| // Protocol Buffers - Google's data interchange format |
| // Copyright 2008 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 <objc/runtime.h> |
| |
| #import "GPBArray_PackagePrivate.h" |
| #import "GPBDescriptor.h" |
| #import "GPBDictionary_PackagePrivate.h" |
| #import "GPBMessage_PackagePrivate.h" |
| #import "GPBUnknownFieldSet_PackagePrivate.h" |
| #import "GPBUnknownField_PackagePrivate.h" |
| #import "objectivec/Tests/Unittest.pbobjc.h" |
| #import "objectivec/Tests/UnittestImport.pbobjc.h" |
| #import "objectivec/Tests/UnittestObjc.pbobjc.h" |
| #import "objectivec/Tests/UnittestObjcOptions.pbobjc.h" |
| |
| // Helper class to test KVO. |
| @interface GPBKVOTestObserver : NSObject { |
| id observee_; |
| NSString *keyPath_; |
| } |
| |
| @property(nonatomic) BOOL didObserve; |
| - (id)initWithObservee:(id)observee keyPath:(NSString *)keyPath; |
| @end |
| |
| @implementation GPBKVOTestObserver |
| |
| @synthesize didObserve; |
| |
| - (id)initWithObservee:(id)observee keyPath:(NSString *)keyPath { |
| if (self = [super init]) { |
| observee_ = [observee retain]; |
| keyPath_ = [keyPath copy]; |
| [observee_ addObserver:self forKeyPath:keyPath_ options:0 context:NULL]; |
| } |
| return self; |
| } |
| |
| - (void)dealloc { |
| [observee_ removeObserver:self forKeyPath:keyPath_]; |
| [observee_ release]; |
| [keyPath_ release]; |
| [super dealloc]; |
| } |
| |
| - (void)observeValueForKeyPath:(NSString *)keyPath |
| ofObject:(__unused id)object |
| change:(__unused NSDictionary *)change |
| context:(__unused void *)context { |
| if ([keyPath isEqualToString:keyPath_]) { |
| self.didObserve = YES; |
| } |
| } |
| |
| @end |
| |
| @interface MessageTests : GPBTestCase |
| @end |
| |
| @implementation MessageTests |
| |
| // TODO(thomasvl): this should get split into a few files of logic junks, it is |
| // a jumble of things at the moment (and the testutils have a bunch of the real |
| // assertions). |
| |
| - (TestAllTypes *)mergeSource { |
| TestAllTypes *message = [TestAllTypes message]; |
| [message setOptionalInt32:1]; |
| [message setOptionalString:@"foo"]; |
| [message setOptionalForeignMessage:[ForeignMessage message]]; |
| [message.repeatedStringArray addObject:@"bar"]; |
| return message; |
| } |
| |
| - (TestAllTypes *)mergeDestination { |
| TestAllTypes *message = [TestAllTypes message]; |
| [message setOptionalInt64:2]; |
| [message setOptionalString:@"baz"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| [foreignMessage setC:3]; |
| [message setOptionalForeignMessage:foreignMessage]; |
| [message.repeatedStringArray addObject:@"qux"]; |
| return message; |
| } |
| |
| - (TestAllTypes *)mergeDestinationWithoutForeignMessageIvar { |
| TestAllTypes *message = [TestAllTypes message]; |
| [message setOptionalInt64:2]; |
| [message setOptionalString:@"baz"]; |
| [message.repeatedStringArray addObject:@"qux"]; |
| return message; |
| } |
| |
| - (TestAllTypes *)mergeResult { |
| TestAllTypes *message = [TestAllTypes message]; |
| [message setOptionalInt32:1]; |
| [message setOptionalInt64:2]; |
| [message setOptionalString:@"foo"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| [foreignMessage setC:3]; |
| [message setOptionalForeignMessage:foreignMessage]; |
| [message.repeatedStringArray addObject:@"qux"]; |
| [message.repeatedStringArray addObject:@"bar"]; |
| return message; |
| } |
| |
| - (TestAllTypes *)mergeResultForDestinationWithoutForeignMessageIvar { |
| TestAllTypes *message = [TestAllTypes message]; |
| [message setOptionalInt32:1]; |
| [message setOptionalInt64:2]; |
| [message setOptionalString:@"foo"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| [message setOptionalForeignMessage:foreignMessage]; |
| [message.repeatedStringArray addObject:@"qux"]; |
| [message.repeatedStringArray addObject:@"bar"]; |
| return message; |
| } |
| |
| - (TestAllExtensions *)mergeExtensionsDestination { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [message setExtension:[UnittestRoot optionalInt32Extension] value:@5]; |
| [message setExtension:[UnittestRoot optionalStringExtension] value:@"foo"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| foreignMessage.c = 4; |
| [message setExtension:[UnittestRoot optionalForeignMessageExtension] value:foreignMessage]; |
| TestAllTypes_NestedMessage *nestedMessage = [TestAllTypes_NestedMessage message]; |
| [message setExtension:[UnittestRoot optionalNestedMessageExtension] value:nestedMessage]; |
| return message; |
| } |
| |
| - (TestAllExtensions *)mergeExtensionsSource { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [message setExtension:[UnittestRoot optionalInt64Extension] value:@6]; |
| [message setExtension:[UnittestRoot optionalStringExtension] value:@"bar"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| [message setExtension:[UnittestRoot optionalForeignMessageExtension] value:foreignMessage]; |
| TestAllTypes_NestedMessage *nestedMessage = [TestAllTypes_NestedMessage message]; |
| nestedMessage.bb = 7; |
| [message setExtension:[UnittestRoot optionalNestedMessageExtension] value:nestedMessage]; |
| return message; |
| } |
| |
| - (TestAllExtensions *)mergeExtensionsResult { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [message setExtension:[UnittestRoot optionalInt32Extension] value:@5]; |
| [message setExtension:[UnittestRoot optionalInt64Extension] value:@6]; |
| [message setExtension:[UnittestRoot optionalStringExtension] value:@"bar"]; |
| ForeignMessage *foreignMessage = [ForeignMessage message]; |
| foreignMessage.c = 4; |
| [message setExtension:[UnittestRoot optionalForeignMessageExtension] value:foreignMessage]; |
| TestAllTypes_NestedMessage *nestedMessage = [TestAllTypes_NestedMessage message]; |
| nestedMessage.bb = 7; |
| [message setExtension:[UnittestRoot optionalNestedMessageExtension] value:nestedMessage]; |
| return message; |
| } |
| |
| - (void)testMergeFrom { |
| TestAllTypes *result = [[self.mergeDestination copy] autorelease]; |
| [result mergeFrom:self.mergeSource]; |
| NSData *resultData = [result data]; |
| NSData *mergeResultData = [self.mergeResult data]; |
| XCTAssertEqualObjects(resultData, mergeResultData); |
| XCTAssertEqualObjects(result, self.mergeResult); |
| |
| // Test when destination does not have an Ivar (type is an object) but source |
| // has such Ivar. |
| // The result must has the Ivar which is same as the one in source. |
| result = [[self.mergeDestinationWithoutForeignMessageIvar copy] autorelease]; |
| [result mergeFrom:self.mergeSource]; |
| resultData = [result data]; |
| mergeResultData = [self.mergeResultForDestinationWithoutForeignMessageIvar data]; |
| XCTAssertEqualObjects(resultData, mergeResultData); |
| XCTAssertEqualObjects(result, self.mergeResultForDestinationWithoutForeignMessageIvar); |
| |
| // Test when destination is empty. |
| // The result must is same as the source. |
| result = [TestAllTypes message]; |
| [result mergeFrom:self.mergeSource]; |
| resultData = [result data]; |
| mergeResultData = [self.mergeSource data]; |
| XCTAssertEqualObjects(resultData, mergeResultData); |
| XCTAssertEqualObjects(result, self.mergeSource); |
| } |
| |
| - (void)testMergeFromWithExtensions { |
| TestAllExtensions *result = [self mergeExtensionsDestination]; |
| [result mergeFrom:[self mergeExtensionsSource]]; |
| NSData *resultData = [result data]; |
| NSData *mergeResultData = [[self mergeExtensionsResult] data]; |
| XCTAssertEqualObjects(resultData, mergeResultData); |
| XCTAssertEqualObjects(result, [self mergeExtensionsResult]); |
| |
| // Test merging from data. |
| result = [self mergeExtensionsDestination]; |
| NSData *data = [[self mergeExtensionsSource] data]; |
| XCTAssertNotNil(data); |
| NSError *error = nil; |
| XCTAssertTrue([result mergeFromData:data |
| extensionRegistry:[UnittestRoot extensionRegistry] |
| error:&error]); |
| XCTAssertNil(error); |
| resultData = [result data]; |
| XCTAssertEqualObjects(resultData, mergeResultData); |
| XCTAssertEqualObjects(result, [self mergeExtensionsResult]); |
| } |
| |
| - (void)testIsEquals { |
| TestAllTypes *result = [[self.mergeDestination copy] autorelease]; |
| [result mergeFrom:self.mergeSource]; |
| XCTAssertEqualObjects(result.data, self.mergeResult.data); |
| XCTAssertEqualObjects(result, self.mergeResult); |
| TestAllTypes *result2 = [[self.mergeDestination copy] autorelease]; |
| XCTAssertNotEqualObjects(result2.data, self.mergeResult.data); |
| XCTAssertNotEqualObjects(result2, self.mergeResult); |
| } |
| |
| // ================================================================= |
| // Required-field-related tests. |
| |
| - (TestRequired *)testRequiredInitialized { |
| TestRequired *message = [TestRequired message]; |
| [message setA:1]; |
| [message setB:2]; |
| [message setC:3]; |
| return message; |
| } |
| |
| - (void)testRequired { |
| TestRequired *message = [TestRequired message]; |
| |
| XCTAssertFalse(message.initialized); |
| [message setA:1]; |
| XCTAssertFalse(message.initialized); |
| [message setB:1]; |
| XCTAssertFalse(message.initialized); |
| [message setC:1]; |
| XCTAssertTrue(message.initialized); |
| } |
| |
| - (void)testRequiredForeign { |
| TestRequiredForeign *message = [TestRequiredForeign message]; |
| |
| XCTAssertTrue(message.initialized); |
| |
| [message setOptionalMessage:[TestRequired message]]; |
| XCTAssertFalse(message.initialized); |
| |
| [message setOptionalMessage:self.testRequiredInitialized]; |
| XCTAssertTrue(message.initialized); |
| |
| [message.repeatedMessageArray addObject:[TestRequired message]]; |
| XCTAssertFalse(message.initialized); |
| |
| [message.repeatedMessageArray removeAllObjects]; |
| [message.repeatedMessageArray addObject:self.testRequiredInitialized]; |
| XCTAssertTrue(message.initialized); |
| } |
| |
| - (void)testRequiredExtension { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| |
| XCTAssertTrue(message.initialized); |
| |
| [message setExtension:[TestRequired single] value:[TestRequired message]]; |
| XCTAssertFalse(message.initialized); |
| |
| [message setExtension:[TestRequired single] value:self.testRequiredInitialized]; |
| XCTAssertTrue(message.initialized); |
| |
| [message addExtension:[TestRequired multi] value:[TestRequired message]]; |
| XCTAssertFalse(message.initialized); |
| |
| [message setExtension:[TestRequired multi] index:0 value:self.testRequiredInitialized]; |
| XCTAssertTrue(message.initialized); |
| } |
| |
| - (void)testDataFromUninitialized { |
| TestRequired *message = [TestRequired message]; |
| NSData *data = [message data]; |
| // In DEBUG, the data generation will fail, but in non DEBUG, it passes |
| // because the check isn't done (for speed). |
| #ifdef DEBUG |
| XCTAssertNil(data); |
| #else |
| XCTAssertNotNil(data); |
| XCTAssertFalse(message.initialized); |
| #endif // DEBUG |
| } |
| |
| - (void)testInitialized { |
| // We're mostly testing that no exception is thrown. |
| TestRequired *message = [TestRequired message]; |
| XCTAssertFalse(message.initialized); |
| } |
| |
| - (void)testDataFromNestedUninitialized { |
| TestRequiredForeign *message = [TestRequiredForeign message]; |
| [message setOptionalMessage:[TestRequired message]]; |
| [message.repeatedMessageArray addObject:[TestRequired message]]; |
| [message.repeatedMessageArray addObject:[TestRequired message]]; |
| NSData *data = [message data]; |
| // In DEBUG, the data generation will fail, but in non DEBUG, it passes |
| // because the check isn't done (for speed). |
