assert.IsTrue(message.HasField(f("default_foreign_enum"))); |
| Assert.IsTrue(message.HasField(f("default_import_enum"))); |
| |
| Assert.IsTrue(message.HasField(f("default_string_piece"))); |
| Assert.IsTrue(message.HasField(f("default_cord"))); |
| |
| Assert.AreEqual(401, message[f("default_int32")]); |
| Assert.AreEqual(402L, message[f("default_int64")]); |
| Assert.AreEqual(403U, message[f("default_uint32")]); |
| Assert.AreEqual(404UL, message[f("default_uint64")]); |
| Assert.AreEqual(405, message[f("default_sint32")]); |
| Assert.AreEqual(406L, message[f("default_sint64")]); |
| Assert.AreEqual(407U, message[f("default_fixed32")]); |
| Assert.AreEqual(408UL, message[f("default_fixed64")]); |
| Assert.AreEqual(409, message[f("default_sfixed32")]); |
| Assert.AreEqual(410L, message[f("default_sfixed64")]); |
| Assert.AreEqual(411F, message[f("default_float")]); |
| Assert.AreEqual(412D, message[f("default_double")]); |
| Assert.AreEqual(false, message[f("default_bool")]); |
| Assert.AreEqual("415", message[f("default_string")]); |
| Assert.AreEqual(TestUtil.ToBytes("416"), message[f("default_bytes")]); |
| |
| Assert.AreEqual(nestedFoo, message[f("default_nested_enum")]); |
| Assert.AreEqual(foreignFoo, message[f("default_foreign_enum")]); |
| Assert.AreEqual(importFoo, message[f("default_import_enum")]); |
| |
| Assert.AreEqual("424", message[f("default_string_piece")]); |
| Assert.AreEqual("425", message[f("default_cord")]); |
| } |
| |
| /// <summary> |
| /// Assert that all fields of the message are cleared, and that |
| /// getting the fields returns their default values, using the reflection interface. |
| /// </summary> |
| public void AssertClearViaReflection(IMessage message) { |
| // has_blah() should initially be false for all optional fields. |
| Assert.IsFalse(message.HasField(f("optional_int32"))); |
| Assert.IsFalse(message.HasField(f("optional_int64"))); |
| Assert.IsFalse(message.HasField(f("optional_uint32"))); |
| Assert.IsFalse(message.HasField(f("optional_uint64"))); |
| Assert.IsFalse(message.HasField(f("optional_sint32"))); |
| Assert.IsFalse(message.HasField(f("optional_sint64"))); |
| Assert.IsFalse(message.HasField(f("optional_fixed32"))); |
| Assert.IsFalse(message.HasField(f("optional_fixed64"))); |
| Assert.IsFalse(message.HasField(f("optional_sfixed32"))); |
| Assert.IsFalse(message.HasField(f("optional_sfixed64"))); |
| Assert.IsFalse(message.HasField(f("optional_float"))); |
| Assert.IsFalse(message.HasField(f("optional_double"))); |
| Assert.IsFalse(message.HasField(f("optional_bool"))); |
| Assert.IsFalse(message.HasField(f("optional_string"))); |
| Assert.IsFalse(message.HasField(f("optional_bytes"))); |
| |
| Assert.IsFalse(message.HasField(f("optionalgroup"))); |
| Assert.IsFalse(message.HasField(f("optional_nested_message"))); |
| Assert.IsFalse(message.HasField(f("optional_foreign_message"))); |
| Assert.IsFalse(message.HasField(f("optional_import_message"))); |
| |
| Assert.IsFalse(message.HasField(f("optional_nested_enum"))); |
| Assert.IsFalse(message.HasField(f("optional_foreign_enum"))); |
| Assert.IsFalse(message.HasField(f("optional_import_enum"))); |
| |
| Assert.IsFalse(message.HasField(f("optional_string_piece"))); |
| Assert.IsFalse(message.HasField(f("optional_cord"))); |
| |
| // Optional fields without defaults are set to zero or something like it. |
| Assert.AreEqual(0, message[f("optional_int32")]); |
| Assert.AreEqual(0L, message[f("optional_int64")]); |
| Assert.AreEqual(0U, message[f("optional_uint32")]); |
| Assert.AreEqual(0UL, message[f("optional_uint64")]); |
| Assert.AreEqual(0, message[f("optional_sint32")]); |
| Assert.AreEqual(0L, message[f("optional_sint64")]); |
| Assert.AreEqual(0U, message[f("optional_fixed32")]); |
| Assert.AreEqual(0UL, message[f("optional_fixed64")]); |
| Assert.AreEqual(0, message[f("optional_sfixed32")]); |
| Assert.AreEqual(0L, message[f("optional_sfixed64")]); |
| Assert.AreEqual(0F, message[f("optional_float")]); |
| Assert.AreEqual(0D, message[f("optional_double")]); |
| Assert.AreEqual(false, message[f("optional_bool")]); |
| Assert.AreEqual("", message[f("optional_string")]); |
| Assert.AreEqual(ByteString.Empty, message[f("optional_bytes")]); |
| |
