// Protocol Buffers - Google's data interchange format // Copyright 2015 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // 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. #import "GPBTestUtilities.h" #import #import "GPBMessage.h" #import "google/protobuf/MapProto2Unittest.pbobjc.h" #import "google/protobuf/MapUnittest.pbobjc.h" #import "google/protobuf/Unittest.pbobjc.h" #import "google/protobuf/UnittestDropUnknownFields.pbobjc.h" #import "google/protobuf/UnittestPreserveUnknownEnum.pbobjc.h" #import "google/protobuf/UnittestRuntimeProto2.pbobjc.h" #import "google/protobuf/UnittestRuntimeProto3.pbobjc.h" @interface MessageSerializationTests : GPBTestCase @end @implementation MessageSerializationTests // TODO(thomasvl): Pull tests over from GPBMessageTests that are serialization // specific. - (void)testProto3SerializationHandlingDefaults { // Proto2 covered in other tests. Message3 *msg = [[Message3 alloc] init]; // Add defaults, no output. NSData *data = [msg data]; XCTAssertEqual([data length], 0U); // All zeros, still nothing. msg.optionalInt32 = 0; msg.optionalInt64 = 0; msg.optionalUint32 = 0; msg.optionalUint64 = 0; msg.optionalSint32 = 0; msg.optionalSint64 = 0; msg.optionalFixed32 = 0; msg.optionalFixed64 = 0; msg.optionalSfixed32 = 0; msg.optionalSfixed64 = 0; msg.optionalFloat = 0.0f; msg.optionalDouble = 0.0; msg.optionalBool = NO; msg.optionalString = @""; msg.optionalBytes = [NSData data]; msg.optionalEnum = Message3_Enum_Foo; // first value data = [msg data]; XCTAssertEqual([data length], 0U); // The two that also take nil as nothing. msg.optionalString = nil; msg.optionalBytes = nil; data = [msg data]; XCTAssertEqual([data length], 0U); // Set one field... msg.optionalInt32 = 1; data = [msg data]; const uint8_t expectedBytes[] = {0x08, 0x01}; NSData *expected = [NSData dataWithBytes:expectedBytes length:2]; XCTAssertEqualObjects(data, expected); // Back to zero... msg.optionalInt32 = 0; data = [msg data]; XCTAssertEqual([data length], 0U); [msg release]; } - (void)testProto2UnknownEnumToUnknownField { Message3 *orig = [[Message3 alloc] init]; orig.optionalEnum = Message3_Enum_Extra3; orig.repeatedEnumArray = [GPBEnumArray arrayWithValidationFunction:Message3_Enum_IsValidValue rawValue:Message3_Enum_Extra3]; orig.oneofEnum = Message3_Enum_Extra3; NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [[Message2 alloc] initWithData:data error:NULL]; // None of the fields should be set. XCTAssertFalse(msg.hasOptionalEnum); XCTAssertEqual(msg.repeatedEnumArray.count, 0U); XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_GPBUnsetOneOfCase); // All the values should be in unknown fields. GPBUnknownFieldSet *unknownFields = msg.unknownFields; XCTAssertEqual([unknownFields countOfFields], 3U); XCTAssertTrue([unknownFields hasField:Message2_FieldNumber_OptionalEnum]); XCTAssertTrue( [unknownFields hasField:Message2_FieldNumber_RepeatedEnumArray]); XCTAssertTrue([unknownFields hasField:Message2_FieldNumber_OneofEnum]); GPBUnknownField *field = [unknownFields getField:Message2_FieldNumber_OptionalEnum]; XCTAssertEqual(field.varintList.count, 1U); XCTAssertEqual([field.varintList valueAtIndex:0], (uint64_t)Message3_Enum_Extra3); field = [unknownFields getField:Message2_FieldNumber_RepeatedEnumArray]; XCTAssertEqual(field.varintList.count, 1U); XCTAssertEqual([field.varintList valueAtIndex:0], (uint64_t)Message3_Enum_Extra3); field = [unknownFields getField:Message2_FieldNumber_OneofEnum]; XCTAssertEqual(field.varintList.count, 1U); XCTAssertEqual([field.varintList valueAtIndex:0], (uint64_t)Message3_Enum_Extra3); [msg release]; [orig release]; } - (void)testProto3UnknownEnumPreserving { UnknownEnumsMyMessagePlusExtra *orig = [UnknownEnumsMyMessagePlusExtra message]; orig.e = UnknownEnumsMyEnumPlusExtra_EExtra; orig.repeatedEArray = [GPBEnumArray arrayWithValidationFunction:UnknownEnumsMyEnumPlusExtra_IsValidValue rawValue:UnknownEnumsMyEnumPlusExtra_EExtra]; orig.repeatedPackedEArray = [GPBEnumArray arrayWithValidationFunction:UnknownEnumsMyEnumPlusExtra_IsValidValue rawValue:UnknownEnumsMyEnumPlusExtra_EExtra]; orig.oneofE1 = UnknownEnumsMyEnumPlusExtra_EExtra; // Everything should be there via raw values. NSData *data = [orig data]; XCTAssertNotNil(data); UnknownEnumsMyMessage *msg = [UnknownEnumsMyMessage parseFromData:data error:NULL]; XCTAssertEqual(msg.e, UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue); XCTAssertEqual(UnknownEnumsMyMessage_E_RawValue(msg), UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(msg.repeatedEArray.count, 1U); XCTAssertEqual([msg.repeatedEArray valueAtIndex:0], UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue); XCTAssertEqual([msg.repeatedEArray rawValueAtIndex:0], (UnknownEnumsMyEnum)UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(msg.repeatedPackedEArray.count, 1U); XCTAssertEqual([msg.repeatedPackedEArray valueAtIndex:0], UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue); XCTAssertEqual([msg.repeatedPackedEArray rawValueAtIndex:0], (UnknownEnumsMyEnum)UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(msg.oneofE1, UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue); XCTAssertEqual(UnknownEnumsMyMessage_OneofE1_RawValue(msg), UnknownEnumsMyEnumPlusExtra_EExtra); // Everything should go out and come back. data = [msg data]; orig = [UnknownEnumsMyMessagePlusExtra parseFromData:data error:NULL]; XCTAssertEqual(orig.e, UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(orig.repeatedEArray.count, 1U); XCTAssertEqual([orig.repeatedEArray valueAtIndex:0], UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(orig.repeatedPackedEArray.count, 1U); XCTAssertEqual([orig.repeatedPackedEArray valueAtIndex:0], UnknownEnumsMyEnumPlusExtra_EExtra); XCTAssertEqual(orig.oneofE1, UnknownEnumsMyEnumPlusExtra_EExtra); } //%PDDM-DEFINE TEST_ROUNDTRIP_ONEOF(MESSAGE, FIELD, VALUE) //%TEST_ROUNDTRIP_ONEOF_ADV(MESSAGE, FIELD, VALUE, ) //%PDDM-DEFINE TEST_ROUNDTRIP_ONEOF_ADV(MESSAGE, FIELD, VALUE, EQ_SUFFIX) //% { // oneof##FIELD //% MESSAGE *orig = [[MESSAGE alloc] init]; //% orig.oneof##FIELD = VALUE; //% XCTAssertEqual(orig.oOneOfCase, MESSAGE##_O_OneOfCase_Oneof##FIELD); //% NSData *data = [orig data]; //% XCTAssertNotNil(data); //% MESSAGE *msg = [MESSAGE parseFromData:data error:NULL]; //% XCTAssertEqual(msg.oOneOfCase, MESSAGE##_O_OneOfCase_Oneof##FIELD); //% XCTAssertEqual##EQ_SUFFIX(msg.oneof##FIELD, VALUE); //% [orig release]; //% } //% //%PDDM-DEFINE TEST_ROUNDTRIP_ONEOFS(SYNTAX, BOOL_NON_DEFAULT) //%- (void)testProto##SYNTAX##RoundTripOneof { //% //%GROUP_INIT##SYNTAX() Message##SYNTAX *subMessage = [[Message##SYNTAX alloc] init]; //% XCTAssertNotNil(subMessage); //% subMessage.optionalInt32 = 666; //% //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Int32, 1) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Int64, 2) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Uint32, 3U) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Uint64, 4U) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sint32, 5) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sint64, 6) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Fixed32, 7U) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Fixed64, 8U) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sfixed32, 9) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sfixed64, 10) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Float, 11.0f) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Double, 12.0) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Bool, BOOL_NON_DEFAULT) //%TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, String, @"foo", Objects) //%TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, Bytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding], Objects) //%GROUP_TEST##SYNTAX()TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, Message, subMessage, Objects) //%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Enum, Message2_Enum_Bar) //%GROUP_CLEANUP##SYNTAX() [subMessage release]; //%} //% //%PDDM-DEFINE GROUP_INIT2() //% Message2_OneofGroup *group = [[Message2_OneofGroup alloc] init]; //% XCTAssertNotNil(group); //% group.a = 777; //% //%PDDM-DEFINE GROUP_CLEANUP2() //% [group release]; //% //%PDDM-DEFINE GROUP_TEST2() //%TEST_ROUNDTRIP_ONEOF_ADV(Message2, Group, group, Objects) //% //%PDDM-DEFINE GROUP_INIT3() // Empty //%PDDM-DEFINE GROUP_CLEANUP3() // Empty //%PDDM-DEFINE GROUP_TEST3() //% // Not "group" in proto3. //% //% //%PDDM-EXPAND TEST_ROUNDTRIP_ONEOFS(2, NO) // This block of code is generated, do not edit it