| #ifdef DEBUG |
| XCTAssertNil(data); |
| #else |
| XCTAssertNotNil(data); |
| XCTAssertFalse(message.initialized); |
| #endif // DEBUG |
| } |
| |
| - (void)testNestedInitialized { |
| // We're mostly testing that no exception is thrown. |
| |
| TestRequiredForeign *message = [TestRequiredForeign message]; |
| [message setOptionalMessage:[TestRequired message]]; |
| [message.repeatedMessageArray addObject:[TestRequired message]]; |
| [message.repeatedMessageArray addObject:[TestRequired message]]; |
| |
| XCTAssertFalse(message.initialized); |
| } |
| |
| - (void)testParseUninitialized { |
| NSError *error = nil; |
| TestRequired *msg = [TestRequired parseFromData:GPBEmptyNSData() error:&error]; |
| // In DEBUG, the parse will fail, but in non DEBUG, it passes because |
| // the check isn't done (for speed). |
| #ifdef DEBUG |
| XCTAssertNil(msg); |
| XCTAssertNotNil(error); |
| XCTAssertEqualObjects(error.domain, GPBMessageErrorDomain); |
| XCTAssertEqual(error.code, GPBMessageErrorCodeMissingRequiredField); |
| #else |
| XCTAssertNotNil(msg); |
| XCTAssertNil(error); |
| XCTAssertFalse(msg.initialized); |
| #endif // DEBUG |
| } |
| |
| #pragma clang diagnostic push |
| #pragma clang diagnostic ignored "-Wdeprecated-declarations" |
| |
| - (void)testCoding { |
| GPBMessage *original = [self mergeResult]; |
| NSData *data = [NSKeyedArchiver archivedDataWithRootObject:original]; |
| id unarchivedObject = [NSKeyedUnarchiver unarchiveObjectWithData:data]; |
| |
| XCTAssertEqualObjects(unarchivedObject, original); |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(unarchivedObject, original); |
| } |
| |
| - (void)testSecureCoding { |
| GPBMessage *original = [self mergeResult]; |
| |
| NSString *key = @"testing123"; |
| |
| NSMutableData *data = [NSMutableData data]; |
| NSKeyedArchiver *archiver = [[NSKeyedArchiver alloc] initForWritingWithMutableData:data]; |
| [archiver setRequiresSecureCoding:YES]; |
| [archiver encodeObject:original forKey:key]; |
| [archiver finishEncoding]; |
| |
| NSKeyedUnarchiver *unarchiver = [[NSKeyedUnarchiver alloc] initForReadingWithData:data]; |
| [unarchiver setRequiresSecureCoding:YES]; |
| id unarchivedObject = [unarchiver decodeObjectOfClass:[GPBMessage class] forKey:key]; |
| [unarchiver finishDecoding]; |
| |
| XCTAssertEqualObjects(unarchivedObject, original); |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(unarchivedObject, original); |
| } |
| |
| #pragma clang diagnostic pop |
| |
| - (void)testObjectReset { |
| // Tests a failure where clearing out defaults values caused an over release. |
| TestAllTypes *message = [TestAllTypes message]; |
| message.hasOptionalNestedMessage = NO; |
| [message setOptionalNestedMessage:[TestAllTypes_NestedMessage message]]; |
| message.hasOptionalNestedMessage = NO; |
| [message setOptionalNestedMessage:[TestAllTypes_NestedMessage message]]; |
| [message setOptionalNestedMessage:nil]; |
| message.hasOptionalNestedMessage = NO; |
| } |
| |
| - (void)testSettingHasToYes { |
| TestAllTypes *message = [TestAllTypes message]; |
| XCTAssertThrows([message setHasOptionalNestedMessage:YES]); |
| } |
| |
| - (void)testRoot { |
| XCTAssertNotNil([UnittestRoot extensionRegistry]); |
| } |
| |
| - (void)testGPBMessageSize { |
| // See the note in GPBMessage_PackagePrivate.h about why we want to keep the |
| // base instance size pointer size aligned. |
| size_t messageSize = class_getInstanceSize([GPBMessage class]); |
| XCTAssertEqual((messageSize % sizeof(void *)), (size_t)0, |
| @"Base size isn't pointer size aligned"); |
| |
| // Since we add storage ourselves (see +allocWithZone: in GPBMessage), confirm |
| // that the size of some generated classes is still the same as the base for |
| // that logic to work as desired. |
| size_t testMessageSize = class_getInstanceSize([TestAllTypes class]); |
| XCTAssertEqual(testMessageSize, messageSize); |
| } |
| |
| - (void)testInit { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self assertClear:message]; |
| } |
| |
| - (void)testAccessors { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self assertAllFieldsSet:message repeatedCount:kGPBDefaultRepeatCount]; |
| } |
| |
| - (void)testKVC_ValueForKey { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self assertAllFieldsKVCMatch:message]; |
| } |
| |
| - (void)testKVC_SetValue_ForKey { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFieldsViaKVC:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self assertAllFieldsKVCMatch:message]; |
| [self assertAllFieldsSet:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self assertAllFieldsKVCMatch:message]; |
| } |
| |
| - (void)testKVOBasic { |
| TestAllTypes *message = [TestAllTypes message]; |
| GPBKVOTestObserver *observer = |
| [[[GPBKVOTestObserver alloc] initWithObservee:message keyPath:@"optionalString"] autorelease]; |
| XCTAssertFalse(observer.didObserve); |
| message.defaultString = @"Hello"; |
| XCTAssertFalse(observer.didObserve); |
| message.optionalString = @"Hello"; |
| XCTAssertTrue(observer.didObserve); |
| } |
| |
| - (void)testKVOAutocreate { |
| TestAllTypes *message = [TestAllTypes message]; |
| GPBKVOTestObserver *autocreateObserver = |
| [[[GPBKVOTestObserver alloc] initWithObservee:message |
| keyPath:@"optionalImportMessage"] autorelease]; |
| GPBKVOTestObserver *innerFieldObserver = |
| [[[GPBKVOTestObserver alloc] initWithObservee:message |
| keyPath:@"optionalImportMessage.d"] autorelease]; |
| XCTAssertFalse(autocreateObserver.didObserve); |
| XCTAssertFalse(innerFieldObserver.didObserve); |
| |
| int a = message.optionalImportMessage.d; |
| XCTAssertEqual(a, 0); |
| |
| // Autocreation of fields is not observed by KVO when getting values. |
| XCTAssertFalse(autocreateObserver.didObserve); |
| XCTAssertFalse(innerFieldObserver.didObserve); |
| |
| message.optionalImportMessage.d = 2; |
| |
| // Autocreation of fields is not observed by KVO. |
| // This is undefined behavior. The library makes no guarantees with regards |
| // to KVO firing if an autocreation occurs as part of a setter. |
| // This test exists just to be aware if the behavior changes. |
| XCTAssertFalse(autocreateObserver.didObserve); |
| |
| // Values set inside of an autocreated field are observed. |
| XCTAssertTrue(innerFieldObserver.didObserve); |
| |
| // Explicit setting of a message field is observed. |
| message.optionalImportMessage = [ImportMessage message]; |
| XCTAssertTrue(autocreateObserver.didObserve); |
| } |
| |
| - (void)testDescription { |
| // No real test, just exercise code |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| |
| GPBUnknownFieldSet *unknownFields = [[[GPBUnknownFieldSet alloc] init] autorelease]; |
| GPBUnknownField *field = [[[GPBUnknownField alloc] initWithNumber:2] autorelease]; |
| [field addVarint:2]; |
| [unknownFields addField:field]; |
| field = [[[GPBUnknownField alloc] initWithNumber:3] autorelease]; |
| [field addVarint:4]; |
| [unknownFields addField:field]; |
| |
| [message setUnknownFields:unknownFields]; |
| |
| NSString *description = [message description]; |
| XCTAssertGreaterThan([description length], 0U); |
| |
| GPBMessage *message2 = [TestAllExtensions message]; |
| [message2 setExtension:[UnittestRoot optionalInt32Extension] value:@1]; |
| |
| [message2 addExtension:[UnittestRoot repeatedInt32Extension] value:@2]; |
| |
| description = [message2 description]; |
| XCTAssertGreaterThan([description length], 0U); |
| } |
| |
| - (void)testSetter { |
| // Test to make sure that if we set a value that has a default value |
| // with the default, that the has is set, and the value gets put into the |
| // message correctly. |
| TestAllTypes *message = [TestAllTypes message]; |
| GPBDescriptor *descriptor = [[message class] descriptor]; |
| XCTAssertNotNil(descriptor); |
| GPBFieldDescriptor *fieldDescriptor = [descriptor fieldWithName:@"defaultInt32"]; |
| XCTAssertNotNil(fieldDescriptor); |
| GPBGenericValue defaultValue = [fieldDescriptor defaultValue]; |
| [message setDefaultInt32:defaultValue.valueInt32]; |
| XCTAssertTrue(message.hasDefaultInt32); |
| XCTAssertEqual(message.defaultInt32, defaultValue.valueInt32); |
| |
| // Do the same thing with an object type. |
| message = [TestAllTypes message]; |
| fieldDescriptor = [descriptor fieldWithName:@"defaultString"]; |
| XCTAssertNotNil(fieldDescriptor); |
| defaultValue = [fieldDescriptor defaultValue]; |
| [message setDefaultString:defaultValue.valueString]; |
| XCTAssertTrue(message.hasDefaultString); |
| XCTAssertEqualObjects(message.defaultString, defaultValue.valueString); |
| |
| // Test default string type. |
| message = [TestAllTypes message]; |
| XCTAssertEqualObjects(message.defaultString, @"hello"); |
| XCTAssertFalse(message.hasDefaultString); |
| fieldDescriptor = [descriptor fieldWithName:@"defaultString"]; |
| XCTAssertNotNil(fieldDescriptor); |
| defaultValue = [fieldDescriptor defaultValue]; |
| [message setDefaultString:defaultValue.valueString]; |
| XCTAssertEqualObjects(message.defaultString, @"hello"); |
| XCTAssertTrue(message.hasDefaultString); |
| [message setDefaultString:nil]; |
| XCTAssertEqualObjects(message.defaultString, @"hello"); |
| XCTAssertFalse(message.hasDefaultString); |
| message.hasDefaultString = NO; |
| XCTAssertFalse(message.hasDefaultString); |
| XCTAssertEqualObjects(message.defaultString, @"hello"); |
| |
| // Test default bytes type. |
| NSData *defaultBytes = [@"world" dataUsingEncoding:NSUTF8StringEncoding]; |
| XCTAssertEqualObjects(message.defaultBytes, defaultBytes); |
| XCTAssertFalse(message.hasDefaultString); |
| fieldDescriptor = [descriptor fieldWithName:@"defaultBytes"]; |
| XCTAssertNotNil(fieldDescriptor); |
| defaultValue = [fieldDescriptor defaultValue]; |
| [message setDefaultBytes:defaultValue.valueData]; |
| XCTAssertEqualObjects(message.defaultBytes, defaultBytes); |
| XCTAssertTrue(message.hasDefaultBytes); |
| [message setDefaultBytes:nil]; |
| XCTAssertEqualObjects(message.defaultBytes, defaultBytes); |
| XCTAssertFalse(message.hasDefaultBytes); |
| message.hasDefaultBytes = NO; |
| XCTAssertFalse(message.hasDefaultBytes); |
| XCTAssertEqualObjects(message.defaultBytes, defaultBytes); |
| |
| // Test optional string. |
| XCTAssertFalse(message.hasOptionalString); |
| XCTAssertEqualObjects(message.optionalString, @""); |
| XCTAssertFalse(message.hasOptionalString); |
| message.optionalString = nil; |
| XCTAssertFalse(message.hasOptionalString); |
| XCTAssertEqualObjects(message.optionalString, @""); |
| NSString *string = @"string"; |
| message.optionalString = string; |
| XCTAssertEqualObjects(message.optionalString, string); |
| XCTAssertTrue(message.hasOptionalString); |
| message.optionalString = nil; |
| XCTAssertFalse(message.hasOptionalString); |
| XCTAssertEqualObjects(message.optionalString, @""); |
| |
| // Test optional data. |
| XCTAssertFalse(message.hasOptionalBytes); |
| XCTAssertEqualObjects(message.optionalBytes, GPBEmptyNSData()); |
| XCTAssertFalse(message.hasOptionalBytes); |
| message.optionalBytes = nil; |
| XCTAssertFalse(message.hasOptionalBytes); |
| XCTAssertEqualObjects(message.optionalBytes, GPBEmptyNSData()); |
| NSData *data = [@"bytes" dataUsingEncoding:NSUTF8StringEncoding]; |
| message.optionalBytes = data; |
| XCTAssertEqualObjects(message.optionalBytes, data); |
| XCTAssertTrue(message.hasOptionalBytes); |
| message.optionalBytes = nil; |
| XCTAssertFalse(message.hasOptionalBytes); |
| XCTAssertEqualObjects(message.optionalBytes, GPBEmptyNSData()); |
