public void testIsInitialized() throws Exception { TestRequired.Builder builder = TestRequired.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertFalse(abstractBuilder.isInitialized()); builder.setA(1); assertFalse(abstractBuilder.isInitialized()); builder.setB(1); assertFalse(abstractBuilder.isInitialized()); builder.setC(1); assertTrue(abstractBuilder.isInitialized()); }
public void testIsInitialized() throws Exception { TestRequired.Builder builder = TestRequired.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertFalse(abstractBuilder.isInitialized()); assertEquals("a, b, c", abstractBuilder.getInitializationErrorString()); builder.setA(1); assertFalse(abstractBuilder.isInitialized()); assertEquals("b, c", abstractBuilder.getInitializationErrorString()); builder.setB(1); assertFalse(abstractBuilder.isInitialized()); assertEquals("c", abstractBuilder.getInitializationErrorString()); builder.setC(1); assertTrue(abstractBuilder.isInitialized()); assertEquals("", abstractBuilder.getInitializationErrorString()); }
/** * Unit test for {@link AbstractMessage}. * * @author [email protected] Kenton Varda */ public class AbstractMessageTest extends TestCase { /** * Extends AbstractMessage and wraps some other message object. The methods of the Message * interface which aren't explicitly implemented by AbstractMessage are forwarded to the wrapped * object. This allows us to test that AbstractMessage's implementations work even if the wrapped * object does not use them. */ private static class AbstractMessageWrapper extends AbstractMessage { private final Message wrappedMessage; public AbstractMessageWrapper(Message wrappedMessage) { this.wrappedMessage = wrappedMessage; } @Override public Descriptors.Descriptor getDescriptorForType() { return wrappedMessage.getDescriptorForType(); } @Override public AbstractMessageWrapper getDefaultInstanceForType() { return new AbstractMessageWrapper(wrappedMessage.getDefaultInstanceForType()); } @Override public Map<Descriptors.FieldDescriptor, Object> getAllFields() { return wrappedMessage.getAllFields(); } @Override public boolean hasField(Descriptors.FieldDescriptor field) { return wrappedMessage.hasField(field); } @Override public Object getField(Descriptors.FieldDescriptor field) { return wrappedMessage.getField(field); } @Override public int getRepeatedFieldCount(Descriptors.FieldDescriptor field) { return wrappedMessage.getRepeatedFieldCount(field); } @Override public Object getRepeatedField(Descriptors.FieldDescriptor field, int index) { return wrappedMessage.getRepeatedField(field, index); } @Override public UnknownFieldSet getUnknownFields() { return wrappedMessage.getUnknownFields(); } @Override public Builder newBuilderForType() { return new Builder(wrappedMessage.newBuilderForType()); } @Override public Builder toBuilder() { return new Builder(wrappedMessage.toBuilder()); } static class Builder extends AbstractMessage.Builder<Builder> { private final Message.Builder wrappedBuilder; public Builder(Message.Builder wrappedBuilder) { this.wrappedBuilder = wrappedBuilder; } @Override public AbstractMessageWrapper build() { return new AbstractMessageWrapper(wrappedBuilder.build()); } @Override public AbstractMessageWrapper buildPartial() { return new AbstractMessageWrapper(wrappedBuilder.buildPartial()); } @Override public Builder clone() { return new Builder(wrappedBuilder.clone()); } @Override public boolean isInitialized() { return clone().buildPartial().isInitialized(); } @Override public Descriptors.Descriptor getDescriptorForType() { return wrappedBuilder.getDescriptorForType(); } @Override public AbstractMessageWrapper getDefaultInstanceForType() { return new AbstractMessageWrapper(wrappedBuilder.getDefaultInstanceForType()); } @Override public Map<Descriptors.FieldDescriptor, Object> getAllFields() { return wrappedBuilder.getAllFields(); } @Override