directly. - (void)testProto2RoundTripOneof { Message2_OneofGroup *group = [[Message2_OneofGroup alloc] init]; XCTAssertNotNil(group); group.a = 777; Message2 *subMessage = [[Message2 alloc] init]; XCTAssertNotNil(subMessage); subMessage.optionalInt32 = 666; { // oneofInt32 Message2 *orig = [[Message2 alloc] init]; orig.oneofInt32 = 1; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofInt32); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofInt32); XCTAssertEqual(msg.oneofInt32, 1); [orig release]; } { // oneofInt64 Message2 *orig = [[Message2 alloc] init]; orig.oneofInt64 = 2; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofInt64); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofInt64); XCTAssertEqual(msg.oneofInt64, 2); [orig release]; } { // oneofUint32 Message2 *orig = [[Message2 alloc] init]; orig.oneofUint32 = 3U; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofUint32); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofUint32); XCTAssertEqual(msg.oneofUint32, 3U); [orig release]; } { // oneofUint64 Message2 *orig = [[Message2 alloc] init]; orig.oneofUint64 = 4U; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofUint64); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofUint64); XCTAssertEqual(msg.oneofUint64, 4U); [orig release]; } { // oneofSint32 Message2 *orig = [[Message2 alloc] init]; orig.oneofSint32 = 5; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSint32); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSint32); XCTAssertEqual(msg.oneofSint32, 5); [orig release]; } { // oneofSint64 Message2 *orig = [[Message2 alloc] init]; orig.oneofSint64 = 6; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSint64); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSint64); XCTAssertEqual(msg.oneofSint64, 6); [orig release]; } { // oneofFixed32 Message2 *orig = [[Message2 alloc] init]; orig.oneofFixed32 = 7U; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFixed32); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFixed32); XCTAssertEqual(msg.oneofFixed32, 7U); [orig release]; } { // oneofFixed64 Message2 *orig = [[Message2 alloc] init]; orig.oneofFixed64 = 8U; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFixed64); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFixed64); XCTAssertEqual(msg.oneofFixed64, 8U); [orig release]; } { // oneofSfixed32 Message2 *orig = [[Message2 alloc] init]; orig.oneofSfixed32 = 9; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSfixed32); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSfixed32); XCTAssertEqual(msg.oneofSfixed32, 9); [orig release]; } { // oneofSfixed64 Message2 *orig = [[Message2 alloc] init]; orig.oneofSfixed64 = 10; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSfixed64); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSfixed64); XCTAssertEqual(msg.oneofSfixed64, 10); [orig release]; } { // oneofFloat Message2 *orig = [[Message2 alloc] init]; orig.oneofFloat = 11.0f; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFloat); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFloat); XCTAssertEqual(msg.oneofFloat, 11.0f); [orig release]; } { // oneofDouble Message2 *orig = [[Message2 alloc] init]; orig.oneofDouble = 12.0; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofDouble); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofDouble); XCTAssertEqual(msg.oneofDouble, 12.0); [orig release]; } { // oneofBool Message2 *orig = [[Message2 alloc] init]; orig.oneofBool = NO; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofBool); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofBool); XCTAssertEqual(msg.oneofBool, NO); [orig release]; } { // oneofString Message2 *orig = [[Message2 alloc] init]; orig.oneofString = @"foo"; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofString); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofString); XCTAssertEqualObjects(msg.oneofString, @"foo"); [orig release]; } { // oneofBytes Message2 *orig = [[Message2 alloc] init]; orig.oneofBytes = [@"bar" dataUsingEncoding:NSUTF8StringEncoding]; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofBytes); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofBytes); XCTAssertEqualObjects(msg.oneofBytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding]); [orig