| |
| // Test lazy message setting |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| XCTAssertNotNil(message.optionalLazyMessage); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| message.hasOptionalLazyMessage = NO; |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| XCTAssertNotNil(message.optionalLazyMessage); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| message.optionalLazyMessage = nil; |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| |
| // Test nested messages |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| message.optionalLazyMessage.bb = 1; |
| XCTAssertTrue(message.hasOptionalLazyMessage); |
| XCTAssertEqual(message.optionalLazyMessage.bb, 1); |
| XCTAssertNotNil(message.optionalLazyMessage); |
| message.optionalLazyMessage = nil; |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| XCTAssertEqual(message.optionalLazyMessage.bb, 0); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| XCTAssertNotNil(message.optionalLazyMessage); |
| |
| // -testDefaultSubMessages tests the "defaulting" handling of fields |
| // containing messages. |
| } |
| |
| - (void)testRepeatedSetters { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self modifyRepeatedFields:message]; |
| [self assertRepeatedFieldsModified:message repeatedCount:kGPBDefaultRepeatCount]; |
| } |
| |
| - (void)testClear { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self clearAllFields:message]; |
| [self assertClear:message]; |
| TestAllTypes *message2 = [TestAllTypes message]; |
| XCTAssertEqualObjects(message, message2); |
| } |
| |
| - (void)testClearKVC { |
| TestAllTypes *message = [TestAllTypes message]; |
| [self setAllFields:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self clearAllFields:message]; |
| [self assertClear:message]; |
| [self assertClearKVC:message]; |
| } |
| |
| - (void)testClearExtension { |
| // clearExtension() is not actually used in TestUtil, so try it manually. |
| GPBMessage *message1 = [TestAllExtensions message]; |
| [message1 setExtension:[UnittestRoot optionalInt32Extension] value:@1]; |
| |
| XCTAssertTrue([message1 hasExtension:[UnittestRoot optionalInt32Extension]]); |
| [message1 clearExtension:[UnittestRoot optionalInt32Extension]]; |
| XCTAssertFalse([message1 hasExtension:[UnittestRoot optionalInt32Extension]]); |
| |
| GPBMessage *message2 = [TestAllExtensions message]; |
| [message2 addExtension:[UnittestRoot repeatedInt32Extension] value:@1]; |
| |
| XCTAssertEqual([[message2 getExtension:[UnittestRoot repeatedInt32Extension]] count], |
| (NSUInteger)1); |
| [message2 clearExtension:[UnittestRoot repeatedInt32Extension]]; |
| XCTAssertEqual([[message2 getExtension:[UnittestRoot repeatedInt32Extension]] count], |
| (NSUInteger)0); |
| |
| // Clearing an unset extension field shouldn't make the target message |
| // visible. |
| GPBMessage *message3 = [TestAllExtensions message]; |
| GPBMessage *extension_msg = [message3 getExtension:[UnittestObjcRoot recursiveExtension]]; |
| XCTAssertFalse([message3 hasExtension:[UnittestObjcRoot recursiveExtension]]); |
| [extension_msg clearExtension:[UnittestRoot optionalInt32Extension]]; |
| XCTAssertFalse([message3 hasExtension:[UnittestObjcRoot recursiveExtension]]); |
| } |
| |
| - (void)testDefaultingSubMessages { |
| TestAllTypes *message = [TestAllTypes message]; |
| |
| // Initially they should all not have values. |
| |
| XCTAssertFalse(message.hasOptionalGroup); |
| XCTAssertFalse(message.hasOptionalNestedMessage); |
| XCTAssertFalse(message.hasOptionalForeignMessage); |
| XCTAssertFalse(message.hasOptionalImportMessage); |
| XCTAssertFalse(message.hasOptionalPublicImportMessage); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| |
| // They should auto create something when fetched. |
| |
| TestAllTypes_OptionalGroup *optionalGroup = [message.optionalGroup retain]; |
| TestAllTypes_NestedMessage *optionalNestedMessage = [message.optionalNestedMessage retain]; |
| ForeignMessage *optionalForeignMessage = [message.optionalForeignMessage retain]; |
| ImportMessage *optionalImportMessage = [message.optionalImportMessage retain]; |
| PublicImportMessage *optionalPublicImportMessage = [message.optionalPublicImportMessage retain]; |
| TestAllTypes_NestedMessage *optionalLazyMessage = [message.optionalLazyMessage retain]; |
| |
| XCTAssertNotNil(optionalGroup); |
| XCTAssertNotNil(optionalNestedMessage); |
| XCTAssertNotNil(optionalForeignMessage); |
| XCTAssertNotNil(optionalImportMessage); |
| XCTAssertNotNil(optionalPublicImportMessage); |
| XCTAssertNotNil(optionalLazyMessage); |
| |
| // Although they were created, they should not respond to hasValue until that |
| // submessage is mutated. |
| |
| XCTAssertFalse(message.hasOptionalGroup); |
| XCTAssertFalse(message.hasOptionalNestedMessage); |
| XCTAssertFalse(message.hasOptionalForeignMessage); |
| XCTAssertFalse(message.hasOptionalImportMessage); |
| XCTAssertFalse(message.hasOptionalPublicImportMessage); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| |
| // And they set that value back in to the message since the value created was |
| // mutable (so a second fetch should give the same object). |
| |
| XCTAssertEqual(message.optionalGroup, optionalGroup); |
| XCTAssertEqual(message.optionalNestedMessage, optionalNestedMessage); |
| XCTAssertEqual(message.optionalForeignMessage, optionalForeignMessage); |
| XCTAssertEqual(message.optionalImportMessage, optionalImportMessage); |
| XCTAssertEqual(message.optionalPublicImportMessage, optionalPublicImportMessage); |
| XCTAssertEqual(message.optionalLazyMessage, optionalLazyMessage); |
| |
| // And the default objects for a second message should be distinct (again, |
| // since they are mutable, each needs their own copy). |
| |
| TestAllTypes *message2 = [TestAllTypes message]; |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(message2.optionalGroup, optionalGroup); |
| XCTAssertNotEqual(message2.optionalNestedMessage, optionalNestedMessage); |
| XCTAssertNotEqual(message2.optionalForeignMessage, optionalForeignMessage); |
| XCTAssertNotEqual(message2.optionalImportMessage, optionalImportMessage); |
| XCTAssertNotEqual(message2.optionalPublicImportMessage, optionalPublicImportMessage); |
| XCTAssertNotEqual(message2.optionalLazyMessage, optionalLazyMessage); |
| |
| // Setting the values to nil will clear the has flag, and on next access you |
| // get back new submessages. |
| |
| message.optionalGroup = nil; |
| message.optionalNestedMessage = nil; |
| message.optionalForeignMessage = nil; |
| message.optionalImportMessage = nil; |
| message.optionalPublicImportMessage = nil; |
| message.optionalLazyMessage = nil; |
| |
| XCTAssertFalse(message.hasOptionalGroup); |
| XCTAssertFalse(message.hasOptionalNestedMessage); |
| XCTAssertFalse(message.hasOptionalForeignMessage); |
| XCTAssertFalse(message.hasOptionalImportMessage); |
| XCTAssertFalse(message.hasOptionalPublicImportMessage); |
| XCTAssertFalse(message.hasOptionalLazyMessage); |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(message.optionalGroup, optionalGroup); |
| XCTAssertNotEqual(message.optionalNestedMessage, optionalNestedMessage); |
| XCTAssertNotEqual(message.optionalForeignMessage, optionalForeignMessage); |
| XCTAssertNotEqual(message.optionalImportMessage, optionalImportMessage); |
| XCTAssertNotEqual(message.optionalPublicImportMessage, optionalPublicImportMessage); |
| XCTAssertNotEqual(message.optionalLazyMessage, optionalLazyMessage); |
| |
| [optionalGroup release]; |
| [optionalNestedMessage release]; |
| [optionalForeignMessage release]; |
| [optionalImportMessage release]; |
| [optionalPublicImportMessage release]; |
| [optionalLazyMessage release]; |
| } |
| |
| - (void)testMultiplePointersToAutocreatedMessage { |
| // Multiple objects pointing to the same autocreated message. |
| TestAllTypes *message = [TestAllTypes message]; |
| TestAllTypes *message2 = [TestAllTypes message]; |
| message2.optionalGroup = message.optionalGroup; |
| XCTAssertTrue([message2 hasOptionalGroup]); |
| XCTAssertFalse([message hasOptionalGroup]); |
| message2.optionalGroup.a = 42; |
| XCTAssertTrue([message hasOptionalGroup]); |
| XCTAssertTrue([message2 hasOptionalGroup]); |
| } |
| |
| - (void)testCopyWithAutocreatedMessage { |
| // Mutable copy should not copy autocreated messages. |
| TestAllTypes *message = [TestAllTypes message]; |
| message.optionalGroup.a = 42; |
| XCTAssertNotNil(message.optionalNestedMessage); |
| TestAllTypes *message2 = [[message copy] autorelease]; |
| XCTAssertTrue([message2 hasOptionalGroup]); |
| XCTAssertFalse([message2 hasOptionalNestedMessage]); |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(message.optionalNestedMessage, message2.optionalNestedMessage); |
| } |
| |
| - (void)testClearAutocreatedSubmessage { |
| // Call clear on an intermediate submessage should cause it to get recreated |
| // on the next call. |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| TestRecursiveMessage *message_inner = [message.a.a.a retain]; |
| XCTAssertNotNil(message_inner); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(message_inner, message.a.a)); |
| [message.a.a clear]; |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(message_inner, message.a.a)); |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(message.a.a.a, message_inner); |
| [message_inner release]; |
| } |
| |
| - (void)testRetainAutocreatedSubmessage { |
| // Should be able to retain autocreated submessage while the creator is |
| // dealloced. |
| TestAllTypes *message = [TestAllTypes message]; |
| |
| ForeignMessage *subMessage; |
| @autoreleasepool { |
| TestAllTypes *message2 = [TestAllTypes message]; |
| subMessage = message2.optionalForeignMessage; // Autocreated |
| message.optionalForeignMessage = subMessage; |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(message.optionalForeignMessage, message2)); |
| } |
| |
| // Should be the same object, and should still be live. |
| XCTAssertEqual(message.optionalForeignMessage, subMessage); |
| XCTAssertNotNil([subMessage description]); |
| } |
| |
| - (void)testSetNilAutocreatedSubmessage { |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| TestRecursiveMessage *message_inner = [message.a.a retain]; |
| XCTAssertFalse([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| message.a.a = nil; |
| |
| // |message.a| has to be made visible, but |message.a.a| was set to nil so |
| // shouldn't be. |
| XCTAssertTrue([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| |
| // Setting submessage to nil should cause it to lose its creator. |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(message_inner, message.a)); |
| |
| // After setting to nil, getting it again should create a new autocreated |
| // message. |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(message.a.a, message_inner); |
| |
| [message_inner release]; |
| } |
| |
| - (void)testSetDoesntHaveAutocreatedSubmessage { |
| // Clearing submessage (set has == NO) should NOT cause it to lose its |
| // creator. |
| TestAllTypes *message = [TestAllTypes message]; |
| TestAllTypes_NestedMessage *nestedMessage = message.optionalNestedMessage; |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| [message setHasOptionalNestedMessage:NO]; |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| XCTAssertEqual(message.optionalNestedMessage, nestedMessage); |
| } |
| |
| - (void)testSetAutocreatedMessageBecomesVisible { |
