// Protocol Buffers - Google's data interchange format // Copyright 2015 Google Inc. All rights reserved. // https://developers.google.com/protocol-buffers/ // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. #import #import #import "GPBDictionary.h" #import "GPBTestUtilities.h" #import "google/protobuf/UnittestRuntimeProto2.pbobjc.h" // Pull in the macros (using an external file because expanding all tests // in a single file makes a file that is failing to work with within Xcode. //%PDDM-IMPORT-DEFINES GPBDictionaryTests.pddm //%PDDM-EXPAND TEST_FOR_POD_KEY(Int32, int32_t, 11, 12, 13, 14) // This block of code is generated, do not edit it directly. // To let the testing macros work, add some extra methods to simplify things. @interface GPBInt32EnumDictionary (TestingTweak) - (instancetype)initWithEnums:(const int32_t [])values forKeys:(const int32_t [])keys count:(NSUInteger)count; @end static BOOL TestingEnum_IsValidValue(int32_t value) { switch (value) { case 700: case 701: case 702: case 703: return YES; default: return NO; } } @implementation GPBInt32EnumDictionary (TestingTweak) - (instancetype)initWithEnums:(const int32_t [])values forKeys:(const int32_t [])keys count:(NSUInteger)count { return [self initWithValidationFunction:TestingEnum_IsValidValue rawValues:values forKeys:keys count:count]; } @end #pragma mark - Int32 -> UInt32 @interface GPBInt32UInt32DictionaryTests : XCTestCase @end @implementation GPBInt32UInt32DictionaryTests - (void)testEmpty { GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getUInt32:NULL forKey:11]); [dict enumerateKeysAndUInt32sUsingBlock:^(int32_t aKey, uint32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] init]; [dict setUInt32:100U forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); uint32_t value; XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertFalse([dict getUInt32:NULL forKey:12]); [dict enumerateKeysAndUInt32sUsingBlock:^(int32_t aKey, uint32_t aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 100U); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const uint32_t kValues[] = { 100U, 101U, 102U }; GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); uint32_t value; XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 101U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertFalse([dict getUInt32:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); uint32_t *seenValues = malloc(3 * sizeof(uint32_t)); [dict enumerateKeysAndUInt32sUsingBlock:^(int32_t aKey, uint32_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndUInt32sUsingBlock:^(int32_t aKey, uint32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const uint32_t kValues1[] = { 100U, 101U, 102U }; const uint32_t kValues2[] = { 100U, 103U, 102U }; const uint32_t kValues3[] = { 100U, 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict1 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32UInt32Dictionary *dict1prime = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32UInt32Dictionary *dict2 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32UInt32Dictionary *dict3 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32UInt32Dictionary *dict4 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint32_t kValues[] = { 100U, 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32UInt32Dictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32UInt32Dictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint32_t kValues[] = { 100U, 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32UInt32Dictionary *dict2 = [[GPBInt32UInt32Dictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setUInt32:100U forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const uint32_t kValues[] = { 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict2 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); uint32_t value; XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 101U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 103U); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint32_t kValues[] = { 100U, 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeUInt32ForKey:12]; XCTAssertEqual(dict.count, 3U); uint32_t value; XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertFalse([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 103U); // Remove again does nothing. [dict removeUInt32ForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertFalse([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 103U); [dict removeUInt32ForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertFalse([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertFalse([dict getUInt32:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getUInt32:NULL forKey:11]); XCTAssertFalse([dict getUInt32:NULL forKey:12]); XCTAssertFalse([dict getUInt32:NULL forKey:13]); XCTAssertFalse([dict getUInt32:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint32_t kValues[] = { 100U, 101U, 102U, 103U }; GPBInt32UInt32Dictionary *dict = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); uint32_t value; XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 100U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 101U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 103U); [dict setUInt32:103U forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 103U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 101U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 103U); [dict setUInt32:101U forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 103U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 101U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 101U); const int32_t kKeys2[] = { 12, 13 }; const uint32_t kValues2[] = { 102U, 100U }; GPBInt32UInt32Dictionary *dict2 = [[GPBInt32UInt32Dictionary alloc] initWithUInt32s:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt32:NULL forKey:11]); XCTAssertTrue([dict getUInt32:&value forKey:11]); XCTAssertEqual(value, 103U); XCTAssertTrue([dict getUInt32:NULL forKey:12]); XCTAssertTrue([dict getUInt32:&value forKey:12]); XCTAssertEqual(value, 102U); XCTAssertTrue([dict getUInt32:NULL forKey:13]); XCTAssertTrue([dict getUInt32:&value forKey:13]); XCTAssertEqual(value, 100U); XCTAssertTrue([dict getUInt32:NULL forKey:14]); XCTAssertTrue([dict getUInt32:&value forKey:14]); XCTAssertEqual(value, 101U); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Int32 @interface GPBInt32Int32DictionaryTests : XCTestCase @end @implementation GPBInt32Int32DictionaryTests - (void)testEmpty { GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getInt32:NULL forKey:11]); [dict enumerateKeysAndInt32sUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] init]; [dict setInt32:200 forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); int32_t value; XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertFalse([dict