release]; } { // oneofGroup Message2 *orig = [[Message2 alloc] init]; orig.oneofGroup = group; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofGroup); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofGroup); XCTAssertEqualObjects(msg.oneofGroup, group); [orig release]; } { // oneofMessage Message2 *orig = [[Message2 alloc] init]; orig.oneofMessage = subMessage; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofMessage); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofMessage); XCTAssertEqualObjects(msg.oneofMessage, subMessage); [orig release]; } { // oneofEnum Message2 *orig = [[Message2 alloc] init]; orig.oneofEnum = Message2_Enum_Bar; XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofEnum); NSData *data = [orig data]; XCTAssertNotNil(data); Message2 *msg = [Message2 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofEnum); XCTAssertEqual(msg.oneofEnum, Message2_Enum_Bar); [orig release]; } [group release]; [subMessage release]; } //%PDDM-EXPAND TEST_ROUNDTRIP_ONEOFS(3, YES) // This block of code is generated, do not edit it directly. - (void)testProto3RoundTripOneof { Message3 *subMessage = [[Message3 alloc] init]; XCTAssertNotNil(subMessage); subMessage.optionalInt32 = 666; { // oneofInt32 Message3 *orig = [[Message3 alloc] init]; orig.oneofInt32 = 1; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofInt32); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofInt32); XCTAssertEqual(msg.oneofInt32, 1); [orig release]; } { // oneofInt64 Message3 *orig = [[Message3 alloc] init]; orig.oneofInt64 = 2; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofInt64); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofInt64); XCTAssertEqual(msg.oneofInt64, 2); [orig release]; } { // oneofUint32 Message3 *orig = [[Message3 alloc] init]; orig.oneofUint32 = 3U; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofUint32); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofUint32); XCTAssertEqual(msg.oneofUint32, 3U); [orig release]; } { // oneofUint64 Message3 *orig = [[Message3 alloc] init]; orig.oneofUint64 = 4U; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofUint64); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofUint64); XCTAssertEqual(msg.oneofUint64, 4U); [orig release]; } { // oneofSint32 Message3 *orig = [[Message3 alloc] init]; orig.oneofSint32 = 5; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSint32); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSint32); XCTAssertEqual(msg.oneofSint32, 5); [orig release]; } { // oneofSint64 Message3 *orig = [[Message3 alloc] init]; orig.oneofSint64 = 6; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSint64); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSint64); XCTAssertEqual(msg.oneofSint64, 6); [orig release]; } { // oneofFixed32 Message3 *orig = [[Message3 alloc] init]; orig.oneofFixed32 = 7U; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFixed32); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFixed32); XCTAssertEqual(msg.oneofFixed32, 7U); [orig release]; } { // oneofFixed64 Message3 *orig = [[Message3 alloc] init]; orig.oneofFixed64 = 8U; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFixed64); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFixed64); XCTAssertEqual(msg.oneofFixed64, 8U); [orig release]; } { // oneofSfixed32 Message3 *orig = [[Message3 alloc] init]; orig.oneofSfixed32 = 9; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSfixed32); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSfixed32); XCTAssertEqual(msg.oneofSfixed32, 9); [orig release]; } { // oneofSfixed64 Message3 *orig = [[Message3 alloc] init]; orig.oneofSfixed64 = 10; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSfixed64); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSfixed64); XCTAssertEqual(msg.oneofSfixed64, 10); [orig release]; } { // oneofFloat Message3 *orig = [[Message3 alloc] init]; orig.oneofFloat = 11.0f; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFloat); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFloat); XCTAssertEqual(msg.oneofFloat, 11.0f); [orig release]; } { // oneofDouble Message3 *orig = [[Message3 alloc] init]; orig.oneofDouble = 12.0; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofDouble); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofDouble); XCTAssertEqual(msg.oneofDouble, 