| // Setting a value should cause the submessage to appear to its creator. |
| // Test this several levels deep. |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| message.a.a.a.a.i = 42; |
| XCTAssertTrue([message hasA]); |
| XCTAssertTrue([message.a hasA]); |
| XCTAssertTrue([message.a.a hasA]); |
| XCTAssertTrue([message.a.a.a hasA]); |
| XCTAssertFalse([message.a.a.a.a hasA]); |
| XCTAssertEqual(message.a.a.a.a.i, 42); |
| } |
| |
| - (void)testClearUnsetFieldOfAutocreatedMessage { |
| // Clearing an unset field should not cause the submessage to appear to its |
| // creator. |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| message.a.a.a.a.hasI = NO; |
| XCTAssertFalse([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| XCTAssertFalse([message.a.a hasA]); |
| XCTAssertFalse([message.a.a.a hasA]); |
| } |
| |
| - (void)testAutocreatedSubmessageAssignSkip { |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| TestRecursiveMessage *messageLevel1 = [message.a retain]; |
| TestRecursiveMessage *messageLevel2 = [message.a.a retain]; |
| TestRecursiveMessage *messageLevel3 = [message.a.a.a retain]; |
| TestRecursiveMessage *messageLevel4 = [message.a.a.a.a retain]; |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel1, message)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel2, messageLevel1)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel3, messageLevel2)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel4, messageLevel3)); |
| |
| // Test skipping over an autocreated submessage and ensure it gets unset. |
| message.a = message.a.a; |
| XCTAssertEqual(message.a, messageLevel2); |
| XCTAssertTrue([message hasA]); |
| XCTAssertEqual(message.a.a, messageLevel3); |
| XCTAssertFalse([message.a hasA]); |
| XCTAssertEqual(message.a.a.a, messageLevel4); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(messageLevel1, |
| message)); // Because it was orphaned. |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel2, messageLevel1)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel3, messageLevel2)); |
| |
| [messageLevel1 release]; |
| [messageLevel2 release]; |
| [messageLevel3 release]; |
| [messageLevel4 release]; |
| } |
| |
| - (void)testAutocreatedSubmessageAssignLoop { |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| TestRecursiveMessage *messageLevel1 = [message.a retain]; |
| TestRecursiveMessage *messageLevel2 = [message.a.a retain]; |
| TestRecursiveMessage *messageLevel3 = [message.a.a.a retain]; |
| TestRecursiveMessage *messageLevel4 = [message.a.a.a.a retain]; |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel1, message)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel2, messageLevel1)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel3, messageLevel2)); |
| XCTAssertTrue(GPBWasMessageAutocreatedBy(messageLevel4, messageLevel3)); |
| |
| // Test a property with a loop. You'd never do this but at least ensure the |
| // autocreated submessages behave sanely. |
| message.a.a = message.a; |
| XCTAssertTrue([message hasA]); |
| XCTAssertEqual(message.a, messageLevel1); |
| XCTAssertTrue([message.a hasA]); |
| XCTAssertEqual(message.a.a, messageLevel1); |
| XCTAssertTrue([message.a.a hasA]); |
| XCTAssertEqual(message.a.a.a, messageLevel1); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(messageLevel1, |
| message)); // Because it was assigned. |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(messageLevel2, |
| messageLevel1)); // Because it was orphaned. |
| XCTAssertFalse([messageLevel2 hasA]); |
| |
| // Break the retain loop. |
| message.a.a = nil; |
| XCTAssertTrue([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| |
| [messageLevel1 release]; |
| [messageLevel2 release]; |
| [messageLevel3 release]; |
| [messageLevel4 release]; |
| } |
| |
| - (void)testSetAutocreatedSubmessage { |
| // Setting autocreated submessage to another value should cause the old one to |
| // lose its creator. |
| TestAllTypes *message = [TestAllTypes message]; |
| TestAllTypes_NestedMessage *nestedMessage = [message.optionalNestedMessage retain]; |
| |
| message.optionalNestedMessage = [TestAllTypes_NestedMessage message]; |
| XCTAssertTrue([message hasOptionalNestedMessage]); |
| XCTAssertTrue(message.optionalNestedMessage != nestedMessage); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(nestedMessage, message)); |
| |
| [nestedMessage release]; |
| } |
| |
| - (void)testAutocreatedUnknownFields { |
| // Doing anything with (except reading) unknown fields should cause the |
| // submessage to become visible. |
| TestAllTypes *message = [TestAllTypes message]; |
| XCTAssertNotNil(message.optionalNestedMessage); |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| XCTAssertNil(message.optionalNestedMessage.unknownFields); |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| |
| GPBUnknownFieldSet *unknownFields = [[[GPBUnknownFieldSet alloc] init] autorelease]; |
| message.optionalNestedMessage.unknownFields = unknownFields; |
| XCTAssertTrue([message hasOptionalNestedMessage]); |
| |
| message.optionalNestedMessage = nil; |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| [message.optionalNestedMessage setUnknownFields:unknownFields]; |
| XCTAssertTrue([message hasOptionalNestedMessage]); |
| } |
| |
| - (void)testSetAutocreatedSubmessageToSelf { |
| // Setting submessage to itself should cause it to become visible. |
| TestAllTypes *message = [TestAllTypes message]; |
| XCTAssertNotNil(message.optionalNestedMessage); |
| XCTAssertFalse([message hasOptionalNestedMessage]); |
| message.optionalNestedMessage = message.optionalNestedMessage; |
| XCTAssertTrue([message hasOptionalNestedMessage]); |
| } |
| |
| - (void)testAutocreatedSubmessageMemoryLeaks { |
| // Test for memory leaks with autocreated submessages. |
| TestRecursiveMessage *message; |
| TestRecursiveMessage *messageLevel1; |
| TestRecursiveMessage *messageLevel2; |
| TestRecursiveMessage *messageLevel3; |
| TestRecursiveMessage *messageLevel4; |
| @autoreleasepool { |
| message = [[TestRecursiveMessage alloc] init]; |
| messageLevel1 = [message.a retain]; |
| messageLevel2 = [message.a.a retain]; |
| messageLevel3 = [message.a.a.a retain]; |
| messageLevel4 = [message.a.a.a.a retain]; |
| message.a.i = 1; |
| } |
| |
| XCTAssertEqual(message.retainCount, (NSUInteger)1); |
| [message release]; |
| XCTAssertEqual(messageLevel1.retainCount, (NSUInteger)1); |
| [messageLevel1 release]; |
| XCTAssertEqual(messageLevel2.retainCount, (NSUInteger)1); |
| [messageLevel2 release]; |
| XCTAssertEqual(messageLevel3.retainCount, (NSUInteger)1); |
| [messageLevel3 release]; |
| XCTAssertEqual(messageLevel4.retainCount, (NSUInteger)1); |
| [messageLevel4 release]; |
| } |
| |
| - (void)testDefaultingArrays { |
| // Basic tests for default creation of arrays in a message. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message2 = [TestRecursiveMessageWithRepeatedField message]; |
| |
| // Simply accessing the array should not make any fields visible. |
| XCTAssertNotNil(message.a.a.iArray); |
| XCTAssertFalse([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| XCTAssertNotNil(message2.a.a.strArray); |
| XCTAssertFalse([message2 hasA]); |
| XCTAssertFalse([message2.a hasA]); |
| |
| // But adding an element to the array should. |
| [message.a.a.iArray addValue:42]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertTrue([message.a hasA]); |
| XCTAssertEqual([message.a.a.iArray count], (NSUInteger)1); |
| [message2.a.a.strArray addObject:@"foo"]; |
| XCTAssertTrue([message2 hasA]); |
| XCTAssertTrue([message2.a hasA]); |
| XCTAssertEqual([message2.a.a.strArray count], (NSUInteger)1); |
| } |
| |
| - (void)testAutocreatedArrayShared { |
| // Multiple objects pointing to the same array. |
| TestRecursiveMessageWithRepeatedField *message1a = |
| [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message1b = |
| [TestRecursiveMessageWithRepeatedField message]; |
| message1a.a.iArray = message1b.a.iArray; |
| XCTAssertTrue([message1a hasA]); |
| XCTAssertFalse([message1b hasA]); |
| [message1a.a.iArray addValue:1]; |
| XCTAssertTrue([message1a hasA]); |
| XCTAssertTrue([message1b hasA]); |
| XCTAssertEqual(message1a.a.iArray, message1b.a.iArray); |
| |
| TestRecursiveMessageWithRepeatedField *message2a = |
| [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message2b = |
| [TestRecursiveMessageWithRepeatedField message]; |
| message2a.a.strArray = message2b.a.strArray; |
| XCTAssertTrue([message2a hasA]); |
| XCTAssertFalse([message2b hasA]); |
| [message2a.a.strArray addObject:@"bar"]; |
| XCTAssertTrue([message2a hasA]); |
| XCTAssertTrue([message2b hasA]); |
| XCTAssertEqual(message2a.a.strArray, message2b.a.strArray); |
| } |
| |
| - (void)testAutocreatedArrayCopy { |
| // Copy should not copy autocreated arrays. |
| TestAllTypes *message = [TestAllTypes message]; |
| XCTAssertNotNil(message.repeatedStringArray); |
| XCTAssertNotNil(message.repeatedInt32Array); |
| TestAllTypes *message2 = [[message copy] autorelease]; |
| // Pointer conparisions. |
| XCTAssertNotEqual(message.repeatedStringArray, message2.repeatedStringArray); |
| XCTAssertNotEqual(message.repeatedInt32Array, message2.repeatedInt32Array); |
| |
| // Mutable copy should copy empty arrays that were explicitly set (end up |
| // with different objects that are equal). |
| TestAllTypes *message3 = [TestAllTypes message]; |
| message3.repeatedInt32Array = [GPBInt32Array arrayWithValue:42]; |
| message3.repeatedStringArray = [NSMutableArray arrayWithObject:@"wee"]; |
| XCTAssertNotNil(message.repeatedInt32Array); |
| XCTAssertNotNil(message.repeatedStringArray); |
| TestAllTypes *message4 = [[message3 copy] autorelease]; |
| XCTAssertNotEqual(message3.repeatedInt32Array, message4.repeatedInt32Array); |
| XCTAssertEqualObjects(message3.repeatedInt32Array, message4.repeatedInt32Array); |
| XCTAssertNotEqual(message3.repeatedStringArray, message4.repeatedStringArray); |
| XCTAssertEqualObjects(message3.repeatedStringArray, message4.repeatedStringArray); |
| } |
| |
| - (void)testAutocreatedArrayRetain { |
| // Should be able to retain autocreated array while the creator is dealloced. |
| TestAllTypes *message = [TestAllTypes message]; |
| |
| @autoreleasepool { |
| TestAllTypes *message2 = [TestAllTypes message]; |
| message.repeatedInt32Array = message2.repeatedInt32Array; |
| message.repeatedStringArray = message2.repeatedStringArray; |
| // Pointer conparision |
| XCTAssertEqual(message.repeatedInt32Array->_autocreator, message2); |
| XCTAssertTrue([message.repeatedStringArray isKindOfClass:[GPBAutocreatedArray class]]); |
| XCTAssertEqual(((GPBAutocreatedArray *)message.repeatedStringArray)->_autocreator, message2); |
| } |
| |
| XCTAssertNil(message.repeatedInt32Array->_autocreator); |
| XCTAssertTrue([message.repeatedStringArray isKindOfClass:[GPBAutocreatedArray class]]); |
| XCTAssertNil(((GPBAutocreatedArray *)message.repeatedStringArray)->_autocreator); |
| } |
| |
| - (void)testSetNilAutocreatedArray { |
| // Setting array to nil should cause it to lose its delegate. |
| TestAllTypes *message = [TestAllTypes message]; |
| GPBInt32Array *repeatedInt32Array = [message.repeatedInt32Array retain]; |
| GPBAutocreatedArray *repeatedStringArray = |
| (GPBAutocreatedArray *)[message.repeatedStringArray retain]; |
| XCTAssertTrue([repeatedStringArray isKindOfClass:[GPBAutocreatedArray class]]); |
| XCTAssertEqual(repeatedInt32Array->_autocreator, message); |
| XCTAssertEqual(repeatedStringArray->_autocreator, message); |