public Builder newBuilderForField(Descriptors.FieldDescriptor field) { return new Builder(wrappedBuilder.newBuilderForField(field)); } @Override public boolean hasField(Descriptors.FieldDescriptor field) { return wrappedBuilder.hasField(field); } @Override public Object getField(Descriptors.FieldDescriptor field) { return wrappedBuilder.getField(field); } @Override public Builder setField(Descriptors.FieldDescriptor field, Object value) { wrappedBuilder.setField(field, value); return this; } @Override public Builder clearField(Descriptors.FieldDescriptor field) { wrappedBuilder.clearField(field); return this; } @Override public int getRepeatedFieldCount(Descriptors.FieldDescriptor field) { return wrappedBuilder.getRepeatedFieldCount(field); } @Override public Object getRepeatedField(Descriptors.FieldDescriptor field, int index) { return wrappedBuilder.getRepeatedField(field, index); } @Override public Builder setRepeatedField(Descriptors.FieldDescriptor field, int index, Object value) { wrappedBuilder.setRepeatedField(field, index, value); return this; } @Override public Builder addRepeatedField(Descriptors.FieldDescriptor field, Object value) { wrappedBuilder.addRepeatedField(field, value); return this; } @Override public UnknownFieldSet getUnknownFields() { return wrappedBuilder.getUnknownFields(); } @Override public Builder setUnknownFields(UnknownFieldSet unknownFields) { wrappedBuilder.setUnknownFields(unknownFields); return this; } @Override public Message.Builder getFieldBuilder(FieldDescriptor field) { return wrappedBuilder.getFieldBuilder(field); } } @Override public Parser<? extends Message> getParserForType() { return wrappedMessage.getParserForType(); } } // ================================================================= TestUtil.ReflectionTester reflectionTester = new TestUtil.ReflectionTester(TestAllTypes.getDescriptor(), null); TestUtil.ReflectionTester extensionsReflectionTester = new TestUtil.ReflectionTester( TestAllExtensions.getDescriptor(), TestUtil.getExtensionRegistry()); public void testClear() throws Exception { AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder(TestUtil.getAllSet())) .clear() .build(); TestUtil.assertClear((TestAllTypes) message.wrappedMessage); } public void testCopy() throws Exception { AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder()) .mergeFrom(TestUtil.getAllSet()) .build(); TestUtil.assertAllFieldsSet((TestAllTypes) message.wrappedMessage); } public void testSerializedSize() throws Exception { TestAllTypes message = TestUtil.getAllSet(); Message abstractMessage = new AbstractMessageWrapper(TestUtil.getAllSet()); assertEquals(message.getSerializedSize(), abstractMessage.getSerializedSize()); } public void testSerialization() throws Exception { Message abstractMessage = new AbstractMessageWrapper(TestUtil.getAllSet()); TestUtil.assertAllFieldsSet(TestAllTypes.parseFrom(abstractMessage.toByteString())); assertEquals(TestUtil.getAllSet().toByteString(), abstractMessage.toByteString()); } public void testParsing() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getAllSet().toByteString()).build(); TestUtil.assertAllFieldsSet((TestAllTypes) message.wrappedMessage); } public void testParsingUninitialized() throws Exception { TestRequiredForeign.Builder builder = TestRequiredForeign.newBuilder(); builder.getOptionalMessageBuilder().setDummy2(10); ByteString bytes = builder.buildPartial().toByteString(); Message.Builder abstractMessageBuilder = new AbstractMessageWrapper.Builder(TestRequiredForeign.newBuilder()); // mergeFrom() should not throw initialization error. abstractMessageBuilder.mergeFrom(bytes).buildPartial(); try { abstractMessageBuilder.mergeFrom(bytes).build(); fail(); } catch (UninitializedMessageException ex) { // pass } // test DynamicMessage directly. Message.Builder dynamicMessageBuilder = DynamicMessage.newBuilder(TestRequiredForeign.getDescriptor()); // mergeFrom() should not throw initialization error. dynamicMessageBuilder.mergeFrom(bytes).buildPartial(); try { dynamicMessageBuilder.mergeFrom(bytes).build(); fail(); } catch (UninitializedMessageException ex) { // pass } } public void testPackedSerialization() throws Exception { Message abstractMessage = new AbstractMessageWrapper(TestUtil.getPackedSet()); TestUtil.assertPackedFieldsSet(TestPackedTypes.parseFrom(abstractMessage.toByteString())); assertEquals(TestUtil.getPackedSet().toByteString(), abstractMessage.toByteString()); } public void testPackedParsing() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestPackedTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getPackedSet().toByteString()).build(); TestUtil.assertPackedFieldsSet((TestPackedTypes) message.wrappedMessage); } public void testUnpackedSerialization() throws Exception { Message abstractMessage = new AbstractMessageWrapper(TestUtil.getUnpackedSet()); TestUtil.assertUnpackedFieldsSet(TestUnpackedTypes.parseFrom(abstractMessage.toByteString())); assertEquals(TestUtil.getUnpackedSet().toByteString(), abstractMessage.toByteString()); } public void testParsePackedToUnpacked() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestUnpackedTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getPackedSet().toByteString()).build(); TestUtil.assertUnpackedFieldsSet((TestUnpackedTypes) message.wrappedMessage); } public void testParseUnpackedToPacked() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestPackedTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getUnpackedSet().toByteString()).build(); TestUtil.assertPackedFieldsSet((TestPackedTypes) message.wrappedMessage); } public void testUnpackedParsing() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestUnpackedTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getUnpackedSet().toByteString()).build(); TestUtil.assertUnpackedFieldsSet((TestUnpackedTypes) message.wrappedMessage); } public void testOptimizedForSize() throws Exception { // We're mostly only checking that this class was compiled successfully. TestOptimizedForSize message = TestOptimizedForSize.newBuilder().setI(1).build(); message = TestOptimizedForSize.parseFrom(message.toByteString()); assertEquals(2, message.getSerializedSize()); } // ----------------------------------------------------------------- // Tests for isInitialized(). private static final TestRequired TEST_REQUIRED_UNINITIALIZED = TestRequired.getDefaultInstance(); private static final TestRequired TEST_REQUIRED_INITIALIZED = TestRequired.newBuilder().setA(1).setB(2).setC(3).build(); public void testIsInitialized() throws Exception { TestRequired.Builder builder = TestRequired.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertFalse(abstractBuilder.isInitialized()); assertEquals("a, b, c", abstractBuilder.getInitializationErrorString()); builder.setA(1); assertFalse(abstractBuilder.isInitialized()); assertEquals("b, c", abstractBuilder.getInitializationErrorString()); builder.setB(1); assertFalse(abstractBuilder.isInitialized()); assertEquals("c", abstractBuilder.getInitializationErrorString()); builder.setC(1); assertTrue(abstractBuilder.isInitialized()); assertEquals("", abstractBuilder.getInitializationErrorString()); } public void testForeignIsInitialized() throws Exception { TestRequiredForeign.Builder builder = TestRequiredForeign.