12.0); [orig release]; } { // oneofBool Message3 *orig = [[Message3 alloc] init]; orig.oneofBool = YES; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofBool); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofBool); XCTAssertEqual(msg.oneofBool, YES); [orig release]; } { // oneofString Message3 *orig = [[Message3 alloc] init]; orig.oneofString = @"foo"; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofString); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofString); XCTAssertEqualObjects(msg.oneofString, @"foo"); [orig release]; } { // oneofBytes Message3 *orig = [[Message3 alloc] init]; orig.oneofBytes = [@"bar" dataUsingEncoding:NSUTF8StringEncoding]; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofBytes); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofBytes); XCTAssertEqualObjects(msg.oneofBytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding]); [orig release]; } // Not "group" in proto3. { // oneofMessage Message3 *orig = [[Message3 alloc] init]; orig.oneofMessage = subMessage; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofMessage); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofMessage); XCTAssertEqualObjects(msg.oneofMessage, subMessage); [orig release]; } { // oneofEnum Message3 *orig = [[Message3 alloc] init]; orig.oneofEnum = Message2_Enum_Bar; XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofEnum); NSData *data = [orig data]; XCTAssertNotNil(data); Message3 *msg = [Message3 parseFromData:data error:NULL]; XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofEnum); XCTAssertEqual(msg.oneofEnum, Message2_Enum_Bar); [orig release]; } [subMessage release]; } //%PDDM-EXPAND-END (2 expansions) - (void)testPackedUnpackedMessageParsing { // packed is optional, a repeated field should parse when packed or unpacked. TestPackedTypes *packedOrig = [TestPackedTypes message]; TestUnpackedTypes *unpackedOrig = [TestUnpackedTypes message]; [self setPackedFields:packedOrig repeatedCount:4]; [self setUnpackedFields:unpackedOrig repeatedCount:4]; NSData *packedData = [packedOrig data]; NSData *unpackedData = [unpackedOrig data]; XCTAssertNotNil(packedData); XCTAssertNotNil(unpackedData); XCTAssertNotEqualObjects(packedData, unpackedData, @"Data should differ (packed vs unpacked) use"); NSError *error = nil; TestPackedTypes *packedParse = [TestPackedTypes parseFromData:unpackedData error:&error]; XCTAssertNotNil(packedParse); XCTAssertNil(error); XCTAssertEqualObjects(packedParse, packedOrig); error = nil; TestUnpackedTypes *unpackedParsed = [TestUnpackedTypes parseFromData:packedData error:&error]; XCTAssertNotNil(unpackedParsed); XCTAssertNil(error); XCTAssertEqualObjects(unpackedParsed, unpackedOrig); } - (void)testPackedUnpackedExtensionParsing { // packed is optional, a repeated extension should parse when packed or // unpacked. TestPackedExtensions *packedOrig = [TestPackedExtensions message]; TestUnpackedExtensions *unpackedOrig = [TestUnpackedExtensions message]; [self setPackedExtensions:packedOrig repeatedCount:kGPBDefaultRepeatCount]; [self setUnpackedExtensions:unpackedOrig repeatedCount:kGPBDefaultRepeatCount]; NSData *packedData = [packedOrig data]; NSData *unpackedData = [unpackedOrig data]; XCTAssertNotNil(packedData); XCTAssertNotNil(unpackedData); XCTAssertNotEqualObjects(packedData, unpackedData, @"Data should differ (packed vs unpacked) use"); NSError *error = nil; TestPackedExtensions *packedParse = [TestPackedExtensions parseFromData:unpackedData extensionRegistry:[UnittestRoot extensionRegistry] error:&error]; XCTAssertNotNil(packedParse); XCTAssertNil(error); XCTAssertEqualObjects(packedParse, packedOrig); error = nil; TestUnpackedExtensions *unpackedParsed = [TestUnpackedExtensions parseFromData:packedData extensionRegistry:[UnittestRoot extensionRegistry] error:&error]; XCTAssertNotNil(unpackedParsed); XCTAssertNil(error); XCTAssertEqualObjects(unpackedParsed, unpackedOrig); } - (void)testPackedExtensionVsFieldParsing { // Extensions and fields end up on the wire the same way, so they can parse // each other. TestPackedTypes *fieldsOrig = [TestPackedTypes message]; TestPackedExtensions *extsOrig = [TestPackedExtensions message]; [self setPackedFields:fieldsOrig repeatedCount:kGPBDefaultRepeatCount]; [self