getInt32:NULL forKey:12]); [dict enumerateKeysAndInt32sUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 200); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const int32_t kValues[] = { 200, 201, 202 }; GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); int32_t value; XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 201); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertFalse([dict getInt32:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); int32_t *seenValues = malloc(3 * sizeof(int32_t)); [dict enumerateKeysAndInt32sUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndInt32sUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const int32_t kValues1[] = { 200, 201, 202 }; const int32_t kValues2[] = { 200, 203, 202 }; const int32_t kValues3[] = { 200, 201, 202, 203 }; GPBInt32Int32Dictionary *dict1 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32Int32Dictionary *dict1prime = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32Int32Dictionary *dict2 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32Int32Dictionary *dict3 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32Int32Dictionary *dict4 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 200, 201, 202, 203 }; GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32Int32Dictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32Int32Dictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 200, 201, 202, 203 }; GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32Int32Dictionary *dict2 = [[GPBInt32Int32Dictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setInt32:200 forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const int32_t kValues[] = { 201, 202, 203 }; GPBInt32Int32Dictionary *dict2 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 201); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 203); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 200, 201, 202, 203 }; GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeInt32ForKey:12]; XCTAssertEqual(dict.count, 3U); int32_t value; XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertFalse([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 203); // Remove again does nothing. [dict removeInt32ForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertFalse([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 203); [dict removeInt32ForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertFalse([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertFalse([dict getInt32:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getInt32:NULL forKey:11]); XCTAssertFalse([dict getInt32:NULL forKey:12]); XCTAssertFalse([dict getInt32:NULL forKey:13]); XCTAssertFalse([dict getInt32:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 200, 201, 202, 203 }; GPBInt32Int32Dictionary *dict = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 200); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 201); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 203); [dict setInt32:203 forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 203); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 201); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 203); [dict setInt32:201 forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 203); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 201); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 201); const int32_t kKeys2[] = { 12, 13 }; const int32_t kValues2[] = { 202, 200 }; GPBInt32Int32Dictionary *dict2 = [[GPBInt32Int32Dictionary alloc] initWithInt32s:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt32:NULL forKey:11]); XCTAssertTrue([dict getInt32:&value forKey:11]); XCTAssertEqual(value, 203); XCTAssertTrue([dict getInt32:NULL forKey:12]); XCTAssertTrue([dict getInt32:&value forKey:12]); XCTAssertEqual(value, 202); XCTAssertTrue([dict getInt32:NULL forKey:13]); XCTAssertTrue([dict getInt32:&value forKey:13]); XCTAssertEqual(value, 200); XCTAssertTrue([dict getInt32:NULL forKey:14]); XCTAssertTrue([dict getInt32:&value forKey:14]); XCTAssertEqual(value, 201); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> UInt64 @interface GPBInt32UInt64DictionaryTests : XCTestCase @end @implementation GPBInt32UInt64DictionaryTests - (void)testEmpty { GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getUInt64:NULL forKey:11]); [dict enumerateKeysAndUInt64sUsingBlock:^(int32_t aKey, uint64_t aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] init]; [dict setUInt64:300U forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); uint64_t value; XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertFalse([dict getUInt64:NULL forKey:12]); [dict enumerateKeysAndUInt64sUsingBlock:^(int32_t aKey, uint64_t aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 300U); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const uint64_t kValues[] = { 300U, 301U, 302U }; GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); uint64_t value; XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 301U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertFalse([dict getUInt64:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); uint64_t *seenValues = malloc(3 * sizeof(uint64_t)); [dict enumerateKeysAndUInt64sUsingBlock:^(int32_t aKey, uint64_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndUInt64sUsingBlock:^(int32_t aKey, uint64_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const uint64_t kValues1[] = { 300U, 301U, 302U }; const uint64_t kValues2[] = { 300U, 303U, 302U }; const uint64_t kValues3[] = { 300U, 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict1 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32UInt64Dictionary *dict1prime = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32UInt64Dictionary *dict2 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32UInt64Dictionary *dict3 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32UInt64Dictionary *dict4 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint64_t kValues[] = { 300U, 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32UInt64Dictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32UInt64Dictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint64_t kValues[] = { 300U, 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32UInt64Dictionary *dict2 = [[GPBInt32UInt64Dictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setUInt64:300U forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const uint64_t kValues[] = { 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict2 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); uint64_t value; XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 301U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 303U); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint64_t