Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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// Protocol Buffers - Google's data interchange format
// Copyright 2015 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#import "GPBTestUtilities.h"
#import <objc/runtime.h>
#import "GPBMessage.h"
#import "google/protobuf/MapProto2Unittest.pbobjc.h"
#import "google/protobuf/MapUnittest.pbobjc.h"
#import "google/protobuf/Unittest.pbobjc.h"
#import "google/protobuf/UnittestDropUnknownFields.pbobjc.h"
#import "google/protobuf/UnittestPreserveUnknownEnum.pbobjc.h"
#import "google/protobuf/UnittestRuntimeProto2.pbobjc.h"
#import "google/protobuf/UnittestRuntimeProto3.pbobjc.h"
static NSData *DataFromCStr(const char *str) {
return [NSData dataWithBytes:str length:strlen(str)];
}
@interface MessageSerializationTests : GPBTestCase
@end
@implementation MessageSerializationTests
// TODO(thomasvl): Pull tests over from GPBMessageTests that are serialization
// specific.
- (void)testProto3SerializationHandlingDefaults {
// Proto2 covered in other tests.
Message3 *msg = [[Message3 alloc] init];
// Add defaults, no output.
NSData *data = [msg data];
XCTAssertEqual([data length], 0U);
// All zeros, still nothing.
msg.optionalInt32 = 0;
msg.optionalInt64 = 0;
msg.optionalUint32 = 0;
msg.optionalUint64 = 0;
msg.optionalSint32 = 0;
msg.optionalSint64 = 0;
msg.optionalFixed32 = 0;
msg.optionalFixed64 = 0;
msg.optionalSfixed32 = 0;
msg.optionalSfixed64 = 0;
msg.optionalFloat = 0.0f;
msg.optionalDouble = 0.0;
msg.optionalBool = NO;
msg.optionalString = @"";
msg.optionalBytes = [NSData data];
msg.optionalEnum = Message3_Enum_Foo; // first value
data = [msg data];
XCTAssertEqual([data length], 0U);
// The two that also take nil as nothing.
msg.optionalString = nil;
msg.optionalBytes = nil;
data = [msg data];
XCTAssertEqual([data length], 0U);
// Set one field...
msg.optionalInt32 = 1;
data = [msg data];
const uint8_t expectedBytes[] = {0x08, 0x01};
NSData *expected = [NSData dataWithBytes:expectedBytes length:2];
XCTAssertEqualObjects(data, expected);
// Back to zero...
msg.optionalInt32 = 0;
data = [msg data];
XCTAssertEqual([data length], 0U);
[msg release];
}
- (void)testProto3DroppingUnknownFields {
DropUnknownsFooWithExtraFields *fooWithExtras =
[[DropUnknownsFooWithExtraFields alloc] init];
fooWithExtras.int32Value = 1;
fooWithExtras.enumValue = DropUnknownsFooWithExtraFields_NestedEnum_Baz;
fooWithExtras.extraInt32Value = 2;
DropUnknownsFoo *foo =
[DropUnknownsFoo parseFromData:[fooWithExtras data] error:NULL];
XCTAssertEqual(foo.int32Value, 1);
XCTAssertEqual(foo.enumValue, DropUnknownsFoo_NestedEnum_Baz);
// Nothing should end up in the unknowns.
XCTAssertEqual([foo.unknownFields countOfFields], 0U);
[fooWithExtras release];
fooWithExtras =
[DropUnknownsFooWithExtraFields parseFromData:[foo data] error:NULL];
XCTAssertEqual(fooWithExtras.int32Value, 1);
XCTAssertEqual(fooWithExtras.enumValue,
DropUnknownsFooWithExtraFields_NestedEnum_Baz);
// And the extra value is gone (back to the default).
XCTAssertEqual(fooWithExtras.extraInt32Value, 0);
XCTAssertEqual([foo.unknownFields countOfFields], 0U);
}
- (void)testProto2UnknownEnumToUnknownField {
Message3 *orig = [[Message3 alloc] init];
orig.optionalEnum = Message3_Enum_Extra3;
orig.repeatedEnumArray =
[GPBEnumArray arrayWithValidationFunction:Message3_Enum_IsValidValue
rawValue:Message3_Enum_Extra3];
orig.oneofEnum = Message3_Enum_Extra3;
Message2 *msg = [[Message2 alloc] initWithData:[orig data] error:NULL];
// None of the fields should be set.