setPackedExtensions:extsOrig repeatedCount:kGPBDefaultRepeatCount]; NSData *fieldsData = [fieldsOrig data]; NSData *extsData = [extsOrig data]; XCTAssertNotNil(fieldsData); XCTAssertNotNil(extsData); XCTAssertEqualObjects(fieldsData, extsData); NSError *error = nil; TestPackedTypes *fieldsParse = [TestPackedTypes parseFromData:extsData error:&error]; XCTAssertNotNil(fieldsParse); XCTAssertNil(error); XCTAssertEqualObjects(fieldsParse, fieldsOrig); error = nil; TestPackedExtensions *extsParse = [TestPackedExtensions parseFromData:fieldsData extensionRegistry:[UnittestRoot extensionRegistry] error:&error]; XCTAssertNotNil(extsParse); XCTAssertNil(error); XCTAssertEqualObjects(extsParse, extsOrig); } - (void)testUnpackedExtensionVsFieldParsing { // Extensions and fields end up on the wire the same way, so they can parse // each other. TestUnpackedTypes *fieldsOrig = [TestUnpackedTypes message]; TestUnpackedExtensions *extsOrig = [TestUnpackedExtensions message]; [self setUnpackedFields:fieldsOrig repeatedCount:3]; [self setUnpackedExtensions:extsOrig repeatedCount:3]; NSData *fieldsData = [fieldsOrig data]; NSData *extsData = [extsOrig data]; XCTAssertNotNil(fieldsData); XCTAssertNotNil(extsData); XCTAssertEqualObjects(fieldsData, extsData); TestUnpackedTypes *fieldsParse = [TestUnpackedTypes parseFromData:extsData error:NULL]; XCTAssertNotNil(fieldsParse); XCTAssertEqualObjects(fieldsParse, fieldsOrig); TestUnpackedExtensions *extsParse = [TestUnpackedExtensions parseFromData:fieldsData extensionRegistry:[UnittestRoot extensionRegistry] error:NULL]; XCTAssertNotNil(extsParse); XCTAssertEqualObjects(extsParse, extsOrig); } - (void)testErrorSubsectionInvalidLimit { NSData *data = DataFromCStr( "\x0A\x08\x0A\x07\x12\x04\x72\x02\x4B\x50\x12\x04\x72\x02\x4B\x50"); NSError *error = nil; NestedTestAllTypes *msg = [NestedTestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidSubsectionLimit); } - (void)testErrorSubsectionLimitReached { NSData *data = DataFromCStr("\x0A\x06\x12\x03\x72\x02\x4B\x50"); NSError *error = nil; NestedTestAllTypes *msg = [NestedTestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorSubsectionLimitReached); } - (void)testErrorInvalidVarint { NSData *data = DataFromCStr("\x72\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF"); NSError *error = nil; TestAllTypes *msg = [TestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidVarInt); } - (void)testErrorInvalidUTF8 { NSData *data = DataFromCStr("\x72\x04\xF4\xFF\xFF\xFF"); NSError *error = nil; TestAllTypes *msg = [TestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidUTF8); } - (void)testErrorInvalidSize { NSData *data = DataFromCStr("\x72\x03\x4B\x50"); NSError *error = nil; NestedTestAllTypes *msg = [NestedTestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidSize); } - (void)testErrorInvalidTag { NSData *data = DataFromCStr("\x0F"); NSError *error = nil; NestedTestAllTypes *msg = [NestedTestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidTag); } - (void)testZeroFieldNum { // These are ConformanceTestSuite::TestIllegalTags. const char *tests[] = { "\1DEADBEEF", "\2\1\1", "\3\4", "\5DEAD" }; for (size_t i = 0; i < GPBARRAYSIZE(tests); ++i) { NSData *data = DataFromCStr(tests[i]); { // Message from proto2 syntax file NSError *error = nil; Message2 *msg = [Message2 parseFromData:data error:&error]; XCTAssertNil(msg, @"i = %zd", i); XCTAssertNotNil(error, @"i = %zd", i); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain, @"i = %zd", i); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidTag, @"i = %zd", i); } { // Message from proto3 syntax file NSError *error = nil; Message3 *msg = [Message3 parseFromData:data error:&error]; XCTAssertNil(msg, @"i = %zd", i); XCTAssertNotNil(error, @"i = %zd", i); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain, @"i = %zd", i); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidTag, @"i = %zd", i); } } } - (void)testErrorRecursionDepthReached { NSData *data = DataFromCStr( "\x0A\xF2\x01\x0A\xEF\x01\x0A\xEC\x01\x0A\xE9\x01\x0A\xE6\x01" "\x0A\xE3\x01\x0A\xE0\x01\x0A\xDD\x01\x0A\xDA\x01\x0A\xD7\x01" "\x0A\xD4\x01\x0A\xD1\x01\x0A\xCE\x01\x0A\xCB\x01\x0A\xC8\x01" "\x0A\xC5\x01\x0A\xC2\x01\x0A\xBF\x01\x0A\xBC\x01\x0A\xB9\x01" "\x0A\xB6\x01\x0A\xB3\x01\x0A\xB0\x01\x0A\xAD\x01\x0A\xAA\x01" "\x0A\xA7\x01\x0A\xA4\x01\x0A\xA1\x01\x0A\x9E\x01\x0A\x9B\x01" "\x0A\x98\x01\x0A\x95\x01\x0A\x92\x01\x0A\x8F\x01\x0A\x8C\x01" "\x0A\x89\x01\x0A\x86\x01\x0A\x83\x01\x0A\x80\x01\x0A\x7E" "\x0A\x7C\x0A\x7A\x0A\x78\x0A\x76\x0A\x74\x0A\x72\x0A\x70" "\x0A\x6E\x0A\x6C\x0A\x6A\x0A\x68\x0A\x66\x0A\x64\x0A\x62" "\x0A\x60\x0A\x5E\x0A\x5C\x0A\x5A\x0A\x58\x0A\x56\x0A\x54" "\x0A\x52\x0A\x50\x0A\x4E\x0A\x4C\x0A\x4A\x0A\x48\x0A\x46" "\x0A\x44\x0A\x42\x0A\x40\x0A\x3E\x0A\x3C\x0A\x3A\x0A\x38" "\x0A\x36\x0A\x34\x0A\x32\x0A\x30\x0A\x2E\x0A\x2C\x0A\x2A" "\x0A\x28\x0A\x26\x0A\x24\x0A\x22\x0A\x20\x0A\x1E\x0A\x1C" "\x0A\x1A\x0A\x18\x0A\x16\x0A\x14\x0A\x12\x0A\x10\x0A\x0E" "\x0A\x0C\x0A\x0A\x0A\x08\x0A\x06\x12\x04\x72\x02\x4B\x50"); NSError *error = nil; NestedTestAllTypes *msg = [NestedTestAllTypes parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorRecursionDepthExceeded); } - (void)testParseDelimitedDataWithNegativeSize { NSData *data = DataFromCStr("\xFF\xFF\xFF\xFF\x0F"); GPBCodedInputStream *input = [GPBCodedInputStream streamWithData:data]; NSError *error; [GPBMessage parseDelimitedFromCodedInputStream:input extensionRegistry:nil error:&error]; XCTAssertNil(error); } #ifdef DEBUG - (void)testErrorMissingRequiredField { NSData *data = DataFromCStr(""); NSError *error = nil; TestRequired *msg = [TestRequired parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBMessageErrorDomain); XCTAssertEqual(error.code, GPBMessageErrorCodeMissingRequiredField); } #endif #pragma mark - Subset from from map_tests.cc // TEST(GeneratedMapFieldTest, StandardWireFormat) - (void)testMap_StandardWireFormat { NSData *data = DataFromCStr("\x0A\x04\x08\x01\x10\x01"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:1]); XCTAssertEqual(val, 1); [msg release]; } // TEST(GeneratedMapFieldTest, UnorderedWireFormat) - (void)testMap_UnorderedWireFormat { // put value before key in wire format NSData *data = DataFromCStr("\x0A\x04\x10\x01\x08\x02"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:2]); XCTAssertEqual(val, 1); [msg release]; } // TEST(GeneratedMapFieldTest, DuplicatedKeyWireFormat) - (void)testMap_DuplicatedKeyWireFormat { // Two key fields in wire format NSData *data = DataFromCStr("\x0A\x06\x08\x01\x08\x02\x10\x01"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:2]); XCTAssertEqual(val, 1); [msg release]; } // TEST(GeneratedMapFieldTest, DuplicatedValueWireFormat) - (void)testMap_DuplicatedValueWireFormat { // Two value fields in wire format NSData *data = DataFromCStr("\x0A\x06\x08\x01\x10\x01\x10\x02"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:1]); XCTAssertEqual(val, 2); [msg release]; } // TEST(GeneratedMapFieldTest, MissedKeyWireFormat) - (void)testMap_MissedKeyWireFormat { // No key field in wire format NSData *data = DataFromCStr("\x0A\x02\x10\x01"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:0]); XCTAssertEqual(val, 1); [msg release]; } // TEST(GeneratedMapFieldTest, MissedValueWireFormat) - (void)testMap_MissedValueWireFormat { // No value field in wire format NSData *data = DataFromCStr("\x0A\x02\x08\x01"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:1]); XCTAssertEqual(val, 0); [msg release]; } // TEST(GeneratedMapFieldTest, UnknownFieldWireFormat) - (void)testMap_UnknownFieldWireFormat { // Unknown field in wire format NSData *data = DataFromCStr("\x0A\x06\x08\x02\x10\x03\x18\x01"); TestMap *msg = [[TestMap alloc] initWithData:data error:NULL]; XCTAssertEqual(msg.mapInt32Int32.count, 1U); int32_t val = 666; XCTAssertTrue([msg.mapInt32Int32 getInt32:&val forKey:2]); XCTAssertEqual(val, 3); [msg release]; } // TEST(GeneratedMapFieldTest, CorruptedWireFormat) - (void)testMap_CorruptedWireFormat { // corrupted data in wire format NSData *data = DataFromCStr("\x0A\x06\x08\x02\x11\x03"); NSError *error = nil; TestMap *msg = [TestMap parseFromData:data error:&error]; XCTAssertNil(msg); XCTAssertNotNil(error); XCTAssertEqualObjects(error.domain, GPBCodedInputStreamErrorDomain); XCTAssertEqual(error.code, GPBCodedInputStreamErrorInvalidSubsectionLimit); } // TEST(GeneratedMapFieldTest, Proto2UnknownEnum) - (void)testMap_Proto2UnknownEnum { TestEnumMapPlusExtra *orig = [[TestEnumMapPlusExtra alloc] init]; orig.knownMapField = [[[GPBInt32EnumDictionary