| message.repeatedInt32Array = nil; |
| message.repeatedStringArray = nil; |
| XCTAssertNil(repeatedInt32Array->_autocreator); |
| XCTAssertNil(repeatedStringArray->_autocreator); |
| [repeatedInt32Array release]; |
| [repeatedStringArray release]; |
| } |
| |
| - (void)testSetOverAutocreatedArrayAndSetAgain { |
| // Ensure when dealing with replacing an array it is handled being either |
| // an autocreated one or a straight NSArray. |
| |
| // The real test here is that nothing crashes while doing the work. |
| TestAllTypes *message = [TestAllTypes message]; |
| [message.repeatedStringArray addObject:@"foo"]; |
| XCTAssertEqual(message.repeatedStringArray_Count, (NSUInteger)1); |
| message.repeatedStringArray = [NSMutableArray arrayWithObjects:@"bar", @"bar2", nil]; |
| XCTAssertEqual(message.repeatedStringArray_Count, (NSUInteger)2); |
| message.repeatedStringArray = [NSMutableArray arrayWithObject:@"baz"]; |
| XCTAssertEqual(message.repeatedStringArray_Count, (NSUInteger)1); |
| } |
| |
| - (void)testReplaceAutocreatedArray { |
| // Replacing array should orphan the old one and cause its creator to become |
| // visible. |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.iArray); |
| XCTAssertFalse([message hasA]); |
| GPBInt32Array *iArray = [message.a.iArray retain]; |
| XCTAssertEqual(iArray->_autocreator, message.a); // Pointer comparison |
| message.a.iArray = [GPBInt32Array arrayWithValue:1]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNotEqual(message.a.iArray, iArray); // Pointer comparison |
| XCTAssertNil(iArray->_autocreator); |
| [iArray release]; |
| } |
| |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.strArray); |
| XCTAssertFalse([message hasA]); |
| GPBAutocreatedArray *strArray = (GPBAutocreatedArray *)[message.a.strArray retain]; |
| XCTAssertTrue([strArray isKindOfClass:[GPBAutocreatedArray class]]); |
| XCTAssertEqual(strArray->_autocreator, message.a); // Pointer comparison |
| message.a.strArray = [NSMutableArray arrayWithObject:@"foo"]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNotEqual(message.a.strArray, strArray); // Pointer comparison |
| XCTAssertNil(strArray->_autocreator); |
| [strArray release]; |
| } |
| } |
| |
| - (void)testSetAutocreatedArrayToSelf { |
| // Setting array to itself should cause it to become visible. |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.iArray); |
| XCTAssertFalse([message hasA]); |
| message.a.iArray = message.a.iArray; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNil(message.a.iArray->_autocreator); |
| } |
| |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.strArray); |
| XCTAssertFalse([message hasA]); |
| message.a.strArray = message.a.strArray; |
| XCTAssertTrue([message hasA]); |
| XCTAssertTrue([message.a.strArray isKindOfClass:[GPBAutocreatedArray class]]); |
| XCTAssertNil(((GPBAutocreatedArray *)message.a.strArray)->_autocreator); |
| } |
| } |
| |
| - (void)testAutocreatedArrayRemoveAllValues { |
| // Calling removeAllValues on autocreated array should not cause it to be |
| // visible. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| [message.a.iArray removeAll]; |
| XCTAssertFalse([message hasA]); |
| [message.a.strArray removeAllObjects]; |
| XCTAssertFalse([message hasA]); |
| } |
| |
| - (void)testDefaultingMaps { |
| // Basic tests for default creation of maps in a message. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message2 = [TestRecursiveMessageWithRepeatedField message]; |
| |
| // Simply accessing the map should not make any fields visible. |
| XCTAssertNotNil(message.a.a.iToI); |
| XCTAssertFalse([message hasA]); |
| XCTAssertFalse([message.a hasA]); |
| XCTAssertNotNil(message2.a.a.strToStr); |
| XCTAssertFalse([message2 hasA]); |
| XCTAssertFalse([message2.a hasA]); |
| |
| // But adding an element to the map should. |
| [message.a.a.iToI setInt32:100 forKey:200]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertTrue([message.a hasA]); |
| XCTAssertEqual([message.a.a.iToI count], (NSUInteger)1); |
| [message2.a.a.strToStr setObject:@"foo" forKey:@"bar"]; |
| XCTAssertTrue([message2 hasA]); |
| XCTAssertTrue([message2.a hasA]); |
| XCTAssertEqual([message2.a.a.strToStr count], (NSUInteger)1); |
| } |
| |
| - (void)testAutocreatedMapShared { |
| // Multiple objects pointing to the same map. |
| TestRecursiveMessageWithRepeatedField *message1a = |
| [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message1b = |
| [TestRecursiveMessageWithRepeatedField message]; |
| message1a.a.iToI = message1b.a.iToI; |
| XCTAssertTrue([message1a hasA]); |
| XCTAssertFalse([message1b hasA]); |
| [message1a.a.iToI setInt32:1 forKey:2]; |
| XCTAssertTrue([message1a hasA]); |
| XCTAssertTrue([message1b hasA]); |
| XCTAssertEqual(message1a.a.iToI, message1b.a.iToI); |
| |
| TestRecursiveMessageWithRepeatedField *message2a = |
| [TestRecursiveMessageWithRepeatedField message]; |
| TestRecursiveMessageWithRepeatedField *message2b = |
| [TestRecursiveMessageWithRepeatedField message]; |
| message2a.a.strToStr = message2b.a.strToStr; |
| XCTAssertTrue([message2a hasA]); |
| XCTAssertFalse([message2b hasA]); |
| [message2a.a.strToStr setObject:@"bar" forKey:@"foo"]; |
| XCTAssertTrue([message2a hasA]); |
| XCTAssertTrue([message2b hasA]); |
| XCTAssertEqual(message2a.a.strToStr, message2b.a.strToStr); |
| } |
| |
| - (void)testAutocreatedMapCopy { |
| // Copy should not copy autocreated maps. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.strToStr); |
| XCTAssertNotNil(message.iToI); |
| TestRecursiveMessageWithRepeatedField *message2 = [[message copy] autorelease]; |
| // Pointer conparisions. |
| XCTAssertNotEqual(message.strToStr, message2.strToStr); |
| XCTAssertNotEqual(message.iToI, message2.iToI); |
| |
| // Mutable copy should copy empty arrays that were explicitly set (end up |
| // with different objects that are equal). |
| TestRecursiveMessageWithRepeatedField *message3 = [TestRecursiveMessageWithRepeatedField message]; |
| message3.iToI = [[[GPBInt32Int32Dictionary alloc] init] autorelease]; |
| [message3.iToI setInt32:10 forKey:20]; |
| message3.strToStr = [NSMutableDictionary dictionaryWithObject:@"abc" forKey:@"123"]; |
| XCTAssertNotNil(message.iToI); |
| XCTAssertNotNil(message.iToI); |
| TestRecursiveMessageWithRepeatedField *message4 = [[message3 copy] autorelease]; |
| XCTAssertNotEqual(message3.iToI, message4.iToI); |
| XCTAssertEqualObjects(message3.iToI, message4.iToI); |
| XCTAssertNotEqual(message3.strToStr, message4.strToStr); |
| XCTAssertEqualObjects(message3.strToStr, message4.strToStr); |
| } |
| |
| - (void)testAutocreatedMapRetain { |
| // Should be able to retain autocreated map while the creator is dealloced. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| |
| @autoreleasepool { |
| TestRecursiveMessageWithRepeatedField *message2 = |
| [TestRecursiveMessageWithRepeatedField message]; |
| message.iToI = message2.iToI; |
| message.strToStr = message2.strToStr; |
| // Pointer conparision |
| XCTAssertEqual(message.iToI->_autocreator, message2); |
| XCTAssertTrue([message.strToStr isKindOfClass:[GPBAutocreatedDictionary class]]); |
| XCTAssertEqual(((GPBAutocreatedDictionary *)message.strToStr)->_autocreator, message2); |
| } |
| |
| XCTAssertNil(message.iToI->_autocreator); |
| XCTAssertTrue([message.strToStr isKindOfClass:[GPBAutocreatedDictionary class]]); |
| XCTAssertNil(((GPBAutocreatedDictionary *)message.strToStr)->_autocreator); |
| } |
| |
| - (void)testSetNilAutocreatedMap { |
| // Setting map to nil should cause it to lose its delegate. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| GPBInt32Int32Dictionary *iToI = [message.iToI retain]; |
| GPBAutocreatedDictionary *strToStr = (GPBAutocreatedDictionary *)[message.strToStr retain]; |
| XCTAssertTrue([strToStr isKindOfClass:[GPBAutocreatedDictionary class]]); |
| XCTAssertEqual(iToI->_autocreator, message); |
| XCTAssertEqual(strToStr->_autocreator, message); |
| message.iToI = nil; |
| message.strToStr = nil; |
| XCTAssertNil(iToI->_autocreator); |
| XCTAssertNil(strToStr->_autocreator); |
| [iToI release]; |
| [strToStr release]; |
| } |
| |
| - (void)testSetOverAutocreatedMapAndSetAgain { |
| // Ensure when dealing with replacing a map it is handled being either |
| // an autocreated one or a straight NSDictionary. |
| |
| // The real test here is that nothing crashes while doing the work. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| message.strToStr[@"foo"] = @"bar"; |
| XCTAssertEqual(message.strToStr_Count, (NSUInteger)1); |
| message.strToStr = |
| [NSMutableDictionary dictionaryWithObjectsAndKeys:@"bar", @"key1", @"baz", @"key2", nil]; |
| XCTAssertEqual(message.strToStr_Count, (NSUInteger)2); |
| message.strToStr = [NSMutableDictionary dictionaryWithObject:@"baz" forKey:@"mumble"]; |
| XCTAssertEqual(message.strToStr_Count, (NSUInteger)1); |
| } |
| |
| - (void)testReplaceAutocreatedMap { |
| // Replacing map should orphan the old one and cause its creator to become |
| // visible. |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.iToI); |
| XCTAssertFalse([message hasA]); |
| GPBInt32Int32Dictionary *iToI = [message.a.iToI retain]; |
| XCTAssertEqual(iToI->_autocreator, message.a); // Pointer comparison |
| message.a.iToI = [[[GPBInt32Int32Dictionary alloc] init] autorelease]; |
| [message.a.iToI setInt32:6 forKey:7]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNotEqual(message.a.iToI, iToI); // Pointer comparison |
| XCTAssertNil(iToI->_autocreator); |
| [iToI release]; |
| } |
| |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.strToStr); |
| XCTAssertFalse([message hasA]); |
| GPBAutocreatedDictionary *strToStr = (GPBAutocreatedDictionary *)[message.a.strToStr retain]; |
| XCTAssertTrue([strToStr isKindOfClass:[GPBAutocreatedDictionary class]]); |
| XCTAssertEqual(strToStr->_autocreator, message.a); // Pointer comparison |
| message.a.strToStr = [NSMutableDictionary dictionaryWithObject:@"abc" forKey:@"def"]; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNotEqual(message.a.strToStr, strToStr); // Pointer comparison |
| XCTAssertNil(strToStr->_autocreator); |
| [strToStr release]; |
| } |
| } |
| |
| - (void)testSetAutocreatedMapToSelf { |
| // Setting map to itself should cause it to become visible. |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.iToI); |
| XCTAssertFalse([message hasA]); |
| message.a.iToI = message.a.iToI; |
| XCTAssertTrue([message hasA]); |
| XCTAssertNil(message.a.iToI->_autocreator); |
| } |
| |
| { |
| TestRecursiveMessageWithRepeatedField *message = |
| [TestRecursiveMessageWithRepeatedField message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.strToStr); |
| XCTAssertFalse([message hasA]); |
| message.a.strToStr = message.a.strToStr; |
| XCTAssertTrue([message hasA]); |
| XCTAssertTrue([message.a.strToStr isKindOfClass:[GPBAutocreatedDictionary class]]); |
| XCTAssertNil(((GPBAutocreatedDictionary *)message.a.strToStr)->_autocreator); |
| } |
| } |
| |
| - (void)testAutocreatedMapRemoveAllValues { |
| // Calling removeAll on autocreated map should not cause it to be visible. |
| TestRecursiveMessageWithRepeatedField *message = [TestRecursiveMessageWithRepeatedField message]; |
| [message.a.iToI removeAll]; |
| XCTAssertFalse([message hasA]); |
| [message.a.strToStr removeAllObjects]; |
| XCTAssertFalse([message hasA]); |
| } |
| |