kValues[] = { 300U, 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeUInt64ForKey:12]; XCTAssertEqual(dict.count, 3U); uint64_t value; XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertFalse([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 303U); // Remove again does nothing. [dict removeUInt64ForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertFalse([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 303U); [dict removeUInt64ForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertFalse([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertFalse([dict getUInt64:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getUInt64:NULL forKey:11]); XCTAssertFalse([dict getUInt64:NULL forKey:12]); XCTAssertFalse([dict getUInt64:NULL forKey:13]); XCTAssertFalse([dict getUInt64:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const uint64_t kValues[] = { 300U, 301U, 302U, 303U }; GPBInt32UInt64Dictionary *dict = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); uint64_t value; XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 300U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 301U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 303U); [dict setUInt64:303U forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 303U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 301U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 303U); [dict setUInt64:301U forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 303U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 301U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 301U); const int32_t kKeys2[] = { 12, 13 }; const uint64_t kValues2[] = { 302U, 300U }; GPBInt32UInt64Dictionary *dict2 = [[GPBInt32UInt64Dictionary alloc] initWithUInt64s:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getUInt64:NULL forKey:11]); XCTAssertTrue([dict getUInt64:&value forKey:11]); XCTAssertEqual(value, 303U); XCTAssertTrue([dict getUInt64:NULL forKey:12]); XCTAssertTrue([dict getUInt64:&value forKey:12]); XCTAssertEqual(value, 302U); XCTAssertTrue([dict getUInt64:NULL forKey:13]); XCTAssertTrue([dict getUInt64:&value forKey:13]); XCTAssertEqual(value, 300U); XCTAssertTrue([dict getUInt64:NULL forKey:14]); XCTAssertTrue([dict getUInt64:&value forKey:14]); XCTAssertEqual(value, 301U); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Int64 @interface GPBInt32Int64DictionaryTests : XCTestCase @end @implementation GPBInt32Int64DictionaryTests - (void)testEmpty { GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getInt64:NULL forKey:11]); [dict enumerateKeysAndInt64sUsingBlock:^(int32_t aKey, int64_t aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] init]; [dict setInt64:400 forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); int64_t value; XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertFalse([dict getInt64:NULL forKey:12]); [dict enumerateKeysAndInt64sUsingBlock:^(int32_t aKey, int64_t aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 400); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const int64_t kValues[] = { 400, 401, 402 }; GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); int64_t value; XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 401); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertFalse([dict getInt64:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); int64_t *seenValues = malloc(3 * sizeof(int64_t)); [dict enumerateKeysAndInt64sUsingBlock:^(int32_t aKey, int64_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndInt64sUsingBlock:^(int32_t aKey, int64_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const int64_t kValues1[] = { 400, 401, 402 }; const int64_t kValues2[] = { 400, 403, 402 }; const int64_t kValues3[] = { 400, 401, 402, 403 }; GPBInt32Int64Dictionary *dict1 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32Int64Dictionary *dict1prime = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32Int64Dictionary *dict2 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32Int64Dictionary *dict3 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32Int64Dictionary *dict4 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int64_t kValues[] = { 400, 401, 402, 403 }; GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32Int64Dictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32Int64Dictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int64_t kValues[] = { 400, 401, 402, 403 }; GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32Int64Dictionary *dict2 = [[GPBInt32Int64Dictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setInt64:400 forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const int64_t kValues[] = { 401, 402, 403 }; GPBInt32Int64Dictionary *dict2 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); int64_t value; XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 401); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 403); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int64_t kValues[] = { 400, 401, 402, 403 }; GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeInt64ForKey:12]; XCTAssertEqual(dict.count, 3U); int64_t value; XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertFalse([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 403); // Remove again does nothing. [dict removeInt64ForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertFalse([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 403); [dict removeInt64ForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertFalse([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertFalse([dict getInt64:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getInt64:NULL forKey:11]); XCTAssertFalse([dict getInt64:NULL forKey:12]); XCTAssertFalse([dict getInt64:NULL forKey:13]); XCTAssertFalse([dict getInt64:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int64_t kValues[] = { 400, 401, 402, 403 }; GPBInt32Int64Dictionary *dict = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); int64_t value; XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 400); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 401); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 403); [dict setInt64:403 forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 403); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 401); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 403); [dict setInt64:401 forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 403); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 401); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 401); const int32_t kKeys2[] = { 12, 13 }; const int64_t kValues2[] = { 402, 400 }; GPBInt32Int64Dictionary *dict2 = [[GPBInt32Int64Dictionary alloc] initWithInt64s:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getInt64:NULL