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertTrue(abstractBuilder.isInitialized()); assertEquals("", abstractBuilder.getInitializationErrorString()); builder.setOptionalMessage(TEST_REQUIRED_UNINITIALIZED); assertFalse(abstractBuilder.isInitialized()); assertEquals( "optional_message.a, optional_message.b, optional_message.c", abstractBuilder.getInitializationErrorString()); builder.setOptionalMessage(TEST_REQUIRED_INITIALIZED); assertTrue(abstractBuilder.isInitialized()); assertEquals("", abstractBuilder.getInitializationErrorString()); builder.addRepeatedMessage(TEST_REQUIRED_UNINITIALIZED); assertFalse(abstractBuilder.isInitialized()); assertEquals( "repeated_message[0].a, repeated_message[0].b, repeated_message[0].c", abstractBuilder.getInitializationErrorString()); builder.setRepeatedMessage(0, TEST_REQUIRED_INITIALIZED); assertTrue(abstractBuilder.isInitialized()); assertEquals("", abstractBuilder.getInitializationErrorString()); } // ----------------------------------------------------------------- // Tests for mergeFrom static final TestAllTypes MERGE_SOURCE = TestAllTypes.newBuilder() .setOptionalInt32(1) .setOptionalString("foo") .setOptionalForeignMessage(ForeignMessage.getDefaultInstance()) .addRepeatedString("bar") .build(); static final TestAllTypes MERGE_DEST = TestAllTypes.newBuilder() .setOptionalInt64(2) .setOptionalString("baz") .setOptionalForeignMessage(ForeignMessage.newBuilder().setC(3).build()) .addRepeatedString("qux") .build(); static final String MERGE_RESULT_TEXT = "optional_int32: 1\n" + "optional_int64: 2\n" + "optional_string: \"foo\"\n" + "optional_foreign_message {\n" + " c: 3\n" + "}\n" + "repeated_string: \"qux\"\n" + "repeated_string: \"bar\"\n"; public void testMergeFrom() throws Exception { AbstractMessageWrapper result = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder(MERGE_DEST)) .mergeFrom(MERGE_SOURCE) .build(); assertEquals(MERGE_RESULT_TEXT, result.toString()); } // ----------------------------------------------------------------- // Tests for equals and hashCode public void testEqualsAndHashCode() throws Exception { TestAllTypes a = TestUtil.getAllSet(); TestAllTypes b = TestAllTypes.newBuilder().build(); TestAllTypes c = TestAllTypes.newBuilder(b).addRepeatedString("x").build(); TestAllTypes d = TestAllTypes.newBuilder(c).addRepeatedString("y").build(); TestAllExtensions e = TestUtil.getAllExtensionsSet(); TestAllExtensions f = TestAllExtensions.newBuilder(e) .addExtension(UnittestProto.repeatedInt32Extension, 999) .build(); checkEqualsIsConsistent(a); checkEqualsIsConsistent(b); checkEqualsIsConsistent(c); checkEqualsIsConsistent(d); checkEqualsIsConsistent(e); checkEqualsIsConsistent(f); checkNotEqual(a, b); checkNotEqual(a, c); checkNotEqual(a, d); checkNotEqual(a, e); checkNotEqual(a, f); checkNotEqual(b, c); checkNotEqual(b, d); checkNotEqual(b, e); checkNotEqual(b, f); checkNotEqual(c, d); checkNotEqual(c, e); checkNotEqual(c, f); checkNotEqual(d, e); checkNotEqual(d, f); checkNotEqual(e, f); // Deserializing into the TestEmptyMessage such that every field // is an {@link UnknownFieldSet.Field}. UnittestProto.TestEmptyMessage eUnknownFields = UnittestProto.TestEmptyMessage.parseFrom(e.toByteArray()); UnittestProto.TestEmptyMessage fUnknownFields = UnittestProto.TestEmptyMessage.parseFrom(f.toByteArray()); checkNotEqual(eUnknownFields, fUnknownFields); checkEqualsIsConsistent(eUnknownFields); checkEqualsIsConsistent(fUnknownFields); // Subsequent reconstitutions should be identical UnittestProto.TestEmptyMessage eUnknownFields2 = UnittestProto.TestEmptyMessage.parseFrom(e.toByteArray()); checkEqualsIsConsistent(eUnknownFields, eUnknownFields2); } /** Asserts that the given proto has symmetric equals and hashCode methods. */ private void checkEqualsIsConsistent(Message message) { // Object should be equal to itself. assertEquals(message, message); // Object should be equal to a dynamic copy of itself. DynamicMessage dynamic = DynamicMessage.newBuilder(message).build(); checkEqualsIsConsistent(message, dynamic); } /** Asserts that the given protos are equal and have the same hash code. */ private void checkEqualsIsConsistent(Message message1, Message message2) { assertEquals(message1, message2); assertEquals(message2, message1); assertEquals(message2.hashCode(), message1.hashCode()); } /** * Asserts