XCTAssertFalse(msg.hasOptionalEnum);
XCTAssertEqual(msg.repeatedEnumArray.count, 0U);
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_GPBUnsetOneOfCase);
// All the values should be in unknown fields.
GPBUnknownFieldSet *unknownFields = msg.unknownFields;
XCTAssertEqual([unknownFields countOfFields], 3U);
XCTAssertTrue([unknownFields hasField:Message2_FieldNumber_OptionalEnum]);
XCTAssertTrue(
[unknownFields hasField:Message2_FieldNumber_RepeatedEnumArray]);
XCTAssertTrue([unknownFields hasField:Message2_FieldNumber_OneofEnum]);
GPBUnknownField *field =
[unknownFields getField:Message2_FieldNumber_OptionalEnum];
XCTAssertEqual(field.varintList.count, 1U);
XCTAssertEqual([field.varintList valueAtIndex:0],
(uint64_t)Message3_Enum_Extra3);
field = [unknownFields getField:Message2_FieldNumber_RepeatedEnumArray];
XCTAssertEqual(field.varintList.count, 1U);
XCTAssertEqual([field.varintList valueAtIndex:0], (uint64_t)Message3_Enum_Extra3);
field = [unknownFields getField:Message2_FieldNumber_OneofEnum];
XCTAssertEqual(field.varintList.count, 1U);
XCTAssertEqual([field.varintList valueAtIndex:0],
(uint64_t)Message3_Enum_Extra3);
[msg release];
[orig release];
}
- (void)testProto3UnknownEnumPreserving {
UnknownEnumsMyMessagePlusExtra *orig =
[UnknownEnumsMyMessagePlusExtra message];
orig.e = UnknownEnumsMyEnumPlusExtra_EExtra;
orig.repeatedEArray = [GPBEnumArray
arrayWithValidationFunction:UnknownEnumsMyEnumPlusExtra_IsValidValue
rawValue:UnknownEnumsMyEnumPlusExtra_EExtra];
orig.repeatedPackedEArray = [GPBEnumArray
arrayWithValidationFunction:UnknownEnumsMyEnumPlusExtra_IsValidValue
rawValue:UnknownEnumsMyEnumPlusExtra_EExtra];
orig.oneofE1 = UnknownEnumsMyEnumPlusExtra_EExtra;
// Everything should be there via raw values.
UnknownEnumsMyMessage *msg =
[UnknownEnumsMyMessage parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.e, UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue);
XCTAssertEqual(UnknownEnumsMyMessage_E_RawValue(msg),
UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(msg.repeatedEArray.count, 1U);
XCTAssertEqual([msg.repeatedEArray valueAtIndex:0],
UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue);
XCTAssertEqual([msg.repeatedEArray rawValueAtIndex:0],
(UnknownEnumsMyEnum)UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(msg.repeatedPackedEArray.count, 1U);
XCTAssertEqual([msg.repeatedPackedEArray valueAtIndex:0],
UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue);
XCTAssertEqual([msg.repeatedPackedEArray rawValueAtIndex:0],
(UnknownEnumsMyEnum)UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(msg.oneofE1,
UnknownEnumsMyEnum_GPBUnrecognizedEnumeratorValue);
XCTAssertEqual(UnknownEnumsMyMessage_OneofE1_RawValue(msg),
UnknownEnumsMyEnumPlusExtra_EExtra);
// Everything should go out and come back.