| - (void)testExtensionAccessors { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [self setAllExtensions:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self assertAllExtensionsSet:message repeatedCount:kGPBDefaultRepeatCount]; |
| } |
| |
| - (void)testExtensionRepeatedSetters { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [self setAllExtensions:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self modifyRepeatedExtensions:message]; |
| [self assertRepeatedExtensionsModified:message repeatedCount:kGPBDefaultRepeatCount]; |
| } |
| |
| - (void)testExtensionDefaults { |
| [self assertExtensionsClear:[TestAllExtensions message]]; |
| } |
| |
| - (void)testExtensionIsEquals { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [self setAllExtensions:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self modifyRepeatedExtensions:message]; |
| TestAllExtensions *message2 = [TestAllExtensions message]; |
| [self setAllExtensions:message2 repeatedCount:kGPBDefaultRepeatCount]; |
| XCTAssertFalse([message isEqual:message2]); |
| message2 = [TestAllExtensions message]; |
| [self setAllExtensions:message2 repeatedCount:kGPBDefaultRepeatCount]; |
| [self modifyRepeatedExtensions:message2]; |
| XCTAssertEqualObjects(message, message2); |
| } |
| |
| - (void)testExtensionsMergeFrom { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| [self setAllExtensions:message repeatedCount:kGPBDefaultRepeatCount]; |
| [self modifyRepeatedExtensions:message]; |
| |
| message = [TestAllExtensions message]; |
| [self setAllExtensions:message repeatedCount:kGPBDefaultRepeatCount]; |
| TestAllExtensions *message2 = [TestAllExtensions message]; |
| [self modifyRepeatedExtensions:message2]; |
| [message2 mergeFrom:message]; |
| |
| XCTAssertEqualObjects(message, message2); |
| } |
| |
| - (void)testClosedEnumsInExtensions { |
| // Only unknown values. |
| |
| NSData *data = |
| DataFromCStr("\xA8\x01\x0A" // optional_nested_enum_extension set to 10 |
| "\x98\x03\x0B" // repeated_nested_enum_extension set to 11 |
| "\xA2\x03\x01\x0C" // repeated_foreign_enum_extension set to 12 (packed) |
| ); |
| NSError *error = nil; |
| |
| TestAllExtensions *msg = [TestAllExtensions parseFromData:data |
| extensionRegistry:[self extensionRegistry] |
| error:&error]; |
| XCTAssertNil(error); |
| |
| XCTAssertFalse([msg hasExtension:[UnittestRoot optionalNestedEnumExtension]]); |
| XCTAssertFalse([msg hasExtension:[UnittestRoot repeatedNestedEnumExtension]]); |
| XCTAssertFalse([msg hasExtension:[UnittestRoot repeatedForeignEnumExtension]]); |
| |
| GPBUnknownFieldSet *unknownFields = msg.unknownFields; |
| GPBUnknownField *field = |
| [unknownFields getField:[UnittestRoot optionalNestedEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 10); |
| field = [unknownFields getField:[UnittestRoot repeatedNestedEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 11); |
| field = [unknownFields getField:[UnittestRoot repeatedForeignEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 12); |
| |
| // Unknown and known, the known come though an unknown go to unknown fields. |
| |
| data = DataFromCStr( |
| "\xA8\x01\x01" // optional_nested_enum_extension set to 1 |
| "\xA8\x01\x0A" // optional_nested_enum_extension set to 10 |
| "\xA8\x01\x02" // optional_nested_enum_extension set to 2 |
| "\x98\x03\x02" // repeated_nested_enum_extension set to 2 |
| "\x98\x03\x0B" // repeated_nested_enum_extension set to 11 |
| "\x98\x03\x03" // repeated_nested_enum_extension set to 3 |
| "\xA2\x03\x03\x04\x0C\x06" // repeated_foreign_enum_extension set to 4, 12, 6 (packed) |
| ); |
| error = nil; |
| |
| msg = [TestAllExtensions parseFromData:data |
| extensionRegistry:[self extensionRegistry] |
| error:&error]; |
| XCTAssertNil(error); |
| |
| XCTAssertTrue([msg hasExtension:[UnittestRoot optionalNestedEnumExtension]]); |
| XCTAssertEqualObjects([msg getExtension:[UnittestRoot optionalNestedEnumExtension]], @2); |
| XCTAssertTrue([msg hasExtension:[UnittestRoot repeatedNestedEnumExtension]]); |
| id expected = @[ @2, @3 ]; |
| XCTAssertEqualObjects([msg getExtension:[UnittestRoot repeatedNestedEnumExtension]], expected); |
| XCTAssertTrue([msg hasExtension:[UnittestRoot repeatedForeignEnumExtension]]); |
| expected = @[ @4, @6 ]; |
| XCTAssertEqualObjects([msg getExtension:[UnittestRoot repeatedForeignEnumExtension]], expected); |
| |
| unknownFields = msg.unknownFields; |
| field = [unknownFields getField:[UnittestRoot optionalNestedEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 10); |
| field = [unknownFields getField:[UnittestRoot repeatedNestedEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 11); |
| field = [unknownFields getField:[UnittestRoot repeatedForeignEnumExtension].fieldNumber]; |
| XCTAssertNotNil(field); |
| XCTAssertEqual(field.varintList.count, 1); |
| XCTAssertEqual([field.varintList valueAtIndex:0], 12); |
| } |
| |
| - (void)testDefaultingExtensionMessages { |
| TestAllExtensions *message = [TestAllExtensions message]; |
| |
| // Initially they should all not have values. |
| |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalNestedMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalForeignMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalPublicImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalLazyMessageExtension]]); |
| |
| // They should auto create something when fetched. |
| |
| TestAllTypes_OptionalGroup *optionalGroup = |
| [message getExtension:[UnittestRoot optionalGroupExtension]]; |
| TestAllTypes_NestedMessage *optionalNestedMessage = |
| [message getExtension:[UnittestRoot optionalNestedMessageExtension]]; |
| ForeignMessage *optionalForeignMessage = |
| [message getExtension:[UnittestRoot optionalForeignMessageExtension]]; |
| ImportMessage *optionalImportMessage = |
| [message getExtension:[UnittestRoot optionalImportMessageExtension]]; |
| PublicImportMessage *optionalPublicImportMessage = |
| [message getExtension:[UnittestRoot optionalPublicImportMessageExtension]]; |
| TestAllTypes_NestedMessage *optionalLazyMessage = |
| [message getExtension:[UnittestRoot optionalLazyMessageExtension]]; |
| |
| XCTAssertNotNil(optionalGroup); |
| XCTAssertNotNil(optionalNestedMessage); |
| XCTAssertNotNil(optionalForeignMessage); |
| XCTAssertNotNil(optionalImportMessage); |
| XCTAssertNotNil(optionalPublicImportMessage); |
| XCTAssertNotNil(optionalLazyMessage); |
| |
| // Although it auto-created empty messages, it should not show that it has |
| // them. |
| |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalNestedMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalForeignMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalPublicImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalLazyMessageExtension]]); |
| |
| // And they set that value back in to the message since the value created was |
| // mutable (so a second fetch should give the same object). |
| |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalGroupExtension]], optionalGroup); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalNestedMessageExtension]], |
| optionalNestedMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalForeignMessageExtension]], |
| optionalForeignMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalImportMessageExtension]], |
| optionalImportMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalPublicImportMessageExtension]], |
| optionalPublicImportMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalLazyMessageExtension]], |
| optionalLazyMessage); |
| |
| // And the default objects for a second message should be distinct (again, |
| // since they are mutable, each needs their own copy). |
| |
| TestAllExtensions *message2 = [TestAllExtensions message]; |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalGroupExtension]], optionalGroup); |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalNestedMessageExtension]], |
| optionalNestedMessage); |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalForeignMessageExtension]], |
| optionalForeignMessage); |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalImportMessageExtension]], |
| optionalImportMessage); |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalPublicImportMessageExtension]], |
| optionalPublicImportMessage); |
| XCTAssertNotEqual([message2 getExtension:[UnittestRoot optionalLazyMessageExtension]], |
| optionalLazyMessage); |
| |
| // Clear values, and on next access you get back new submessages. |
| |
| [message setExtension:[UnittestRoot optionalGroupExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalGroupExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalNestedMessageExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalForeignMessageExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalImportMessageExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalPublicImportMessageExtension] value:nil]; |
| [message setExtension:[UnittestRoot optionalLazyMessageExtension] value:nil]; |
| |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalGroupExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalNestedMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalForeignMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalPublicImportMessageExtension]]); |
| XCTAssertFalse([message hasExtension:[UnittestRoot optionalLazyMessageExtension]]); |
| |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalGroupExtension]], optionalGroup); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalNestedMessageExtension]], |
| optionalNestedMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalForeignMessageExtension]], |
| optionalForeignMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalImportMessageExtension]], |
| optionalImportMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalPublicImportMessageExtension]], |
| optionalPublicImportMessage); |
| XCTAssertEqual([message getExtension:[UnittestRoot optionalLazyMessageExtension]], |
| optionalLazyMessage); |
| } |
| |
| - (void)testMultiplePointersToAutocreatedExtension { |
| // 2 objects point to the same auto-created extension. One should "has" it. |
| // The other should not. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| TestAllExtensions *message2 = [TestAllExtensions message]; |
| GPBExtensionDescriptor *extension = [UnittestRoot optionalGroupExtension]; |
| [message setExtension:extension value:[message2 getExtension:extension]]; |
| XCTAssertEqual([message getExtension:extension], [message2 getExtension:extension]); |
| XCTAssertFalse([message2 hasExtension:extension]); |
| XCTAssertTrue([message hasExtension:extension]); |
| |
| TestAllTypes_OptionalGroup *extensionValue = [message2 getExtension:extension]; |
| extensionValue.a = 1; |
| XCTAssertTrue([message2 hasExtension:extension]); |
| XCTAssertTrue([message hasExtension:extension]); |
| } |
| |
| - (void)testCopyWithAutocreatedExtension { |
| // Mutable copy shouldn't copy autocreated extensions. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *optionalGroupExtension = [UnittestRoot optionalGroupExtension]; |
| GPBExtensionDescriptor *optionalNestedMessageExtesion = |
| [UnittestRoot optionalNestedMessageExtension]; |
| TestAllTypes_OptionalGroup *optionalGroup = [message getExtension:optionalGroupExtension]; |
| optionalGroup.a = 42; |
| XCTAssertNotNil(optionalGroup); |
| XCTAssertNotNil([message getExtension:optionalNestedMessageExtesion]); |
| XCTAssertTrue([message hasExtension:optionalGroupExtension]); |
| XCTAssertFalse([message hasExtension:optionalNestedMessageExtesion]); |
| |