that the given protos are not equal and have different hash codes. * * @warning It's valid for non-equal objects to have the same hash code, so this test is stricter * than it needs to be. However, this should happen relatively rarely. */ private void checkNotEqual(Message m1, Message m2) { String equalsError = String.format("%s should not be equal to %s", m1, m2); assertFalse(equalsError, m1.equals(m2)); assertFalse(equalsError, m2.equals(m1)); assertFalse( String.format("%s should have a different hash code from %s", m1, m2), m1.hashCode() == m2.hashCode()); } public void testCheckByteStringIsUtf8OnUtf8() { ByteString byteString = ByteString.copyFromUtf8("some text"); AbstractMessageLite.checkByteStringIsUtf8(byteString); // No exception thrown. } public void testCheckByteStringIsUtf8OnNonUtf8() { ByteString byteString = ByteString.copyFrom(new byte[] {(byte) 0x80}); // A lone continuation byte. try { AbstractMessageLite.checkByteStringIsUtf8(byteString); fail("Expected AbstractMessageLite.checkByteStringIsUtf8 to throw IllegalArgumentException"); } catch (IllegalArgumentException exception) { assertEquals("Byte string is not UTF-8.", exception.getMessage()); } } }
/** * Unit test for {@link AbstractMessage}. * * @author [email protected] Kenton Varda */ public class AbstractMessageTest extends TestCase { /** * Extends AbstractMessage and wraps some other message object. The methods of the Message * interface which aren't explicitly implemented by AbstractMessage are forwarded to the wrapped * object. This allows us to test that AbstractMessage's implementations work even if the wrapped * object does not use them. */ private static class AbstractMessageWrapper extends AbstractMessage { private final Message wrappedMessage; public AbstractMessageWrapper(Message wrappedMessage) { this.wrappedMessage = wrappedMessage; } public Descriptors.Descriptor getDescriptorForType() { return wrappedMessage.getDescriptorForType(); } public AbstractMessageWrapper getDefaultInstanceForType() { return new AbstractMessageWrapper(wrappedMessage.getDefaultInstanceForType()); } public Map<Descriptors.FieldDescriptor, Object> getAllFields() { return wrappedMessage.getAllFields(); } public boolean hasField(Descriptors.FieldDescriptor field) { return wrappedMessage.hasField(field); } public Object getField(Descriptors.FieldDescriptor field) { return wrappedMessage.getField(field); } public int getRepeatedFieldCount(Descriptors.FieldDescriptor field) { return wrappedMessage.getRepeatedFieldCount(field); } public Object getRepeatedField(Descriptors.FieldDescriptor field, int index) { return wrappedMessage.getRepeatedField(field, index); } public UnknownFieldSet getUnknownFields() { return wrappedMessage.getUnknownFields(); } public Builder newBuilderForType() { return new Builder(wrappedMessage.newBuilderForType()); } static class Builder extends AbstractMessage.Builder<Builder> { private final Message.Builder wrappedBuilder; public Builder(Message.Builder wrappedBuilder) { this.wrappedBuilder = wrappedBuilder; } public AbstractMessageWrapper build() { return new AbstractMessageWrapper(wrappedBuilder.build()); } public AbstractMessageWrapper buildPartial() { return new AbstractMessageWrapper(wrappedBuilder.buildPartial()); } public Builder clone() { return new Builder(wrappedBuilder.clone()); } public boolean isInitialized() { return clone().buildPartial().isInitialized(); } public Descriptors.Descriptor getDescriptorForType() { return wrappedBuilder.getDescriptorForType(); } public AbstractMessageWrapper getDefaultInstanceForType() { return new AbstractMessageWrapper(wrappedBuilder.getDefaultInstanceForType()); } public Map<Descriptors.FieldDescriptor, Object> getAllFields() { return wrappedBuilder.getAllFields(); } public Builder newBuilderForField(Descriptors.FieldDescriptor