orig = [UnknownEnumsMyMessagePlusExtra parseFromData:[msg data] error:NULL];
XCTAssertEqual(orig.e, UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(orig.repeatedEArray.count, 1U);
XCTAssertEqual([orig.repeatedEArray valueAtIndex:0],
UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(orig.repeatedPackedEArray.count, 1U);
XCTAssertEqual([orig.repeatedPackedEArray valueAtIndex:0],
UnknownEnumsMyEnumPlusExtra_EExtra);
XCTAssertEqual(orig.oneofE1, UnknownEnumsMyEnumPlusExtra_EExtra);
}
//%PDDM-DEFINE TEST_ROUNDTRIP_ONEOF(MESSAGE, FIELD, VALUE)
//%TEST_ROUNDTRIP_ONEOF_ADV(MESSAGE, FIELD, VALUE, )
//%PDDM-DEFINE TEST_ROUNDTRIP_ONEOF_ADV(MESSAGE, FIELD, VALUE, EQ_SUFFIX)
//% { // oneof##FIELD
//% MESSAGE *orig = [[MESSAGE alloc] init];
//% orig.oneof##FIELD = VALUE;
//% XCTAssertEqual(orig.oOneOfCase, MESSAGE##_O_OneOfCase_Oneof##FIELD);
//% MESSAGE *msg = [MESSAGE parseFromData:[orig data] error:NULL];
//% XCTAssertEqual(msg.oOneOfCase, MESSAGE##_O_OneOfCase_Oneof##FIELD);
//% XCTAssertEqual##EQ_SUFFIX(msg.oneof##FIELD, VALUE);
//% [orig release];
//% }
//%
//%PDDM-DEFINE TEST_ROUNDTRIP_ONEOFS(SYNTAX, BOOL_NON_DEFAULT)
//%- (void)testProto##SYNTAX##RoundTripOneof {
//%
//%GROUP_INIT##SYNTAX() Message##SYNTAX *subMessage = [[Message##SYNTAX alloc] init];
//% XCTAssertNotNil(subMessage);
//% subMessage.optionalInt32 = 666;
//%
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Int32, 1)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Int64, 2)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Uint32, 3U)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Uint64, 4U)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sint32, 5)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sint64, 6)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Fixed32, 7U)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Fixed64, 8U)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sfixed32, 9)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Sfixed64, 10)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Float, 11.0f)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Double, 12.0)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Bool, BOOL_NON_DEFAULT)
//%TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, String, @"foo", Objects)
//%TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, Bytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding], Objects)
//%GROUP_TEST##SYNTAX()TEST_ROUNDTRIP_ONEOF_ADV(Message##SYNTAX, Message, subMessage, Objects)
//%TEST_ROUNDTRIP_ONEOF(Message##SYNTAX, Enum, Message2_Enum_Bar)
//%GROUP_CLEANUP##SYNTAX() [subMessage release];
//%}
//%
//%PDDM-DEFINE GROUP_INIT2()
//% Message2_OneofGroup *group = [[Message2_OneofGroup alloc] init];
//% XCTAssertNotNil(group);
//% group.a = 777;
//%
//%PDDM-DEFINE GROUP_CLEANUP2()
//% [group release];
//%
//%PDDM-DEFINE GROUP_TEST2()
//%TEST_ROUNDTRIP_ONEOF_ADV(Message2, Group, group, Objects)
//%
//%PDDM-DEFINE GROUP_INIT3()
// Empty
//%PDDM-DEFINE GROUP_CLEANUP3()
// Empty
//%PDDM-DEFINE GROUP_TEST3()
//% // Not "group" in proto3.
//%
//%
//%PDDM-EXPAND TEST_ROUNDTRIP_ONEOFS(2, NO)
// This block of code is generated, do not edit it directly.