| // Embedded messages should also be clear. |
| Assert.IsFalse(((IMessage)message[f("optionalgroup")]).HasField(groupA)); |
| Assert.IsFalse(((IMessage)message[f("optional_nested_message")]) |
| .HasField(nestedB)); |
| Assert.IsFalse(((IMessage)message[f("optional_foreign_message")]) |
| .HasField(foreignC)); |
| Assert.IsFalse(((IMessage)message[f("optional_import_message")]) |
| .HasField(importD)); |
| |
| Assert.AreEqual(0, ((IMessage)message[f("optionalgroup")])[groupA]); |
| Assert.AreEqual(0, ((IMessage)message[f("optional_nested_message")])[nestedB]); |
| Assert.AreEqual(0, ((IMessage)message[f("optional_foreign_message")])[foreignC]); |
| Assert.AreEqual(0, ((IMessage)message[f("optional_import_message")])[importD]); |
| |
| // Enums without defaults are set to the first value in the enum. |
| Assert.AreEqual(nestedFoo, message[f("optional_nested_enum")]); |
| Assert.AreEqual(foreignFoo, message[f("optional_foreign_enum")]); |
| Assert.AreEqual(importFoo, message[f("optional_import_enum")]); |
| |
| Assert.AreEqual("", message[f("optional_string_piece")]); |
| Assert.AreEqual("", message[f("optional_cord")]); |
| |
| // Repeated fields are empty. |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_int32"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_int64"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_uint32"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_uint64"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_sint32"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_sint64"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_fixed32"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_fixed64"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_sfixed32"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_sfixed64"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_float"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_double"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_bool"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_string"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_bytes"))); |
| |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeatedgroup"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_nested_message"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_foreign_message"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_import_message"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_nested_enum"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_foreign_enum"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_import_enum"))); |
| |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_string_piece"))); |
| Assert.AreEqual(0, message.GetRepeatedFieldCount(f("repeated_cord"))); |
| |
| // has_blah() should also be false for all default fields. |
| Assert.IsFalse(message.HasField(f("default_int32"))); |
| Assert.IsFalse(message.HasField(f("default_int64"))); |
| Assert.IsFalse(message.HasField(f("default_uint32"))); |
| Assert.IsFalse(message.HasField(f("default_uint64"))); |
| Assert.IsFalse(message.HasField(f("default_sint32"))); |
| Assert.IsFalse(message.HasField(f("default_sint64"))); |
| Assert.IsFalse(message.HasField(f("default_fixed32"))); |
| Assert.IsFalse(message.HasField(f("default_fixed64"))); |
| Assert.IsFalse(message.HasField(f("default_sfixed32"))); |
| Assert.IsFalse(message.HasField(f("default_sfixed64"))); |
| Assert.IsFalse(message.HasField(f("default_float"))); |
| Assert.IsFalse(message.HasField(f("default_double"))); |
| Assert.IsFalse(message.HasField(f("default_bool"))); |
| Assert.IsFalse(message.HasField(f("default_string"))); |
| Assert.IsFalse(message.HasField(f("default_bytes"))); |
| |
| Assert.IsFalse(message.HasField(f("default_nested_enum"))); |
| Assert.IsFalse(message.HasField(f("default_foreign_enum"))); |
| Assert.IsFalse(message.HasField(f("default_import_enum"))); |
| |
| Assert.IsFalse(message.HasField(f("default_string_piece"))); |
| Assert.IsFalse(message.HasField(f("default_cord"))); |
| |
| // Fields with defaults have their default values (duh). |
| Assert.AreEqual(41, message[f("default_int32")]); |
| Assert.AreEqual(42L, message[f("default_int64")]); |
| Assert.AreEqual(43U, message[f("default_uint32")]); |