forKey:11]); XCTAssertTrue([dict getInt64:&value forKey:11]); XCTAssertEqual(value, 403); XCTAssertTrue([dict getInt64:NULL forKey:12]); XCTAssertTrue([dict getInt64:&value forKey:12]); XCTAssertEqual(value, 402); XCTAssertTrue([dict getInt64:NULL forKey:13]); XCTAssertTrue([dict getInt64:&value forKey:13]); XCTAssertEqual(value, 400); XCTAssertTrue([dict getInt64:NULL forKey:14]); XCTAssertTrue([dict getInt64:&value forKey:14]); XCTAssertEqual(value, 401); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Bool @interface GPBInt32BoolDictionaryTests : XCTestCase @end @implementation GPBInt32BoolDictionaryTests - (void)testEmpty { GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getBool:NULL forKey:11]); [dict enumerateKeysAndBoolsUsingBlock:^(int32_t aKey, BOOL aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] init]; [dict setBool:YES forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); BOOL value; XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertFalse([dict getBool:NULL forKey:12]); [dict enumerateKeysAndBoolsUsingBlock:^(int32_t aKey, BOOL aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, YES); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const BOOL kValues[] = { YES, YES, NO }; GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); BOOL value; XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertFalse([dict getBool:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); BOOL *seenValues = malloc(3 * sizeof(BOOL)); [dict enumerateKeysAndBoolsUsingBlock:^(int32_t aKey, BOOL aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndBoolsUsingBlock:^(int32_t aKey, BOOL aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const BOOL kValues1[] = { YES, YES, NO }; const BOOL kValues2[] = { YES, NO, NO }; const BOOL kValues3[] = { YES, YES, NO, NO }; GPBInt32BoolDictionary *dict1 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32BoolDictionary *dict1prime = [[GPBInt32BoolDictionary alloc] initWithBools:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32BoolDictionary *dict2 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32BoolDictionary *dict3 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32BoolDictionary *dict4 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const BOOL kValues[] = { YES, YES, NO, NO }; GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32BoolDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32BoolDictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const BOOL kValues[] = { YES, YES, NO, NO }; GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32BoolDictionary *dict2 = [[GPBInt32BoolDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setBool:YES forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const BOOL kValues[] = { YES, NO, NO }; GPBInt32BoolDictionary *dict2 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); BOOL value; XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, NO); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const BOOL kValues[] = { YES, YES, NO, NO }; GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeBoolForKey:12]; XCTAssertEqual(dict.count, 3U); BOOL value; XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertFalse([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, NO); // Remove again does nothing. [dict removeBoolForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertFalse([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, NO); [dict removeBoolForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertFalse([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertFalse([dict getBool:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getBool:NULL forKey:11]); XCTAssertFalse([dict getBool:NULL forKey:12]); XCTAssertFalse([dict getBool:NULL forKey:13]); XCTAssertFalse([dict getBool:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const BOOL kValues[] = { YES, YES, NO, NO }; GPBInt32BoolDictionary *dict = [[GPBInt32BoolDictionary alloc] initWithBools:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); BOOL value; XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, NO); [dict setBool:NO forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, NO); [dict setBool:YES forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, YES); const int32_t kKeys2[] = { 12, 13 }; const BOOL kValues2[] = { NO, YES }; GPBInt32BoolDictionary *dict2 = [[GPBInt32BoolDictionary alloc] initWithBools:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getBool:NULL forKey:11]); XCTAssertTrue([dict getBool:&value forKey:11]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:12]); XCTAssertTrue([dict getBool:&value forKey:12]); XCTAssertEqual(value, NO); XCTAssertTrue([dict getBool:NULL forKey:13]); XCTAssertTrue([dict getBool:&value forKey:13]); XCTAssertEqual(value, YES); XCTAssertTrue([dict getBool:NULL forKey:14]); XCTAssertTrue([dict getBool:&value forKey:14]); XCTAssertEqual(value, YES); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Float @interface GPBInt32FloatDictionaryTests : XCTestCase @end @implementation GPBInt32FloatDictionaryTests - (void)testEmpty { GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getFloat:NULL forKey:11]); [dict enumerateKeysAndFloatsUsingBlock:^(int32_t aKey, float aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] init]; [dict setFloat:500.f forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); float value; XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertFalse([dict getFloat:NULL forKey:12]); [dict enumerateKeysAndFloatsUsingBlock:^(int32_t aKey, float aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 500.f); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const float kValues[] = { 500.f, 501.f, 502.f }; GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); float value; XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 501.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertFalse([dict getFloat:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); float *seenValues = malloc(3 * sizeof(float)); [dict enumerateKeysAndFloatsUsingBlock:^(int32_t aKey, float aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndFloatsUsingBlock:^(int32_t aKey, float aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const float kValues1[] = { 500.f, 501.f, 502.f }; const float kValues2[] = { 500.f, 503.f, 502.f }; const float kValues3[] = { 500.f, 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict1 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32FloatDictionary *dict1prime = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32FloatDictionary *dict2 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32FloatDictionary *dict3 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32FloatDictionary *dict4 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const float kValues[] = { 500.f, 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32FloatDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32FloatDictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const float kValues[] = { 500.f, 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32FloatDictionary *dict2 = [[GPBInt32FloatDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setFloat:500.f forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const float kValues[] = { 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict2 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); float value; XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 501.