- (void)testProto2RoundTripOneof {
Message2_OneofGroup *group = [[Message2_OneofGroup alloc] init];
XCTAssertNotNil(group);
group.a = 777;
Message2 *subMessage = [[Message2 alloc] init];
XCTAssertNotNil(subMessage);
subMessage.optionalInt32 = 666;
{ // oneofInt32
Message2 *orig = [[Message2 alloc] init];
orig.oneofInt32 = 1;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofInt32);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofInt32);
XCTAssertEqual(msg.oneofInt32, 1);
[orig release];
}
{ // oneofInt64
Message2 *orig = [[Message2 alloc] init];
orig.oneofInt64 = 2;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofInt64);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofInt64);
XCTAssertEqual(msg.oneofInt64, 2);
[orig release];
}
{ // oneofUint32
Message2 *orig = [[Message2 alloc] init];
orig.oneofUint32 = 3U;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofUint32);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofUint32);
XCTAssertEqual(msg.oneofUint32, 3U);
[orig release];
}
{ // oneofUint64
Message2 *orig = [[Message2 alloc] init];
orig.oneofUint64 = 4U;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofUint64);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofUint64);
XCTAssertEqual(msg.oneofUint64, 4U);
[orig release];
}
{ // oneofSint32
Message2 *orig = [[Message2 alloc] init];
orig.oneofSint32 = 5;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSint32);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSint32);
XCTAssertEqual(msg.oneofSint32, 5);
[orig release];
}
{ // oneofSint64
Message2 *orig = [[Message2 alloc] init];
orig.oneofSint64 = 6;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSint64);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSint64);
XCTAssertEqual(msg.oneofSint64, 6);
[orig release];
}
{ // oneofFixed32
Message2 *orig = [[Message2 alloc] init];
orig.oneofFixed32 = 7U;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFixed32);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFixed32);
XCTAssertEqual(msg.oneofFixed32, 7U);
[orig release];
}
{ // oneofFixed64
Message2 *orig = [[Message2 alloc] init];
orig.oneofFixed64 = 8U;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFixed64);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFixed64);
XCTAssertEqual(msg.oneofFixed64, 8U);
[orig release];
}
{ // oneofSfixed32
Message2 *orig = [[Message2 alloc] init];
orig.oneofSfixed32 = 9;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSfixed32);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSfixed32);
XCTAssertEqual(msg.oneofSfixed32, 9);
[orig release];
}
{ // oneofSfixed64
Message2 *orig = [[Message2 alloc] init];
orig.oneofSfixed64 = 10;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofSfixed64);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofSfixed64);
XCTAssertEqual(msg.oneofSfixed64, 10);
[orig release];
}
{ // oneofFloat
Message2 *orig = [[Message2 alloc] init];
orig.oneofFloat = 11.0f;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofFloat);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofFloat);
XCTAssertEqual(msg.oneofFloat, 11.0f);
[orig release];
}
{ // oneofDouble
Message2 *orig = [[Message2 alloc] init];
orig.oneofDouble = 12.0;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofDouble);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofDouble);
XCTAssertEqual(msg.oneofDouble, 12.0);
[orig release];
}
{ // oneofBool
Message2 *orig = [[Message2 alloc] init];
orig.oneofBool = NO;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofBool);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofBool);
XCTAssertEqual(msg.oneofBool, NO);
[orig release];
}
{ // oneofString
Message2 *orig = [[Message2 alloc] init];
orig.oneofString = @"foo";
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofString);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofString);
XCTAssertEqualObjects(msg.oneofString, @"foo");
[orig release];
}
{ // oneofBytes
Message2 *orig = [[Message2 alloc] init];
orig.oneofBytes = [@"bar" dataUsingEncoding:NSUTF8StringEncoding];
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofBytes);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofBytes);
XCTAssertEqualObjects(msg.oneofBytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding]);
[orig release];
}
{ // oneofGroup
Message2 *orig = [[Message2 alloc] init];
orig.oneofGroup = group;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofGroup);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofGroup);
XCTAssertEqualObjects(msg.oneofGroup, group);
[orig release];
}
{ // oneofMessage
Message2 *orig = [[Message2 alloc] init];
orig.oneofMessage = subMessage;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofMessage);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofMessage);
XCTAssertEqualObjects(msg.oneofMessage, subMessage);
[orig release];
}
{ // oneofEnum
Message2 *orig = [[Message2 alloc] init];
orig.oneofEnum = Message2_Enum_Bar;
XCTAssertEqual(orig.oOneOfCase, Message2_O_OneOfCase_OneofEnum);
Message2 *msg = [Message2 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message2_O_OneOfCase_OneofEnum);
XCTAssertEqual(msg.oneofEnum, Message2_Enum_Bar);
[orig release];
}
[group release];
[subMessage release];
}
//%PDDM-EXPAND TEST_ROUNDTRIP_ONEOFS(3, YES)
// This block of code is generated, do not edit it directly.