| Assert.AreEqual(44UL, message[f("default_uint64")]); |
| Assert.AreEqual(-45, message[f("default_sint32")]); |
| Assert.AreEqual(46L, message[f("default_sint64")]); |
| Assert.AreEqual(47U, message[f("default_fixed32")]); |
| Assert.AreEqual(48UL, message[f("default_fixed64")]); |
| Assert.AreEqual(49, message[f("default_sfixed32")]); |
| Assert.AreEqual(-50L, message[f("default_sfixed64")]); |
| Assert.AreEqual(51.5F, message[f("default_float")]); |
| Assert.AreEqual(52e3D, message[f("default_double")]); |
| Assert.AreEqual(true, message[f("default_bool")]); |
| Assert.AreEqual("hello", message[f("default_string")]); |
| Assert.AreEqual(TestUtil.ToBytes("world"), message[f("default_bytes")]); |
| |
| Assert.AreEqual(nestedBar, message[f("default_nested_enum")]); |
| Assert.AreEqual(foreignBar, message[f("default_foreign_enum")]); |
| Assert.AreEqual(importBar, message[f("default_import_enum")]); |
| |
| Assert.AreEqual("abc", message[f("default_string_piece")]); |
| Assert.AreEqual("123", message[f("default_cord")]); |
| } |
| |
| // --------------------------------------------------------------- |
| |
| internal void AssertRepeatedFieldsModifiedViaReflection(IMessage message) { |
| // ModifyRepeatedFields only sets the second repeated element of each |
| // field. In addition to verifying this, we also verify that the first |
| // element and size were *not* modified. |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_int32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_int64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_uint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_uint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_fixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_fixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sfixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_sfixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_float"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_double"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_bool"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_string"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_bytes"))); |
| |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeatedgroup"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_nested_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_foreign_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_import_message"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_nested_enum"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_foreign_enum"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_import_enum"))); |
| |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_string_piece"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("repeated_cord"))); |
| |
| Assert.AreEqual(201, message[f("repeated_int32"), 0]); |
| Assert.AreEqual(202L, message[f("repeated_int64"), 0]); |
| Assert.AreEqual(203U, message[f("repeated_uint32"), 0]); |
| Assert.AreEqual(204UL, message[f("repeated_uint64"), 0]); |
| Assert.AreEqual(205, message[f("repeated_sint32"), 0]); |
| Assert.AreEqual(206L, message[f("repeated_sint64"), 0]); |
| Assert.AreEqual(207U, message[f("repeated_fixed32"), 0]); |
| Assert.AreEqual(208UL, message[f("repeated_fixed64"), 0]); |
| Assert.AreEqual(209, message[f("repeated_sfixed32"), 0]); |
| Assert.AreEqual(210L, message[f("repeated_sfixed64"), 0]); |
| Assert.AreEqual(211F, message[f("repeated_float"), 0]); |
| Assert.AreEqual(212D, message[f("repeated_double"), 0]); |
| Assert.AreEqual(true, message[f("repeated_bool"), 0]); |
| Assert.AreEqual("215", message[f("repeated_string"), 0]); |
| Assert.AreEqual(TestUtil.ToBytes("216"), message[f("repeated_bytes"), 0]); |
| |
| Assert.AreEqual(217, ((IMessage)message[f("repeatedgroup"), 0])[repeatedGroupA]); |
| Assert.AreEqual(218, ((IMessage)message[f("repeated_nested_message"), 0])[nestedB]); |
| Assert.AreEqual(219, ((IMessage)message[f("repeated_foreign_message"), 0])[foreignC]); |
| Assert.AreEqual(220, ((IMessage)message[f("repeated_import_message"), 0])[importD]); |
| |
| Assert.AreEqual(nestedBar, message[f("repeated_nested_enum"), 0]); |
| Assert.AreEqual(foreignBar, message[f("repeated_foreign_enum"), 0]); |