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 503.f); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const float kValues[] = { 500.f, 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeFloatForKey:12]; XCTAssertEqual(dict.count, 3U); float value; XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertFalse([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 503.f); // Remove again does nothing. [dict removeFloatForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertFalse([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 503.f); [dict removeFloatForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertFalse([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertFalse([dict getFloat:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getFloat:NULL forKey:11]); XCTAssertFalse([dict getFloat:NULL forKey:12]); XCTAssertFalse([dict getFloat:NULL forKey:13]); XCTAssertFalse([dict getFloat:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const float kValues[] = { 500.f, 501.f, 502.f, 503.f }; GPBInt32FloatDictionary *dict = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); float value; XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 500.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 501.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 503.f); [dict setFloat:503.f forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 503.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 501.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 503.f); [dict setFloat:501.f forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 503.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 501.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 501.f); const int32_t kKeys2[] = { 12, 13 }; const float kValues2[] = { 502.f, 500.f }; GPBInt32FloatDictionary *dict2 = [[GPBInt32FloatDictionary alloc] initWithFloats:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getFloat:NULL forKey:11]); XCTAssertTrue([dict getFloat:&value forKey:11]); XCTAssertEqual(value, 503.f); XCTAssertTrue([dict getFloat:NULL forKey:12]); XCTAssertTrue([dict getFloat:&value forKey:12]); XCTAssertEqual(value, 502.f); XCTAssertTrue([dict getFloat:NULL forKey:13]); XCTAssertTrue([dict getFloat:&value forKey:13]); XCTAssertEqual(value, 500.f); XCTAssertTrue([dict getFloat:NULL forKey:14]); XCTAssertTrue([dict getFloat:&value forKey:14]); XCTAssertEqual(value, 501.f); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Double @interface GPBInt32DoubleDictionaryTests : XCTestCase @end @implementation GPBInt32DoubleDictionaryTests - (void)testEmpty { GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getDouble:NULL forKey:11]); [dict enumerateKeysAndDoublesUsingBlock:^(int32_t aKey, double aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] init]; [dict setDouble:600. forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); double value; XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertFalse([dict getDouble:NULL forKey:12]); [dict enumerateKeysAndDoublesUsingBlock:^(int32_t aKey, double aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 600.); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const double kValues[] = { 600., 601., 602. }; GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); double value; XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 601.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertFalse([dict getDouble:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); double *seenValues = malloc(3 * sizeof(double)); [dict enumerateKeysAndDoublesUsingBlock:^(int32_t aKey, double aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndDoublesUsingBlock:^(int32_t aKey, double aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const double kValues1[] = { 600., 601., 602. }; const double kValues2[] = { 600., 603., 602. }; const double kValues3[] = { 600., 601., 602., 603. }; GPBInt32DoubleDictionary *dict1 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32DoubleDictionary *dict1prime = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32DoubleDictionary *dict2 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32DoubleDictionary *dict3 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32DoubleDictionary *dict4 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const double kValues[] = { 600., 601., 602., 603. }; GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32DoubleDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32DoubleDictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const double kValues[] = { 600., 601., 602., 603. }; GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32DoubleDictionary *dict2 = [[GPBInt32DoubleDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setDouble:600. forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const double kValues[] = { 601., 602., 603. }; GPBInt32DoubleDictionary *dict2 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); double value; XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 601.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 603.); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const double kValues[] = { 600., 601., 602., 603. }; GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeDoubleForKey:12]; XCTAssertEqual(dict.count, 3U); double value; XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertFalse([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 603.); // Remove again does nothing. [dict removeDoubleForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertFalse([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 603.); [dict removeDoubleForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertFalse([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertFalse([dict getDouble:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getDouble:NULL forKey:11]); XCTAssertFalse([dict getDouble:NULL forKey:12]); XCTAssertFalse([dict getDouble:NULL forKey:13]); XCTAssertFalse([dict getDouble:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const double kValues[] = { 600., 601., 602., 603. }; GPBInt32DoubleDictionary *dict = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); double value; XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 600.