alloc] initWithValidationFunction:Proto2MapEnumPlusExtra_IsValidValue] autorelease]; orig.unknownMapField = [[[GPBInt32EnumDictionary alloc] initWithValidationFunction:Proto2MapEnumPlusExtra_IsValidValue] autorelease]; [orig.knownMapField setEnum:Proto2MapEnumPlusExtra_EProto2MapEnumFoo forKey:0]; [orig.unknownMapField setEnum:Proto2MapEnumPlusExtra_EProto2MapEnumExtra forKey:0]; NSData *data = [orig data]; XCTAssertNotNil(data); TestEnumMap *msg1 = [TestEnumMap parseFromData:data error:NULL]; XCTAssertEqual(msg1.knownMapField.count, 1U); int32_t val = -1; XCTAssertTrue([msg1.knownMapField getEnum:&val forKey:0]); XCTAssertEqual(val, Proto2MapEnum_Proto2MapEnumFoo); XCTAssertEqual(msg1.unknownFields.countOfFields, 1U); data = [msg1 data]; TestEnumMapPlusExtra *msg2 = [TestEnumMapPlusExtra parseFromData:data error:NULL]; val = -1; XCTAssertEqual(msg2.knownMapField.count, 1U); XCTAssertTrue([msg2.knownMapField getEnum:&val forKey:0]); XCTAssertEqual(val, Proto2MapEnumPlusExtra_EProto2MapEnumFoo); val = -1; XCTAssertEqual(msg2.unknownMapField.count, 1U); XCTAssertTrue([msg2.unknownMapField getEnum:&val forKey:0]); XCTAssertEqual(val, Proto2MapEnumPlusExtra_EProto2MapEnumExtra); XCTAssertEqual(msg2.unknownFields.countOfFields, 0U); XCTAssertEqualObjects(orig, msg2); [orig release]; } #pragma mark - Map Round Tripping - (void)testProto2MapRoundTripping { Message2 *msg = [[Message2 alloc] init]; // Key/Value data should result in different byte lengths on wire to ensure // everything is right. [msg.mapInt32Int32 setInt32:1000 forKey:200]; [msg.mapInt32Int32 setInt32:101 forKey:2001]; [msg.mapInt64Int64 setInt64:1002 forKey:202]; [msg.mapInt64Int64 setInt64:103 forKey:2003]; [msg.mapInt64Int64 setInt64:4294967296 forKey:4294967297]; [msg.mapUint32Uint32 setUInt32:1004 forKey:204]; [msg.mapUint32Uint32 setUInt32:105 forKey:2005]; [msg.mapUint64Uint64 setUInt64:1006 forKey:206]; [msg.mapUint64Uint64 setUInt64:107 forKey:2007]; [msg.mapUint64Uint64 setUInt64:4294967298 forKey:4294967299]; [msg.mapSint32Sint32 setInt32:1008 forKey:208]; [msg.mapSint32Sint32 setInt32:109 forKey:2009]; [msg.mapSint64Sint64 setInt64:1010 forKey:210]; [msg.mapSint64Sint64 setInt64:111 forKey:2011]; [msg.mapSint64Sint64 setInt64:4294967300 forKey:4294967301]; [msg.mapFixed32Fixed32 setUInt32:1012 forKey:212]; [msg.mapFixed32Fixed32 setUInt32:113 forKey:2013]; [msg.mapFixed64Fixed64 setUInt64:1014 forKey:214]; [msg.mapFixed64Fixed64 setUInt64:115 forKey:2015]; [msg.mapFixed64Fixed64 setUInt64:4294967302 forKey:4294967303]; [msg.mapSfixed32Sfixed32 setInt32:1016 forKey:216]; [msg.mapSfixed32Sfixed32 setInt32:117 forKey:2017]; [msg.mapSfixed64Sfixed64 setInt64:1018 forKey:218]; [msg.mapSfixed64Sfixed64 setInt64:119 forKey:2019]; [msg.mapSfixed64Sfixed64 setInt64:4294967304 forKey:4294967305]; [msg.mapInt32Float setFloat:1020.f forKey:220]; [msg.mapInt32Float setFloat:121.f forKey:2021]; [msg.mapInt32Double setDouble:1022. forKey:222]; [msg.mapInt32Double setDouble:123. forKey:2023]; [msg.mapBoolBool setBool:false forKey:true]; [msg.mapBoolBool setBool:true forKey:false]; msg.mapStringString[@"224"] = @"1024"; msg.mapStringString[@"2025"] = @"125"; msg.mapStringBytes[@"226"] = DataFromCStr("1026"); msg.mapStringBytes[@"2027"] = DataFromCStr("127"); Message2 *val1 = [[Message2 alloc] init]; val1.optionalInt32 = 1028; Message2 *val2 = [[Message2 alloc] init]; val2.optionalInt32 = 129; [msg.mapStringMessage setObject:val1 forKey:@"228"]; [msg.mapStringMessage setObject:val2 forKey:@"2029"]; [msg.mapInt32Bytes setObject:DataFromCStr("1030 bytes") forKey:230]; [msg.mapInt32Bytes setObject:DataFromCStr("131") forKey:2031]; [msg.mapInt32Enum setEnum:Message2_Enum_Bar forKey:232]; [msg.mapInt32Enum setEnum:Message2_Enum_Baz forKey:2033]; Message2 *val3 = [[Message2 alloc] init]; val3.optionalInt32 = 1034; Message2 *val4 = [[Message2 alloc] init]; val4.optionalInt32 = 135; [msg.mapInt32Message setObject:val3 forKey:234]; [msg.mapInt32Message setObject:val4 forKey:2035]; NSData *data = [msg data]; XCTAssertNotNil(data); Message2 *msg2 = [[Message2 alloc] initWithData:data error:NULL]; XCTAssertNotEqual(msg2, msg); // Pointer comparison XCTAssertEqualObjects(msg2, msg); [val4 release]; [val3 release]; [val2 release]; [val1 release]; [msg2 release]; [msg release]; } @end