| Assert.AreEqual(importBar, message[f("repeated_import_enum"), 0]); |
| |
| Assert.AreEqual("224", message[f("repeated_string_piece"), 0]); |
| Assert.AreEqual("225", message[f("repeated_cord"), 0]); |
| |
| Assert.AreEqual(501, message[f("repeated_int32"), 1]); |
| Assert.AreEqual(502L, message[f("repeated_int64"), 1]); |
| Assert.AreEqual(503U, message[f("repeated_uint32"), 1]); |
| Assert.AreEqual(504UL, message[f("repeated_uint64"), 1]); |
| Assert.AreEqual(505, message[f("repeated_sint32"), 1]); |
| Assert.AreEqual(506L, message[f("repeated_sint64"), 1]); |
| Assert.AreEqual(507U, message[f("repeated_fixed32"), 1]); |
| Assert.AreEqual(508UL, message[f("repeated_fixed64"), 1]); |
| Assert.AreEqual(509, message[f("repeated_sfixed32"), 1]); |
| Assert.AreEqual(510L, message[f("repeated_sfixed64"), 1]); |
| Assert.AreEqual(511F, message[f("repeated_float"), 1]); |
| Assert.AreEqual(512D, message[f("repeated_double"), 1]); |
| Assert.AreEqual(true, message[f("repeated_bool"), 1]); |
| Assert.AreEqual("515", message[f("repeated_string"), 1]); |
| Assert.AreEqual(TestUtil.ToBytes("516"), message[f("repeated_bytes"), 1]); |
| |
| Assert.AreEqual(517, ((IMessage)message[f("repeatedgroup"), 1])[repeatedGroupA]); |
| Assert.AreEqual(518, ((IMessage)message[f("repeated_nested_message"), 1])[nestedB]); |
| Assert.AreEqual(519, ((IMessage)message[f("repeated_foreign_message"), 1])[foreignC]); |
| Assert.AreEqual(520, ((IMessage)message[f("repeated_import_message"), 1])[importD]); |
| |
| Assert.AreEqual(nestedFoo, message[f("repeated_nested_enum"), 1]); |
| Assert.AreEqual(foreignFoo, message[f("repeated_foreign_enum"), 1]); |
| Assert.AreEqual(importFoo, message[f("repeated_import_enum"), 1]); |
| |
| Assert.AreEqual("524", message[f("repeated_string_piece"), 1]); |
| Assert.AreEqual("525", message[f("repeated_cord"), 1]); |
| } |
| |
| /// <summary> |
| /// Verifies that the reflection setters for the given Builder object throw an |
| /// ArgumentNullException if they are passed a null value. |
| /// </summary> |
| public void AssertReflectionSettersRejectNull(IBuilder builder) { |
| TestUtil.AssertArgumentNullException(() => builder[f("optional_string")] = null); |
| TestUtil.AssertArgumentNullException(() => builder[f("optional_bytes")] = null); |
| TestUtil.AssertArgumentNullException(() => builder[f("optional_nested_enum")] = null); |
| TestUtil.AssertArgumentNullException(() => builder[f("optional_nested_message")] = null); |
| TestUtil.AssertArgumentNullException(() => builder[f("optional_nested_message")] = null); |
| TestUtil.AssertArgumentNullException(() => builder.WeakAddRepeatedField(f("repeated_string"), null)); |
| TestUtil.AssertArgumentNullException(() => builder.WeakAddRepeatedField(f("repeated_bytes"), null)); |
| TestUtil.AssertArgumentNullException(() => builder.WeakAddRepeatedField(f("repeated_nested_enum"), null)); |
| TestUtil.AssertArgumentNullException(() => builder.WeakAddRepeatedField(f("repeated_nested_message"), null)); |
| } |
| |
| /// <summary> |
| /// Verifies that the reflection repeated setters for the given Builder object throw an |
| /// ArgumentNullException if they are passed a null value. |
| /// </summary> |
| public void AssertReflectionRepeatedSettersRejectNull(IBuilder builder) { |
| builder.WeakAddRepeatedField(f("repeated_string"), "one"); |
| TestUtil.AssertArgumentNullException(() => builder.SetRepeatedField(f("repeated_string"), 0, null)); |
| builder.WeakAddRepeatedField(f("repeated_bytes"), TestUtil.ToBytes("one")); |
| TestUtil.AssertArgumentNullException(() => builder.SetRepeatedField(f("repeated_bytes"), 0, null)); |
| builder.WeakAddRepeatedField(f("repeated_nested_enum"), nestedBaz); |
| TestUtil.AssertArgumentNullException(() => builder.SetRepeatedField(f("repeated_nested_enum"), 0, null)); |
| builder.WeakAddRepeatedField(f("repeated_nested_message"), |
| new TestAllTypes.Types.NestedMessage.Builder { Bb = 218 }.Build()); |
| TestUtil.AssertArgumentNullException(() => builder.SetRepeatedField(f("repeated_nested_message"), 0, null)); |
| } |
| |
| public void SetPackedFieldsViaReflection(IBuilder message) { |
| message.WeakAddRepeatedField(f("packed_int32"), 601); |
| message.WeakAddRepeatedField(f("packed_int64"), 602L); |