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 601.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 603.); [dict setDouble:603. forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 603.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 601.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 603.); [dict setDouble:601. forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 603.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 601.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 601.); const int32_t kKeys2[] = { 12, 13 }; const double kValues2[] = { 602., 600. }; GPBInt32DoubleDictionary *dict2 = [[GPBInt32DoubleDictionary alloc] initWithDoubles:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getDouble:NULL forKey:11]); XCTAssertTrue([dict getDouble:&value forKey:11]); XCTAssertEqual(value, 603.); XCTAssertTrue([dict getDouble:NULL forKey:12]); XCTAssertTrue([dict getDouble:&value forKey:12]); XCTAssertEqual(value, 602.); XCTAssertTrue([dict getDouble:NULL forKey:13]); XCTAssertTrue([dict getDouble:&value forKey:13]); XCTAssertEqual(value, 600.); XCTAssertTrue([dict getDouble:NULL forKey:14]); XCTAssertTrue([dict getDouble:&value forKey:14]); XCTAssertEqual(value, 601.); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Enum @interface GPBInt32EnumDictionaryTests : XCTestCase @end @implementation GPBInt32EnumDictionaryTests - (void)testEmpty { GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getEnum:NULL forKey:11]); [dict enumerateKeysAndEnumsUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] init]; [dict setEnum:700 forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); [dict enumerateKeysAndEnumsUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqual(aValue, 700); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const int32_t kValues[] = { 700, 701, 702 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 701); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertFalse([dict getEnum:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); int32_t *seenValues = malloc(3 * sizeof(int32_t)); [dict enumerateKeysAndEnumsUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndEnumsUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const int32_t kValues1[] = { 700, 701, 702 }; const int32_t kValues2[] = { 700, 703, 702 }; const int32_t kValues3[] = { 700, 701, 702, 703 }; GPBInt32EnumDictionary *dict1 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32EnumDictionary *dict1prime = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32EnumDictionary *dict3 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32EnumDictionary *dict4 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 701, 702, 703 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32EnumDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32EnumDictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 701, 702, 703 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setEnum:700 forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const int32_t kValues[] = { 701, 702, 703 }; GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addRawEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 701); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 703); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 701, 702, 703 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeEnumForKey:12]; XCTAssertEqual(dict.count, 3U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 703); // Remove again does nothing. [dict removeEnumForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 703); [dict removeEnumForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertFalse([dict getEnum:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getEnum:NULL forKey:11]); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertFalse([dict getEnum:NULL forKey:13]); XCTAssertFalse([dict getEnum:NULL forKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 701, 702, 703 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 701); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 703); [dict setEnum:703 forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 703); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 701); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 703); [dict setEnum:701 forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 703); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 701); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 701); const int32_t kKeys2[] = { 12, 13 }; const int32_t kValues2[] = { 702, 700 }; GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addRawEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 703); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 701); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Enum (Unknown Enums) @interface GPBInt32EnumDictionaryUnknownEnumTests : XCTestCase @end @implementation GPBInt32EnumDictionaryUnknownEnumTests - (void)testRawBasics { const int32_t kKeys[] = { 11, 12, 13 }; const int32_t kValues[] = { 700, 801, 702 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); XCTAssertTrue(dict.validationFunc == TestingEnum_IsValidValue); // Pointer comparison int32_t value; XCTAssertTrue([dict getRawValue:NULL forKey:11]); XCTAssertTrue([dict getRawValue:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, kGPBUnrecognizedEnumeratorValue); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getRawValue:NULL forKey:13]); XCTAssertTrue([dict getRawValue:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertFalse([dict getRawValue:NULL forKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); int32_t *seenValues = malloc(3 * sizeof(int32_t)); [dict enumerateKeysAndEnumsUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; if (i == 1) { XCTAssertEqual(kGPBUnrecognizedEnumeratorValue, seenValues[j], @"i = %d, j = %d", i, j); } else { XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } } XCTAssertTrue(foundKey, @"i = %d", i); } idx = 0; [dict enumerateKeysAndRawValuesUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenValues[idx] = aValue; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqual(kValues[i], seenValues[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenValues); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndRawValuesUsingBlock:^(int32_t aKey, int32_t aValue, BOOL *stop) { #pragma unused(aKey, aValue) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEqualityWithUnknowns { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const int32_t kValues1[] = { 700, 801, 702 }; // Unknown const int32_t kValues2[] = { 700, 803, 702 }; // Unknown const int32_t kValues3[] = { 700, 801, 702, 