- (void)testProto3RoundTripOneof {
Message3 *subMessage = [[Message3 alloc] init];
XCTAssertNotNil(subMessage);
subMessage.optionalInt32 = 666;
{ // oneofInt32
Message3 *orig = [[Message3 alloc] init];
orig.oneofInt32 = 1;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofInt32);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofInt32);
XCTAssertEqual(msg.oneofInt32, 1);
[orig release];
}
{ // oneofInt64
Message3 *orig = [[Message3 alloc] init];
orig.oneofInt64 = 2;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofInt64);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofInt64);
XCTAssertEqual(msg.oneofInt64, 2);
[orig release];
}
{ // oneofUint32
Message3 *orig = [[Message3 alloc] init];
orig.oneofUint32 = 3U;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofUint32);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofUint32);
XCTAssertEqual(msg.oneofUint32, 3U);
[orig release];
}
{ // oneofUint64
Message3 *orig = [[Message3 alloc] init];
orig.oneofUint64 = 4U;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofUint64);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofUint64);
XCTAssertEqual(msg.oneofUint64, 4U);
[orig release];
}
{ // oneofSint32
Message3 *orig = [[Message3 alloc] init];
orig.oneofSint32 = 5;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSint32);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSint32);
XCTAssertEqual(msg.oneofSint32, 5);
[orig release];
}
{ // oneofSint64
Message3 *orig = [[Message3 alloc] init];
orig.oneofSint64 = 6;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSint64);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSint64);
XCTAssertEqual(msg.oneofSint64, 6);
[orig release];
}
{ // oneofFixed32
Message3 *orig = [[Message3 alloc] init];
orig.oneofFixed32 = 7U;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFixed32);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFixed32);
XCTAssertEqual(msg.oneofFixed32, 7U);
[orig release];
}
{ // oneofFixed64
Message3 *orig = [[Message3 alloc] init];
orig.oneofFixed64 = 8U;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFixed64);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFixed64);
XCTAssertEqual(msg.oneofFixed64, 8U);
[orig release];
}
{ // oneofSfixed32
Message3 *orig = [[Message3 alloc] init];
orig.oneofSfixed32 = 9;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSfixed32);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSfixed32);
XCTAssertEqual(msg.oneofSfixed32, 9);
[orig release];
}
{ // oneofSfixed64
Message3 *orig = [[Message3 alloc] init];
orig.oneofSfixed64 = 10;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofSfixed64);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofSfixed64);
XCTAssertEqual(msg.oneofSfixed64, 10);
[orig release];
}
{ // oneofFloat
Message3 *orig = [[Message3 alloc] init];
orig.oneofFloat = 11.0f;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofFloat);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofFloat);
XCTAssertEqual(msg.oneofFloat, 11.0f);
[orig release];
}
{ // oneofDouble
Message3 *orig = [[Message3 alloc] init];
orig.oneofDouble = 12.0;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofDouble);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofDouble);
XCTAssertEqual(msg.oneofDouble, 12.0);
[orig release];
}
{ // oneofBool
Message3 *orig = [[Message3 alloc] init];
orig.oneofBool = YES;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofBool);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofBool);
XCTAssertEqual(msg.oneofBool, YES);
[orig release];
}
{ // oneofString
Message3 *orig = [[Message3 alloc] init];
orig.oneofString = @"foo";
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofString);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofString);
XCTAssertEqualObjects(msg.oneofString, @"foo");
[orig release];
}
{ // oneofBytes
Message3 *orig = [[Message3 alloc] init];
orig.oneofBytes = [@"bar" dataUsingEncoding:NSUTF8StringEncoding];
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofBytes);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofBytes);
XCTAssertEqualObjects(msg.oneofBytes, [@"bar" dataUsingEncoding:NSUTF8StringEncoding]);
[orig release];
}
// Not "group" in proto3.