field) { return new Builder(wrappedBuilder.newBuilderForField(field)); } public boolean hasField(Descriptors.FieldDescriptor field) { return wrappedBuilder.hasField(field); } public Object getField(Descriptors.FieldDescriptor field) { return wrappedBuilder.getField(field); } public Builder setField(Descriptors.FieldDescriptor field, Object value) { wrappedBuilder.setField(field, value); return this; } public Builder clearField(Descriptors.FieldDescriptor field) { wrappedBuilder.clearField(field); return this; } public int getRepeatedFieldCount(Descriptors.FieldDescriptor field) { return wrappedBuilder.getRepeatedFieldCount(field); } public Object getRepeatedField(Descriptors.FieldDescriptor field, int index) { return wrappedBuilder.getRepeatedField(field, index); } public Builder setRepeatedField(Descriptors.FieldDescriptor field, int index, Object value) { wrappedBuilder.setRepeatedField(field, index, value); return this; } public Builder addRepeatedField(Descriptors.FieldDescriptor field, Object value) { wrappedBuilder.addRepeatedField(field, value); return this; } public UnknownFieldSet getUnknownFields() { return wrappedBuilder.getUnknownFields(); } public Builder setUnknownFields(UnknownFieldSet unknownFields) { wrappedBuilder.setUnknownFields(unknownFields); return this; } } } // ================================================================= TestUtil.ReflectionTester reflectionTester = new TestUtil.ReflectionTester(TestAllTypes.getDescriptor(), null); TestUtil.ReflectionTester extensionsReflectionTester = new TestUtil.ReflectionTester( TestAllExtensions.getDescriptor(), TestUtil.getExtensionRegistry()); public void testClear() throws Exception { AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder(TestUtil.getAllSet())) .clear() .build(); TestUtil.assertClear((TestAllTypes) message.wrappedMessage); } public void testCopy() throws Exception { AbstractMessageWrapper message = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder()) .mergeFrom(TestUtil.getAllSet()) .build(); TestUtil.assertAllFieldsSet((TestAllTypes) message.wrappedMessage); } public void testSerializedSize() throws Exception { TestAllTypes message = TestUtil.getAllSet(); Message abstractMessage = new AbstractMessageWrapper(TestUtil.getAllSet()); assertEquals(message.getSerializedSize(), abstractMessage.getSerializedSize()); } public void testSerialization() throws Exception { Message abstractMessage = new AbstractMessageWrapper(TestUtil.getAllSet()); TestUtil.assertAllFieldsSet(TestAllTypes.parseFrom(abstractMessage.toByteString())); assertEquals(TestUtil.getAllSet().toByteString(), abstractMessage.toByteString()); } public void testParsing() throws Exception { AbstractMessageWrapper.Builder builder = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder()); AbstractMessageWrapper message = builder.mergeFrom(TestUtil.getAllSet().toByteString()).build(); TestUtil.assertAllFieldsSet((TestAllTypes) message.wrappedMessage); } public void testOptimizedForSize() throws Exception { // We're mostly only checking that this class was compiled successfully. TestOptimizedForSize message = TestOptimizedForSize.newBuilder().setI(1).build(); message = TestOptimizedForSize.parseFrom(message.toByteString()); assertEquals(2, message.getSerializedSize()); } // ----------------------------------------------------------------- // Tests for isInitialized(). private static final TestRequired TEST_REQUIRED_UNINITIALIZED = TestRequired.getDefaultInstance(); private static final TestRequired TEST_REQUIRED_INITIALIZED = TestRequired.newBuilder().setA(1).setB(2).setC(3).build(); public void testIsInitialized() throws Exception { TestRequired.Builder builder = TestRequired.