803 }; // Unknowns GPBInt32EnumDictionary *dict1 = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1); GPBInt32EnumDictionary *dict1prime = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues1 forKeys:kKeys1 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict1prime); GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues2 forKeys:kKeys1 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); GPBInt32EnumDictionary *dict3 = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues1 forKeys:kKeys2 count:GPBARRAYSIZE(kValues1)]; XCTAssertNotNil(dict3); GPBInt32EnumDictionary *dict4 = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues3 forKeys:kKeys1 count:GPBARRAYSIZE(kValues3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different values; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same values; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopyWithUnknowns { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 801, 702, 803 }; // Unknown GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32EnumDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqual(dict.validationFunc, dict2.validationFunc); // Pointer comparison XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 801, 702, 803 }; // Unknowns GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertEqual(dict.validationFunc, dict2.validationFunc); // Pointer comparison [dict2 release]; [dict release]; } - (void)testUnknownAdds { GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertThrowsSpecificNamed([dict setEnum:801 forKey:12], // Unknown NSException, NSInvalidArgumentException); XCTAssertEqual(dict.count, 0U); [dict setRawValue:801 forKey:12]; // Unknown XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 11, 13, 14 }; const int32_t kValues[] = { 700, 702, 803 }; // Unknown GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithEnums:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict2); [dict addRawEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, kGPBUnrecognizedEnumeratorValue); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, kGPBUnrecognizedEnumeratorValue); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); [dict2 release]; [dict release]; } - (void)testUnknownRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 801, 702, 803 }; // Unknowns GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeEnumForKey:12]; XCTAssertEqual(dict.count, 3U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); // Remove again does nothing. [dict removeEnumForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); [dict removeEnumForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertFalse([dict getEnum:NULL forKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertFalse([dict getEnum:NULL forKey:11]); XCTAssertFalse([dict getEnum:NULL forKey:12]); XCTAssertFalse([dict getEnum:NULL forKey:13]); XCTAssertFalse([dict getEnum:NULL forKey:14]); [dict release]; } - (void)testInplaceMutationUnknowns { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 801, 702, 803 }; // Unknowns GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); int32_t value; XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); XCTAssertThrowsSpecificNamed([dict setEnum:803 forKey:11], // Unknown NSException, NSInvalidArgumentException); XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getEnum:NULL forKey:11]); XCTAssertTrue([dict getEnum:&value forKey:11]); XCTAssertEqual(value, 700); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); [dict setRawValue:803 forKey:11]; // Unknown XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getRawValue:NULL forKey:11]); XCTAssertTrue([dict getRawValue:&value forKey:11]); XCTAssertEqual(value, 803); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:14]); XCTAssertTrue([dict getRawValue:&value forKey:14]); XCTAssertEqual(value, 803); [dict setRawValue:700 forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getRawValue:NULL forKey:11]); XCTAssertTrue([dict getRawValue:&value forKey:11]); XCTAssertEqual(value, 803); XCTAssertTrue([dict getRawValue:NULL forKey:12]); XCTAssertTrue([dict getRawValue:&value forKey:12]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:13]); XCTAssertTrue([dict getEnum:&value forKey:13]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 700); const int32_t kKeys2[] = { 12, 13 }; const int32_t kValues2[] = { 702, 801 }; // Unknown GPBInt32EnumDictionary *dict2 = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues2 forKeys:kKeys2 count:GPBARRAYSIZE(kValues2)]; XCTAssertNotNil(dict2); [dict addRawEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertTrue([dict getRawValue:NULL forKey:11]); XCTAssertTrue([dict getRawValue:&value forKey:11]); XCTAssertEqual(value, 803); XCTAssertTrue([dict getEnum:NULL forKey:12]); XCTAssertTrue([dict getEnum:&value forKey:12]); XCTAssertEqual(value, 702); XCTAssertTrue([dict getRawValue:NULL forKey:13]); XCTAssertTrue([dict getRawValue:&value forKey:13]); XCTAssertEqual(value, 801); XCTAssertTrue([dict getEnum:NULL forKey:14]); XCTAssertTrue([dict getEnum:&value forKey:14]); XCTAssertEqual(value, 700); [dict2 release]; [dict release]; } - (void)testCopyUnknowns { const int32_t kKeys[] = { 11, 12, 13, 14 }; const int32_t kValues[] = { 700, 801, 702, 803 }; GPBInt32EnumDictionary *dict = [[GPBInt32EnumDictionary alloc] initWithValidationFunction:TestingEnum_IsValidValue rawValues:kValues forKeys:kKeys count:GPBARRAYSIZE(kValues)]; XCTAssertNotNil(dict); GPBInt32EnumDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertEqual(dict.validationFunc, dict2.validationFunc); // Pointer comparison XCTAssertTrue([dict2 isKindOfClass:[GPBInt32EnumDictionary class]]); [dict2 release]; [dict release]; } @end #pragma mark - Int32 -> Object @interface GPBInt32ObjectDictionaryTests : XCTestCase @end @implementation GPBInt32ObjectDictionaryTests - (void)testEmpty { GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); XCTAssertNil([dict objectForKey:11]); [dict enumerateKeysAndObjectsUsingBlock:^(int32_t aKey, NSString* aObject, BOOL *stop) { #pragma unused(aKey, aObject, stop) XCTFail(@"Shouldn't get here!"); }]; [dict release]; } - (void)testOne { GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] init]; [dict setObject:@"abc" forKey:11]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 1U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertNil([dict objectForKey:12]); [dict enumerateKeysAndObjectsUsingBlock:^(int32_t aKey, NSString* aObject, BOOL *stop) { XCTAssertEqual(aKey, 11); XCTAssertEqualObjects(aObject, @"abc"); XCTAssertNotEqual(stop, NULL); }]; [dict release]; } - (void)testBasics { const int32_t kKeys[] = { 11, 12, 13 }; const NSString* kObjects[] = { @"abc", @"def", @"ghi" }; GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 