{ // oneofMessage
Message3 *orig = [[Message3 alloc] init];
orig.oneofMessage = subMessage;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofMessage);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofMessage);
XCTAssertEqualObjects(msg.oneofMessage, subMessage);
[orig release];
}
{ // oneofEnum
Message3 *orig = [[Message3 alloc] init];
orig.oneofEnum = Message2_Enum_Bar;
XCTAssertEqual(orig.oOneOfCase, Message3_O_OneOfCase_OneofEnum);
Message3 *msg = [Message3 parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg.oOneOfCase, Message3_O_OneOfCase_OneofEnum);
XCTAssertEqual(msg.oneofEnum, Message2_Enum_Bar);
[orig release];
}
[subMessage release];
}
//%PDDM-EXPAND-END (2 expansions)
- (void)testPackedUnpackedMessageParsing {
// packed is optional, a repeated field should parse when packed or unpacked.
TestPackedTypes *packedOrig = [TestPackedTypes message];
TestUnpackedTypes *unpackedOrig = [TestUnpackedTypes message];
[self setPackedFields:packedOrig repeatedCount:4];
[self setUnpackedFields:unpackedOrig repeatedCount:4];
NSData *packedData = [packedOrig data];
NSData *unpackedData = [unpackedOrig data];
XCTAssertNotNil(packedData);
XCTAssertNotNil(unpackedData);
XCTAssertNotEqualObjects(packedData, unpackedData,
@"Data should differ (packed vs unpacked) use");
NSError *error = nil;
TestPackedTypes *packedParse =
[TestPackedTypes parseFromData:unpackedData error:&error];
XCTAssertNotNil(packedParse);
XCTAssertNil(error);
XCTAssertEqualObjects(packedParse, packedOrig);
error = nil;
TestUnpackedTypes *unpackedParsed =
[TestUnpackedTypes parseFromData:packedData error:&error];
XCTAssertNotNil(unpackedParsed);
XCTAssertNil(error);
XCTAssertEqualObjects(unpackedParsed, unpackedOrig);
}
- (void)testPackedUnpackedExtensionParsing {
// packed is optional, a repeated extension should parse when packed or
// unpacked.
TestPackedExtensions *packedOrig = [TestPackedExtensions message];
TestUnpackedExtensions *unpackedOrig = [TestUnpackedExtensions message];
[self setPackedExtensions:packedOrig repeatedCount:kGPBDefaultRepeatCount];
[self setUnpackedExtensions:unpackedOrig repeatedCount:kGPBDefaultRepeatCount];
NSData *packedData = [packedOrig data];
NSData *unpackedData = [unpackedOrig data];
XCTAssertNotNil(packedData);
XCTAssertNotNil(unpackedData);
XCTAssertNotEqualObjects(packedData, unpackedData,
@"Data should differ (packed vs unpacked) use");
NSError *error = nil;
TestPackedExtensions *packedParse =
[TestPackedExtensions parseFromData:unpackedData
extensionRegistry:[UnittestRoot extensionRegistry]
error:&error];
XCTAssertNotNil(packedParse);
XCTAssertNil(error);
XCTAssertEqualObjects(packedParse, packedOrig);
error = nil;
TestUnpackedExtensions *unpackedParsed =
[TestUnpackedExtensions parseFromData:packedData
extensionRegistry:[UnittestRoot extensionRegistry]
error:&error];
XCTAssertNotNil(unpackedParsed);
XCTAssertNil(error);
XCTAssertEqualObjects(unpackedParsed, unpackedOrig);
}
- (void)testPackedExtensionVsFieldParsing {
// Extensions and fields end up on the wire the same way, so they can parse
// each other.