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertFalse(abstractBuilder.isInitialized()); builder.setA(1); assertFalse(abstractBuilder.isInitialized()); builder.setB(1); assertFalse(abstractBuilder.isInitialized()); builder.setC(1); assertTrue(abstractBuilder.isInitialized()); } public void testForeignIsInitialized() throws Exception { TestRequiredForeign.Builder builder = TestRequiredForeign.newBuilder(); AbstractMessageWrapper.Builder abstractBuilder = new AbstractMessageWrapper.Builder(builder); assertTrue(abstractBuilder.isInitialized()); builder.setOptionalMessage(TEST_REQUIRED_UNINITIALIZED); assertFalse(abstractBuilder.isInitialized()); builder.setOptionalMessage(TEST_REQUIRED_INITIALIZED); assertTrue(abstractBuilder.isInitialized()); builder.addRepeatedMessage(TEST_REQUIRED_UNINITIALIZED); assertFalse(abstractBuilder.isInitialized()); builder.setRepeatedMessage(0, TEST_REQUIRED_INITIALIZED); assertTrue(abstractBuilder.isInitialized()); } // ----------------------------------------------------------------- // Tests for mergeFrom static final TestAllTypes MERGE_SOURCE = TestAllTypes.newBuilder() .setOptionalInt32(1) .setOptionalString("foo") .setOptionalForeignMessage(ForeignMessage.getDefaultInstance()) .addRepeatedString("bar") .build(); static final TestAllTypes MERGE_DEST = TestAllTypes.newBuilder() .setOptionalInt64(2) .setOptionalString("baz") .setOptionalForeignMessage(ForeignMessage.newBuilder().setC(3).build()) .addRepeatedString("qux") .build(); static final String MERGE_RESULT_TEXT = "optional_int32: 1\n" + "optional_int64: 2\n" + "optional_string: \"foo\"\n" + "optional_foreign_message {\n" + " c: 3\n" + "}\n" + "repeated_string: \"qux\"\n" + "repeated_string: \"bar\"\n"; public void testMergeFrom() throws Exception { AbstractMessageWrapper result = new AbstractMessageWrapper.Builder(TestAllTypes.newBuilder(MERGE_DEST)) .mergeFrom(MERGE_SOURCE) .build(); assertEquals(MERGE_RESULT_TEXT, result.toString()); } // ----------------------------------------------------------------- // Tests for equals and hashCode public void testEqualsAndHashCode() { TestAllTypes a = TestUtil.getAllSet(); TestAllTypes b = TestAllTypes.newBuilder().build(); TestAllTypes c = TestAllTypes.newBuilder(b).addRepeatedString("x").build(); TestAllTypes d = TestAllTypes.newBuilder(c).addRepeatedString("y").build(); TestAllExtensions e = TestUtil.getAllExtensionsSet(); TestAllExtensions f = TestAllExtensions.newBuilder(e) .addExtension(UnittestProto.repeatedInt32Extension, 999) .build(); checkEqualsIsConsistent(a); checkEqualsIsConsistent(b); checkEqualsIsConsistent(c); checkEqualsIsConsistent(d); checkEqualsIsConsistent(e); checkEqualsIsConsistent(f); checkNotEqual(a, b); checkNotEqual(a, c); checkNotEqual(a, d); checkNotEqual(a, e); checkNotEqual(a, f); checkNotEqual(b, c); checkNotEqual(b, d); checkNotEqual(b, e); checkNotEqual(b, f); checkNotEqual(c, d); checkNotEqual(c, e); checkNotEqual(c, f); checkNotEqual(d, e); checkNotEqual(d, f); checkNotEqual(e, f); } /** Asserts that the given protos are equal and have the same hash code. */ private void checkEqualsIsConsistent(Message message) { // Object should be equal to itself. assertEquals(message, message); // Object should be equal to a dynamic copy of itself. DynamicMessage dynamic = DynamicMessage.newBuilder(message).build(); assertEquals(message, dynamic); assertEquals(dynamic, message); assertEquals(dynamic.hashCode(), message.hashCode()); } /** * Asserts that the given protos are not equal and have different hash codes. * * @warning It's valid for non-equal objects to have the same hash code, so this test is stricter * than it needs to be. However, this should happen relatively rarely. */ private void checkNotEqual(Message m1, Message m2) { String equalsError = String.format("%s should not be equal to %s", m1, m2); assertFalse(equalsError, m1.equals(m2)); assertFalse(equalsError, m2.equals(m1)); assertFalse( String.format("%s should have a different hash code from %s", m1, m2), m1.hashCode() == m2.hashCode()); } }