3U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertEqualObjects([dict objectForKey:12], @"def"); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertNil([dict objectForKey:14]); __block NSUInteger idx = 0; int32_t *seenKeys = malloc(3 * sizeof(int32_t)); NSString* *seenObjects = malloc(3 * sizeof(NSString*)); [dict enumerateKeysAndObjectsUsingBlock:^(int32_t aKey, NSString* aObject, BOOL *stop) { XCTAssertLessThan(idx, 3U); seenKeys[idx] = aKey; seenObjects[idx] = aObject; XCTAssertNotEqual(stop, NULL); ++idx; }]; for (int i = 0; i < 3; ++i) { BOOL foundKey = NO; for (int j = 0; (j < 3) && !foundKey; ++j) { if (kKeys[i] == seenKeys[j]) { foundKey = YES; XCTAssertEqualObjects(kObjects[i], seenObjects[j], @"i = %d, j = %d", i, j); } } XCTAssertTrue(foundKey, @"i = %d", i); } free(seenKeys); free(seenObjects); // Stopping the enumeration. idx = 0; [dict enumerateKeysAndObjectsUsingBlock:^(int32_t aKey, NSString* aObject, BOOL *stop) { #pragma unused(aKey, aObject) if (idx == 1) *stop = YES; XCTAssertNotEqual(idx, 2U); ++idx; }]; [dict release]; } - (void)testEquality { const int32_t kKeys1[] = { 11, 12, 13, 14 }; const int32_t kKeys2[] = { 12, 11, 14 }; const NSString* kObjects1[] = { @"abc", @"def", @"ghi" }; const NSString* kObjects2[] = { @"abc", @"jkl", @"ghi" }; const NSString* kObjects3[] = { @"abc", @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict1 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects1 forKeys:kKeys1 count:GPBARRAYSIZE(kObjects1)]; XCTAssertNotNil(dict1); GPBInt32ObjectDictionary *dict1prime = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects1 forKeys:kKeys1 count:GPBARRAYSIZE(kObjects1)]; XCTAssertNotNil(dict1prime); GPBInt32ObjectDictionary *dict2 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects2 forKeys:kKeys1 count:GPBARRAYSIZE(kObjects2)]; XCTAssertNotNil(dict2); GPBInt32ObjectDictionary *dict3 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects1 forKeys:kKeys2 count:GPBARRAYSIZE(kObjects1)]; XCTAssertNotNil(dict3); GPBInt32ObjectDictionary *dict4 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects3 forKeys:kKeys1 count:GPBARRAYSIZE(kObjects3)]; XCTAssertNotNil(dict4); // 1/1Prime should be different objects, but equal. XCTAssertNotEqual(dict1, dict1prime); XCTAssertEqualObjects(dict1, dict1prime); // Equal, so they must have same hash. XCTAssertEqual([dict1 hash], [dict1prime hash]); // 2 is same keys, different objects; not equal. XCTAssertNotEqualObjects(dict1, dict2); // 3 is different keys, same objects; not equal. XCTAssertNotEqualObjects(dict1, dict3); // 4 extra pair; not equal XCTAssertNotEqualObjects(dict1, dict4); [dict1 release]; [dict1prime release]; [dict2 release]; [dict3 release]; [dict4 release]; } - (void)testCopy { const int32_t kKeys[] = { 11, 12, 13, 14 }; const NSString* kObjects[] = { @"abc", @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict); GPBInt32ObjectDictionary *dict2 = [dict copy]; XCTAssertNotNil(dict2); // Should be new object but equal. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); XCTAssertTrue([dict2 isKindOfClass:[GPBInt32ObjectDictionary class]]); [dict2 release]; [dict release]; } - (void)testDictionaryFromDictionary { const int32_t kKeys[] = { 11, 12, 13, 14 }; const NSString* kObjects[] = { @"abc", @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict); GPBInt32ObjectDictionary *dict2 = [[GPBInt32ObjectDictionary alloc] initWithDictionary:dict]; XCTAssertNotNil(dict2); // Should be new pointer, but equal objects. XCTAssertNotEqual(dict, dict2); XCTAssertEqualObjects(dict, dict2); [dict2 release]; [dict release]; } - (void)testAdds { GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] init]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 0U); [dict setObject:@"abc" forKey:11]; XCTAssertEqual(dict.count, 1U); const int32_t kKeys[] = { 12, 13, 14 }; const NSString* kObjects[] = { @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict2 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertEqualObjects([dict objectForKey:12], @"def"); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"jkl"); [dict2 release]; [dict release]; } - (void)testRemove { const int32_t kKeys[] = { 11, 12, 13, 14 }; const NSString* kObjects[] = { @"abc", @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); [dict removeObjectForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertNil([dict objectForKey:12]); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"jkl"); // Remove again does nothing. [dict removeObjectForKey:12]; XCTAssertEqual(dict.count, 3U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertNil([dict objectForKey:12]); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"jkl"); [dict removeObjectForKey:14]; XCTAssertEqual(dict.count, 2U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertNil([dict objectForKey:12]); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertNil([dict objectForKey:14]); [dict removeAll]; XCTAssertEqual(dict.count, 0U); XCTAssertNil([dict objectForKey:11]); XCTAssertNil([dict objectForKey:12]); XCTAssertNil([dict objectForKey:13]); XCTAssertNil([dict objectForKey:14]); [dict release]; } - (void)testInplaceMutation { const int32_t kKeys[] = { 11, 12, 13, 14 }; const NSString* kObjects[] = { @"abc", @"def", @"ghi", @"jkl" }; GPBInt32ObjectDictionary *dict = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects forKeys:kKeys count:GPBARRAYSIZE(kObjects)]; XCTAssertNotNil(dict); XCTAssertEqual(dict.count, 4U); XCTAssertEqualObjects([dict objectForKey:11], @"abc"); XCTAssertEqualObjects([dict objectForKey:12], @"def"); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"jkl"); [dict setObject:@"jkl" forKey:11]; XCTAssertEqual(dict.count, 4U); XCTAssertEqualObjects([dict objectForKey:11], @"jkl"); XCTAssertEqualObjects([dict objectForKey:12], @"def"); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"jkl"); [dict setObject:@"def" forKey:14]; XCTAssertEqual(dict.count, 4U); XCTAssertEqualObjects([dict objectForKey:11], @"jkl"); XCTAssertEqualObjects([dict objectForKey:12], @"def"); XCTAssertEqualObjects([dict objectForKey:13], @"ghi"); XCTAssertEqualObjects([dict objectForKey:14], @"def"); const int32_t kKeys2[] = { 12, 13 }; const NSString* kObjects2[] = { @"ghi", @"abc" }; GPBInt32ObjectDictionary *dict2 = [[GPBInt32ObjectDictionary alloc] initWithObjects:kObjects2 forKeys:kKeys2 count:GPBARRAYSIZE(kObjects2)]; XCTAssertNotNil(dict2); [dict addEntriesFromDictionary:dict2]; XCTAssertEqual(dict.count, 4U); XCTAssertEqualObjects([dict objectForKey:11], @"jkl"); XCTAssertEqualObjects([dict objectForKey:12], @"ghi"); XCTAssertEqualObjects([dict objectForKey:13], @"abc"); XCTAssertEqualObjects([dict objectForKey:14], @"def"); [dict2 release]; [dict release]; } @end //%PDDM-EXPAND-END TEST_FOR_POD_KEY(Int32, int32_t, 11, 12, 13, 14)