| TestAllExtensions *message2 = [[message copy] autorelease]; |
| |
| // message2 should end up with its own copy of the optional group. |
| XCTAssertTrue([message2 hasExtension:optionalGroupExtension]); |
| XCTAssertEqualObjects([message getExtension:optionalGroupExtension], |
| [message2 getExtension:optionalGroupExtension]); |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual([message getExtension:optionalGroupExtension], |
| [message2 getExtension:optionalGroupExtension]); |
| |
| XCTAssertFalse([message2 hasExtension:optionalNestedMessageExtesion]); |
| // Intentionally doing a pointer comparison (auto creation should be |
| // different) |
| XCTAssertNotEqual([message getExtension:optionalNestedMessageExtesion], |
| [message2 getExtension:optionalNestedMessageExtesion]); |
| } |
| |
| - (void)testClearMessageAutocreatedExtension { |
| // Call clear should cause it to recreate its autocreated extensions. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *optionalGroupExtension = [UnittestRoot optionalGroupExtension]; |
| TestAllTypes_OptionalGroup *optionalGroup = |
| [[message getExtension:optionalGroupExtension] retain]; |
| [message clear]; |
| TestAllTypes_OptionalGroup *optionalGroupNew = [message getExtension:optionalGroupExtension]; |
| |
| // Intentionally doing a pointer comparison. |
| XCTAssertNotEqual(optionalGroup, optionalGroupNew); |
| [optionalGroup release]; |
| } |
| |
| - (void)testRetainAutocreatedExtension { |
| // Should be able to retain autocreated extension while the creator is |
| // dealloced. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *optionalGroupExtension = [UnittestRoot optionalGroupExtension]; |
| |
| @autoreleasepool { |
| TestAllExtensions *message2 = [TestAllExtensions message]; |
| [message setExtension:optionalGroupExtension |
| value:[message2 getExtension:optionalGroupExtension]]; |
| XCTAssertTrue( |
| GPBWasMessageAutocreatedBy([message getExtension:optionalGroupExtension], message2)); |
| } |
| |
| XCTAssertFalse( |
| GPBWasMessageAutocreatedBy([message getExtension:optionalGroupExtension], message)); |
| } |
| |
| - (void)testClearAutocreatedExtension { |
| // Clearing autocreated extension should NOT cause it to lose its creator. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *optionalGroupExtension = [UnittestRoot optionalGroupExtension]; |
| TestAllTypes_OptionalGroup *optionalGroup = |
| [[message getExtension:optionalGroupExtension] retain]; |
| [message clearExtension:optionalGroupExtension]; |
| TestAllTypes_OptionalGroup *optionalGroupNew = [message getExtension:optionalGroupExtension]; |
| XCTAssertEqual(optionalGroup, optionalGroupNew); |
| XCTAssertFalse([message hasExtension:optionalGroupExtension]); |
| [optionalGroup release]; |
| |
| // Clearing autocreated extension should not cause its creator to become |
| // visible |
| GPBExtensionDescriptor *recursiveExtension = [UnittestObjcRoot recursiveExtension]; |
| TestAllExtensions *message_lvl2 = [message getExtension:recursiveExtension]; |
| TestAllExtensions *message_lvl3 = [message_lvl2 getExtension:recursiveExtension]; |
| [message_lvl3 clearExtension:recursiveExtension]; |
| XCTAssertFalse([message hasExtension:recursiveExtension]); |
| } |
| |
| - (void)testSetAutocreatedExtensionBecomesVisible { |
| // Setting an extension should cause the extension to appear to its creator. |
| // Test this several levels deep. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *recursiveExtension = [UnittestObjcRoot recursiveExtension]; |
| TestAllExtensions *message_lvl2 = [message getExtension:recursiveExtension]; |
| TestAllExtensions *message_lvl3 = [message_lvl2 getExtension:recursiveExtension]; |
| TestAllExtensions *message_lvl4 = [message_lvl3 getExtension:recursiveExtension]; |
| XCTAssertFalse([message hasExtension:recursiveExtension]); |
| XCTAssertFalse([message_lvl2 hasExtension:recursiveExtension]); |
| XCTAssertFalse([message_lvl3 hasExtension:recursiveExtension]); |
| XCTAssertFalse([message_lvl4 hasExtension:recursiveExtension]); |
| [message_lvl4 setExtension:[UnittestRoot optionalInt32Extension] value:@(1)]; |
| XCTAssertTrue([message hasExtension:recursiveExtension]); |
| XCTAssertTrue([message_lvl2 hasExtension:recursiveExtension]); |
| XCTAssertTrue([message_lvl3 hasExtension:recursiveExtension]); |
| XCTAssertFalse([message_lvl4 hasExtension:recursiveExtension]); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(message_lvl4, message_lvl3)); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(message_lvl3, message_lvl2)); |
| XCTAssertFalse(GPBWasMessageAutocreatedBy(message_lvl2, message)); |
| } |
| |
| - (void)testSetAutocreatedExtensionToSelf { |
| // Setting extension to itself should cause it to become visible. |
| TestAllExtensions *message = [TestAllExtensions message]; |
| GPBExtensionDescriptor *optionalGroupExtension = [UnittestRoot optionalGroupExtension]; |
| XCTAssertNotNil([message getExtension:optionalGroupExtension]); |
| XCTAssertFalse([message hasExtension:optionalGroupExtension]); |
| [message setExtension:optionalGroupExtension value:[message getExtension:optionalGroupExtension]]; |
| XCTAssertTrue([message hasExtension:optionalGroupExtension]); |
| } |
| |
| - (void)testAutocreatedExtensionMemoryLeaks { |
| GPBExtensionDescriptor *recursiveExtension = [UnittestObjcRoot recursiveExtension]; |
| |
| // Test for memory leaks with autocreated extensions. |
| TestAllExtensions *message; |
| TestAllExtensions *message_lvl2; |
| TestAllExtensions *message_lvl3; |
| TestAllExtensions *message_lvl4; |
| @autoreleasepool { |
| message = [[TestAllExtensions alloc] init]; |
| message_lvl2 = [[message getExtension:recursiveExtension] retain]; |
| message_lvl3 = [[message_lvl2 getExtension:recursiveExtension] retain]; |
| message_lvl4 = [[message_lvl3 getExtension:recursiveExtension] retain]; |
| [message_lvl2 setExtension:[UnittestRoot optionalInt32Extension] value:@(1)]; |
| } |
| |
| XCTAssertEqual(message.retainCount, (NSUInteger)1); |
| @autoreleasepool { |
| [message release]; |
| } |
| XCTAssertEqual(message_lvl2.retainCount, (NSUInteger)1); |
| @autoreleasepool { |
| [message_lvl2 release]; |
| } |
| XCTAssertEqual(message_lvl3.retainCount, (NSUInteger)1); |
| @autoreleasepool { |
| [message_lvl3 release]; |
| } |
| XCTAssertEqual(message_lvl4.retainCount, (NSUInteger)1); |
| [message_lvl4 release]; |
| } |
| |
| - (void)testSetExtensionWithAutocreatedValue { |
| GPBExtensionDescriptor *recursiveExtension = [UnittestObjcRoot recursiveExtension]; |
| |
| TestAllExtensions *message; |
| @autoreleasepool { |
| message = [[TestAllExtensions alloc] init]; |
| [message getExtension:recursiveExtension]; |
| } |
| |
| // This statements checks that the extension value isn't accidentally |
| // dealloced when removing it from the autocreated map. |
| [message setExtension:recursiveExtension value:[message getExtension:recursiveExtension]]; |
| XCTAssertTrue([message hasExtension:recursiveExtension]); |
| [message release]; |
| } |
| |
| - (void)testRecursion { |
| TestRecursiveMessage *message = [TestRecursiveMessage message]; |
| XCTAssertNotNil(message.a); |
| XCTAssertNotNil(message.a.a); |
| XCTAssertEqual(message.a.a.i, 0); |
| } |
| |
| - (void)testGenerateAndParseUnknownMessage { |
| GPBUnknownFieldSet *unknowns = [[[GPBUnknownFieldSet alloc] init] autorelease]; |
| [unknowns mergeVarintField:123 value:456]; |
| GPBMessage *message = [GPBMessage message]; |
| [message setUnknownFields:unknowns]; |
| NSData *data = [message data]; |
| GPBMessage *message2 = [GPBMessage parseFromData:data extensionRegistry:nil error:NULL]; |
| XCTAssertEqualObjects(message, message2); |
| } |
| |
| - (void)testDelimitedWriteAndParseMultipleMessages { |
| GPBUnknownFieldSet *unknowns1 = [[[GPBUnknownFieldSet alloc] init] autorelease]; |
| [unknowns1 mergeVarintField:123 value:456]; |
| GPBMessage *message1 = [GPBMessage message]; |
| [message1 setUnknownFields:unknowns1]; |
| |
| GPBUnknownFieldSet *unknowns2 = [[[GPBUnknownFieldSet alloc] init] autorelease]; |
| [unknowns2 mergeVarintField:789 value:987]; |
| [unknowns2 mergeVarintField:654 value:321]; |
| GPBMessage *message2 = [GPBMessage message]; |
| [message2 setUnknownFields:unknowns2]; |
| |
| NSMutableData *delimitedData = [NSMutableData data]; |
| [delimitedData appendData:[message1 delimitedData]]; |
| [delimitedData appendData:[message2 delimitedData]]; |
| GPBCodedInputStream *input = [GPBCodedInputStream streamWithData:delimitedData]; |
| GPBMessage *message3 = [GPBMessage parseDelimitedFromCodedInputStream:input |
| extensionRegistry:nil |
| error:NULL]; |
| GPBMessage *message4 = [GPBMessage parseDelimitedFromCodedInputStream:input |
| extensionRegistry:nil |
| error:NULL]; |
| XCTAssertEqualObjects(message1, message3); |
| XCTAssertEqualObjects(message2, message4); |
| } |
| |
| - (void)testDuplicateEnums { |
| XCTAssertEqual(TestEnumWithDupValue_Foo1, TestEnumWithDupValue_Foo2); |
| } |
| |
| - (void)testWeirdDefaults { |
| ObjcWeirdDefaults *message = [ObjcWeirdDefaults message]; |
| GPBDescriptor *descriptor = [[message class] descriptor]; |
| GPBFieldDescriptor *fieldDesc = [descriptor fieldWithName:@"foo"]; |
| XCTAssertNotNil(fieldDesc); |
| XCTAssertTrue(fieldDesc.hasDefaultValue); |
| XCTAssertFalse(message.hasFoo); |
| XCTAssertEqualObjects(message.foo, @""); |
| |
| fieldDesc = [descriptor fieldWithName:@"bar"]; |
| XCTAssertNotNil(fieldDesc); |
| XCTAssertTrue(fieldDesc.hasDefaultValue); |
| XCTAssertFalse(message.hasBar); |
| XCTAssertEqualObjects(message.bar, GPBEmptyNSData()); |
| } |
| |
| - (void)testEnumDescriptorFromExtensionDescriptor { |
| GPBExtensionDescriptor *extDescriptor = [UnittestRoot optionalForeignEnumExtension]; |
| XCTAssertEqual(extDescriptor.dataType, GPBDataTypeEnum); |
| GPBEnumDescriptor *enumDescriptor = extDescriptor.enumDescriptor; |
| GPBEnumDescriptor *expectedDescriptor = ForeignEnum_EnumDescriptor(); |
| XCTAssertEqualObjects(enumDescriptor, expectedDescriptor); |
| } |
| |
| - (void)testPropertyNaming { |
| // names.cc has some special handing to get proper all caps for a few cases to |
| // meet objc developer expectations. |
| // |
| // This "test" confirms that the expected names are generated, otherwise the |
| // test itself will fail to compile. |
| ObjCPropertyNaming *msg = [ObjCPropertyNaming message]; |
| // On their own, at the end, in the middle. |
| msg.URL = @"good"; |
| msg.thumbnailURL = @"good"; |
| msg.URLFoo = @"good"; |
| msg.someURLBlah = @"good"; |
| msg.HTTP = @"good"; |
| msg.HTTPS = @"good"; |
| // No caps since it was "urls". |
| [msg.urlsArray addObject:@"good"]; |
| } |
| |
| - (void)testEnumNaming { |
| // names.cc has some interesting cases to deal with in |
| // EnumValueName/EnumValueShortName. Confirm that things generated as |
| // expected. |
| |
| // This block just has to compile to confirm we got the expected types/names. |
| // The *_IsValidValue() calls are just there to keep the projects warnings |
| // flags happy by providing use of the variables/values. |
| |
| Foo aFoo = Foo_SerializedSize; |
| Foo_IsValidValue(aFoo); |
| aFoo = Foo_Size; |
| Foo_IsValidValue(aFoo); |
| |
| Category_Enum aCat = Category_Enum_Red; |
| Category_Enum_IsValidValue(aCat); |
| |
| Time aTime = Time_Base; |
| Time_IsValidValue(aTime); |
| aTime = Time_SomethingElse; |
| Time_IsValidValue(aTime); |
| |
| // This block confirms the names in the descriptors is what we wanted. |
| |
| GPBEnumDescriptor *descriptor; |