| message.WeakAddRepeatedField(f("packed_uint32"), 603U); |
| message.WeakAddRepeatedField(f("packed_uint64"), 604UL); |
| message.WeakAddRepeatedField(f("packed_sint32"), 605); |
| message.WeakAddRepeatedField(f("packed_sint64"), 606L); |
| message.WeakAddRepeatedField(f("packed_fixed32"), 607U); |
| message.WeakAddRepeatedField(f("packed_fixed64"), 608UL); |
| message.WeakAddRepeatedField(f("packed_sfixed32"), 609); |
| message.WeakAddRepeatedField(f("packed_sfixed64"), 610L); |
| message.WeakAddRepeatedField(f("packed_float"), 611F); |
| message.WeakAddRepeatedField(f("packed_double"), 612D); |
| message.WeakAddRepeatedField(f("packed_bool"), true); |
| message.WeakAddRepeatedField(f("packed_enum"), foreignBar); |
| // Add a second one of each field. |
| message.WeakAddRepeatedField(f("packed_int32"), 701); |
| message.WeakAddRepeatedField(f("packed_int64"), 702L); |
| message.WeakAddRepeatedField(f("packed_uint32"), 703U); |
| message.WeakAddRepeatedField(f("packed_uint64"), 704UL); |
| message.WeakAddRepeatedField(f("packed_sint32"), 705); |
| message.WeakAddRepeatedField(f("packed_sint64"), 706L); |
| message.WeakAddRepeatedField(f("packed_fixed32"), 707U); |
| message.WeakAddRepeatedField(f("packed_fixed64"), 708UL); |
| message.WeakAddRepeatedField(f("packed_sfixed32"), 709); |
| message.WeakAddRepeatedField(f("packed_sfixed64"), 710L); |
| message.WeakAddRepeatedField(f("packed_float"), 711F); |
| message.WeakAddRepeatedField(f("packed_double"), 712D); |
| message.WeakAddRepeatedField(f("packed_bool"), false); |
| message.WeakAddRepeatedField(f("packed_enum"), foreignBaz); |
| } |
| |
| public void AssertPackedFieldsSetViaReflection(IMessage message) { |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_int32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_int64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_uint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_uint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_sint32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_sint64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_fixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_fixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_sfixed32"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_sfixed64"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_float"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_double"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_bool"))); |
| Assert.AreEqual(2, message.GetRepeatedFieldCount(f("packed_enum"))); |
| Assert.AreEqual(601, message[f("packed_int32"), 0]); |
| Assert.AreEqual(602L, message[f("packed_int64"), 0]); |
| Assert.AreEqual(603, message[f("packed_uint32"), 0]); |
| Assert.AreEqual(604L, message[f("packed_uint64"), 0]); |
| Assert.AreEqual(605, message[f("packed_sint32"), 0]); |
| Assert.AreEqual(606L, message[f("packed_sint64"), 0]); |
| Assert.AreEqual(607, message[f("packed_fixed32"), 0]); |
| Assert.AreEqual(608L, message[f("packed_fixed64"), 0]); |
| Assert.AreEqual(609, message[f("packed_sfixed32"), 0]); |
| Assert.AreEqual(610L, message[f("packed_sfixed64"), 0]); |
| Assert.AreEqual(611F, message[f("packed_float"), 0]); |
| Assert.AreEqual(612D, message[f("packed_double"), 0]); |
| Assert.AreEqual(true, message[f("packed_bool"), 0]); |
| Assert.AreEqual(foreignBar, message[f("packed_enum"), 0]); |
| Assert.AreEqual(701, message[f("packed_int32"), 1]); |
| Assert.AreEqual(702L, message[f("packed_int64"), 1]); |
| Assert.AreEqual(703, message[f("packed_uint32"), 1]); |
| Assert.AreEqual(704L, message[f("packed_uint64"), 1]); |
| Assert.AreEqual(705, message[f("packed_sint32"), 1]); |
| Assert.AreEqual(706L, message[f("packed_sint64"), 1]); |
| Assert.AreEqual(707, message[f("packed_fixed32"), 1]); |
| Assert.AreEqual(708L, message[f("packed_fixed64"), 1]); |
| Assert.AreEqual(709, message[f("packed_sfixed32"), 1]); |
| Assert.AreEqual(710L, message[f("packed_sfixed64"), 1]); |
| Assert.AreEqual(711F, message[f("packed_float"), 1]); |
| Assert.AreEqual(712D, message[f("packed_double"), 1]); |
| Assert.AreEqual(false, message[f("packed_bool"), 1]); |
| Assert.AreEqual(foreignBaz, message[f("packed_enum"), 1]); |
| } |
| } |
| } |