| NSString *valueName; |
| |
| descriptor = Foo_EnumDescriptor(); |
| XCTAssertNotNil(descriptor); |
| XCTAssertEqualObjects(@"Foo", descriptor.name); |
| valueName = [descriptor enumNameForValue:Foo_SerializedSize]; |
| XCTAssertEqualObjects(@"Foo_SerializedSize", valueName); |
| valueName = [descriptor enumNameForValue:Foo_Size]; |
| XCTAssertEqualObjects(@"Foo_Size", valueName); |
| |
| descriptor = Category_Enum_EnumDescriptor(); |
| XCTAssertNotNil(descriptor); |
| XCTAssertEqualObjects(@"Category_Enum", descriptor.name); |
| valueName = [descriptor enumNameForValue:Category_Enum_Red]; |
| XCTAssertEqualObjects(@"Category_Enum_Red", valueName); |
| |
| descriptor = Time_EnumDescriptor(); |
| XCTAssertNotNil(descriptor); |
| XCTAssertEqualObjects(@"Time", descriptor.name); |
| valueName = [descriptor enumNameForValue:Time_Base]; |
| XCTAssertEqualObjects(@"Time_Base", valueName); |
| valueName = [descriptor enumNameForValue:Time_SomethingElse]; |
| XCTAssertEqualObjects(@"Time_SomethingElse", valueName); |
| } |
| |
| - (void)testNegativeEnums { |
| EnumTestMsg *msg = [EnumTestMsg message]; |
| |
| // Defaults |
| XCTAssertEqual(msg.foo, EnumTestMsg_MyEnum_Zero); |
| XCTAssertEqual(msg.bar, EnumTestMsg_MyEnum_One); |
| XCTAssertEqual(msg.baz, EnumTestMsg_MyEnum_NegOne); |
| // Bounce to wire and back. |
| NSData *data = [msg data]; |
| XCTAssertNotNil(data); |
| EnumTestMsg *msgPrime = [EnumTestMsg parseFromData:data error:NULL]; |
| XCTAssertEqualObjects(msgPrime, msg); |
| XCTAssertEqual(msgPrime.foo, EnumTestMsg_MyEnum_Zero); |
| XCTAssertEqual(msgPrime.bar, EnumTestMsg_MyEnum_One); |
| XCTAssertEqual(msgPrime.baz, EnumTestMsg_MyEnum_NegOne); |
| |
| // Other values |
| msg.bar = EnumTestMsg_MyEnum_Two; |
| msg.baz = EnumTestMsg_MyEnum_NegTwo; |
| XCTAssertEqual(msg.bar, EnumTestMsg_MyEnum_Two); |
| XCTAssertEqual(msg.baz, EnumTestMsg_MyEnum_NegTwo); |
| // Bounce to wire and back. |
| data = [msg data]; |
| XCTAssertNotNil(data); |
| msgPrime = [EnumTestMsg parseFromData:data error:NULL]; |
| XCTAssertEqualObjects(msgPrime, msg); |
| XCTAssertEqual(msgPrime.foo, EnumTestMsg_MyEnum_Zero); |
| XCTAssertEqual(msgPrime.bar, EnumTestMsg_MyEnum_Two); |
| XCTAssertEqual(msgPrime.baz, EnumTestMsg_MyEnum_NegTwo); |
| |
| // Repeated field (shouldn't ever be an issue since developer has to use the |
| // right GPBArray methods themselves). |
| msg.mumbleArray = [GPBEnumArray arrayWithValidationFunction:EnumTestMsg_MyEnum_IsValidValue]; |
| [msg.mumbleArray addValue:EnumTestMsg_MyEnum_Zero]; |
| [msg.mumbleArray addValue:EnumTestMsg_MyEnum_One]; |
| [msg.mumbleArray addValue:EnumTestMsg_MyEnum_Two]; |
| [msg.mumbleArray addValue:EnumTestMsg_MyEnum_NegOne]; |
| [msg.mumbleArray addValue:EnumTestMsg_MyEnum_NegTwo]; |
| XCTAssertEqual([msg.mumbleArray valueAtIndex:0], EnumTestMsg_MyEnum_Zero); |
| XCTAssertEqual([msg.mumbleArray valueAtIndex:1], EnumTestMsg_MyEnum_One); |
| XCTAssertEqual([msg.mumbleArray valueAtIndex:2], EnumTestMsg_MyEnum_Two); |
| XCTAssertEqual([msg.mumbleArray valueAtIndex:3], EnumTestMsg_MyEnum_NegOne); |
| XCTAssertEqual([msg.mumbleArray valueAtIndex:4], EnumTestMsg_MyEnum_NegTwo); |
| // Bounce to wire and back. |
| data = [msg data]; |
| XCTAssertNotNil(data); |
| msgPrime = [EnumTestMsg parseFromData:data error:NULL]; |
| XCTAssertEqualObjects(msgPrime, msg); |
| XCTAssertEqual([msgPrime.mumbleArray valueAtIndex:0], EnumTestMsg_MyEnum_Zero); |
| XCTAssertEqual([msgPrime.mumbleArray valueAtIndex:1], EnumTestMsg_MyEnum_One); |
| XCTAssertEqual([msgPrime.mumbleArray valueAtIndex:2], EnumTestMsg_MyEnum_Two); |
| XCTAssertEqual([msgPrime.mumbleArray valueAtIndex:3], EnumTestMsg_MyEnum_NegOne); |
| XCTAssertEqual([msgPrime.mumbleArray valueAtIndex:4], EnumTestMsg_MyEnum_NegTwo); |
| } |
| |
| - (void)testReservedWordNaming { |
| // names.cc has some special handing to make sure that some "reserved" objc |
| // names get renamed in a way so they don't conflict. |
| // |
| // This "test" confirms that the expected names are generated, |
| // otherwise the test itself will fail to compile. |
| self_Class *msg = [self_Class message]; |
| |
| // Some ObjC/C/C++ keywords. |
| msg.className_p = msg.hasClassName_p; |
| msg.cmd = msg.hasCmd; |
| msg.nullable_p = msg.hasNullable_p; |
| msg.typeof_p = msg.hasTypeof_p; |
| msg.instancetype_p = msg.hasInstancetype_p; |
| msg.nil_p = msg.hasNil_p; |
| msg.instancetype_p = msg.hasInstancetype_p; |
| msg.public_p = msg.hasPublic_p; |
| |
| // Some that would override NSObject methods |
| msg.camltype = msg.hasCamltype; |
| msg.isNsdictionary = msg.hasIsNsdictionary; |
| msg.dealloc_p = msg.hasDealloc_p; |
| msg.zone_p = msg.hasZone_p; |
| msg.accessibilityLabel_p = msg.hasAccessibilityLabel_p; |
| |
| // Some that we shouldn't need to handle. |
| msg.atomic = msg.hasAtomic; |
| msg.nonatomic = msg.hasNonatomic; |
| msg.strong = msg.hasStrong; |
| msg.nullResettable = msg.hasNullResettable; |
| |
| // Some that would override GPBMessage methods |
| msg.clear_p = msg.hasClear_p; |
| msg.data_p = msg.hasData_p; |
| |
| // Some MacTypes |
| msg.fixed = msg.hasFixed; |
| msg.style = msg.hasStyle; |
| |
| // Some C Identifiers |
| msg.generic = msg.hasGeneric; |
| msg.block = msg.hasBlock; |
| } |
| |
| - (void)testOneBasedEnumHolder { |
| // Test case for https://github.com/protocolbuffers/protobuf/issues/1453 |
| // Message with no explicit defaults, but a non zero default for an enum. |
| MessageWithOneBasedEnum *enumMsg = [MessageWithOneBasedEnum message]; |
| XCTAssertEqual(enumMsg.enumField, MessageWithOneBasedEnum_OneBasedEnum_One); |
| } |
| |
| - (void)testBoolOffsetUsage { |
| // Bools use storage within has_bits; this test ensures that this is honored |
| // in all places where things should crash or fail based on reading out of |
| // field storage instead. |
| BoolOnlyMessage *msg1 = [BoolOnlyMessage message]; |
| BoolOnlyMessage *msg2 = [BoolOnlyMessage message]; |
| |
| msg1.boolField1 = YES; |
| msg2.boolField1 = YES; |
| msg1.boolField3 = YES; |
| msg2.boolField3 = YES; |
| msg1.boolField5 = YES; |
| msg2.boolField5 = YES; |
| msg1.boolField7 = YES; |
| msg2.boolField7 = YES; |
| msg1.boolField9 = YES; |
| msg2.boolField9 = YES; |
| msg1.boolField11 = YES; |
| msg2.boolField11 = YES; |
| msg1.boolField13 = YES; |
| msg2.boolField13 = YES; |
| msg1.boolField15 = YES; |
| msg2.boolField15 = YES; |
| msg1.boolField17 = YES; |
| msg2.boolField17 = YES; |
| msg1.boolField19 = YES; |
| msg2.boolField19 = YES; |
| msg1.boolField21 = YES; |
| msg2.boolField21 = YES; |
| msg1.boolField23 = YES; |
| msg2.boolField23 = YES; |
| msg1.boolField25 = YES; |
| msg2.boolField25 = YES; |
| msg1.boolField27 = YES; |
| msg2.boolField27 = YES; |
| msg1.boolField29 = YES; |
| msg2.boolField29 = YES; |
| msg1.boolField31 = YES; |
| msg2.boolField31 = YES; |
| |
| msg1.boolField32 = YES; |
| msg2.boolField32 = YES; |
| |
| XCTAssertTrue(msg1 != msg2); // Different pointers. |
| XCTAssertEqual([msg1 hash], [msg2 hash]); |
| XCTAssertEqualObjects(msg1, msg2); |
| |
| BoolOnlyMessage *msg1Prime = [[msg1 copy] autorelease]; |
| XCTAssertTrue(msg1Prime != msg1); // Different pointers. |
| XCTAssertEqual([msg1 hash], [msg1Prime hash]); |
| XCTAssertEqualObjects(msg1, msg1Prime); |
| |
| // Field set in one, but not the other means they don't match (even if |
| // set to default value). |
| msg1Prime.boolField2 = NO; |
| XCTAssertNotEqualObjects(msg1Prime, msg1); |
| // And when set to different values. |
| msg1.boolField2 = YES; |
| XCTAssertNotEqualObjects(msg1Prime, msg1); |
| // And then they match again. |
| msg1.boolField2 = NO; |
| XCTAssertEqualObjects(msg1Prime, msg1); |
| XCTAssertEqual([msg1 hash], [msg1Prime hash]); |
| } |
| |
| - (void)testCopyingMapFields { |
| TestMessageOfMaps *msg = [TestMessageOfMaps message]; |
| |
| msg.strToStr[@"foo"] = @"bar"; |
| |
| [msg.strToInt setInt32:1 forKey:@"mumble"]; |
| [msg.intToStr setObject:@"wee" forKey:42]; |
| [msg.intToInt setInt32:123 forKey:321]; |
| |
| [msg.strToBool setBool:YES forKey:@"one"]; |
| [msg.boolToStr setObject:@"something" forKey:YES]; |
| [msg.boolToBool setBool:YES forKey:NO]; |
| |
| [msg.intToBool setBool:YES forKey:13]; |
| [msg.boolToInt setInt32:111 forKey:NO]; |
| |
| TestAllTypes *subMsg1 = [TestAllTypes message]; |
| subMsg1.optionalInt32 = 1; |
| TestAllTypes *subMsg2 = [TestAllTypes message]; |
| subMsg1.optionalInt32 = 2; |
| TestAllTypes *subMsg3 = [TestAllTypes message]; |
| subMsg1.optionalInt32 = 3; |
| |
| msg.strToMsg[@"baz"] = subMsg1; |
| [msg.intToMsg setObject:subMsg2 forKey:222]; |
| [msg.boolToMsg setObject:subMsg3 forKey:YES]; |
| |
| TestMessageOfMaps *msg2 = [[msg copy] autorelease]; |
| XCTAssertNotNil(msg2); |
| XCTAssertEqualObjects(msg2, msg); |
| XCTAssertTrue(msg2 != msg); // ptr compare |
| XCTAssertTrue(msg.strToStr != msg2.strToStr); // ptr compare |
| XCTAssertTrue(msg.intToStr != msg2.intToStr); // ptr compare |
| XCTAssertTrue(msg.intToInt != msg2.intToInt); // ptr compare |
| XCTAssertTrue(msg.strToBool != msg2.strToBool); // ptr compare |
| XCTAssertTrue(msg.boolToStr != msg2.boolToStr); // ptr compare |
| XCTAssertTrue(msg.boolToBool != msg2.boolToBool); // ptr compare |
| XCTAssertTrue(msg.intToBool != msg2.intToBool); // ptr compare |
| XCTAssertTrue(msg.boolToInt != msg2.boolToInt); // ptr compare |
| XCTAssertTrue(msg.strToMsg != msg2.strToMsg); // ptr compare |
| XCTAssertTrue(msg.intToMsg != msg2.intToMsg); // ptr compare |
| XCTAssertTrue(msg.boolToMsg != msg2.boolToMsg); // ptr compare |
| |
| XCTAssertTrue(msg.strToMsg[@"baz"] != msg2.strToMsg[@"baz"]); // ptr compare |
| XCTAssertEqualObjects(msg.strToMsg[@"baz"], msg2.strToMsg[@"baz"]); |
| XCTAssertTrue([msg.intToMsg objectForKey:222] != |
| [msg2.intToMsg objectForKey:222]); // ptr compare |
| XCTAssertEqualObjects([msg.intToMsg objectForKey:222], [msg2.intToMsg objectForKey:222]); |
| XCTAssertTrue([msg.boolToMsg objectForKey:YES] != |
| [msg2.boolToMsg objectForKey:YES]); // ptr compare |
| XCTAssertEqualObjects([msg.boolToMsg objectForKey:YES], [msg2.boolToMsg objectForKey:YES]); |
| } |
| |
| - (void)testPrefixedNames { |
| // The fact that this compiles is sufficient as a test. |
| // The assertions are just there to avoid "not-used" warnings. |
| |
| // Verify that enum types and values get the prefix. |
| GPBTESTTestObjcProtoPrefixEnum value = GPBTESTTestObjcProtoPrefixEnum_Value; |
| XCTAssertNotEqual(value, 0); |
| |
| // Verify that roots get the prefix. |
| GPBTESTUnittestObjcOptionsRoot *root = nil; |
| XCTAssertNil(root); |
| |
| // Verify that messages that don't already have the prefix get a prefix. |
| GPBTESTTestObjcProtoPrefixMessage *prefixedMessage = nil; |
| XCTAssertNil(prefixedMessage); |
| |
| // Verify that messages that already have a prefix aren't prefixed twice. |
| GPBTESTTestHasAPrefixMessage *alreadyPrefixedMessage = nil; |
| XCTAssertNil(alreadyPrefixedMessage); |
| |
| // Verify that enums that already have a prefix aren't prefixed twice. |
| GPBTESTTestHasAPrefixEnum prefixedValue = GPBTESTTestHasAPrefixEnum_ValueB; |
| XCTAssertNotEqual(prefixedValue, 0); |
| |
| // Verify that classes named the same as prefixes are prefixed. |
| GPBTESTGPBTEST *prefixMessage = nil; |
| XCTAssertNil(prefixMessage); |
| |
| // Verify that classes that have the prefix followed by a lowercase |
| // letter DO get the prefix. |
| GPBTESTGPBTESTshouldGetAPrefixMessage *shouldGetAPrefixMessage = nil; |
| XCTAssertNil(shouldGetAPrefixMessage); |
| } |
| |
| @end |