TestPackedTypes *fieldsOrig = [TestPackedTypes message];
TestPackedExtensions *extsOrig = [TestPackedExtensions message];
[self setPackedFields:fieldsOrig repeatedCount:kGPBDefaultRepeatCount];
[self setPackedExtensions:extsOrig repeatedCount:kGPBDefaultRepeatCount];
NSData *fieldsData = [fieldsOrig data];
NSData *extsData = [extsOrig data];
XCTAssertNotNil(fieldsData);
XCTAssertNotNil(extsData);
XCTAssertEqualObjects(fieldsData, extsData);
NSError *error = nil;
TestPackedTypes *fieldsParse =
[TestPackedTypes parseFromData:extsData error:&error];
XCTAssertNotNil(fieldsParse);
XCTAssertNil(error);
XCTAssertEqualObjects(fieldsParse, fieldsOrig);
error = nil;
TestPackedExtensions *extsParse =
[TestPackedExtensions parseFromData:fieldsData
extensionRegistry:[UnittestRoot extensionRegistry]
error:&error];
XCTAssertNotNil(extsParse);
XCTAssertNil(error);
XCTAssertEqualObjects(extsParse, extsOrig);
}
- (void)testUnpackedExtensionVsFieldParsing {
// Extensions and fields end up on the wire the same way, so they can parse
// each other.
TestUnpackedTypes *fieldsOrig = [TestUnpackedTypes message];
TestUnpackedExtensions *extsOrig = [TestUnpackedExtensions message];
[self setUnpackedFields:fieldsOrig repeatedCount:3];
[self setUnpackedExtensions:extsOrig repeatedCount:3];
NSData *fieldsData = [fieldsOrig data];
NSData *extsData = [extsOrig data];
XCTAssertNotNil(fieldsData);
XCTAssertNotNil(extsData);
XCTAssertEqualObjects(fieldsData, extsData);
TestUnpackedTypes *fieldsParse =
[TestUnpackedTypes parseFromData:extsData error:NULL];
XCTAssertNotNil(fieldsParse);
XCTAssertEqualObjects(fieldsParse, fieldsOrig);
TestUnpackedExtensions *extsParse =
[TestUnpackedExtensions parseFromData:fieldsData
extensionRegistry:[UnittestRoot extensionRegistry]
error:NULL];
XCTAssertNotNil(extsParse);
XCTAssertEqualObjects(extsParse, extsOrig);
}
#pragma mark - Subset from from map_tests.cc
// TEST(GeneratedMapFieldTest, StandardWireFormat)
- (void)testMap_StandardWireFormat {
NSData *data = DataFromCStr("\x0A\x04\x08\x01\x10\x01");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:1 value:&val]);
XCTAssertEqual(val, 1);
[msg release];
}
// TEST(GeneratedMapFieldTest, UnorderedWireFormat)
- (void)testMap_UnorderedWireFormat {
// put value before key in wire format
NSData *data = DataFromCStr("\x0A\x04\x10\x01\x08\x02");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:2 value:&val]);
XCTAssertEqual(val, 1);
[msg release];
}
// TEST(GeneratedMapFieldTest, DuplicatedKeyWireFormat)
- (void)testMap_DuplicatedKeyWireFormat {
// Two key fields in wire format
NSData *data = DataFromCStr("\x0A\x06\x08\x01\x08\x02\x10\x01");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:2 value:&val]);
XCTAssertEqual(val, 1);
[msg release];
}
// TEST(GeneratedMapFieldTest, DuplicatedValueWireFormat)
- (void)testMap_DuplicatedValueWireFormat {
// Two value fields in wire format
NSData *data = DataFromCStr("\x0A\x06\x08\x01\x10\x01\x10\x02");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:1 value:&val]);
XCTAssertEqual(val, 2);
[msg release];
}
// TEST(GeneratedMapFieldTest, MissedKeyWireFormat)
- (void)testMap_MissedKeyWireFormat {
// No key field in wire format
NSData *data = DataFromCStr("\x0A\x02\x10\x01");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:0 value:&val]);
XCTAssertEqual(val, 1);
[msg release];
}
// TEST(GeneratedMapFieldTest, MissedValueWireFormat)
- (void)testMap_MissedValueWireFormat {
// No value field in wire format
NSData *data = DataFromCStr("\x0A\x02\x08\x01");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:1 value:&val]);
XCTAssertEqual(val, 0);
[msg release];
}
// TEST(GeneratedMapFieldTest, UnknownFieldWireFormat)
- (void)testMap_UnknownFieldWireFormat {
// Unknown field in wire format
NSData *data = DataFromCStr("\x0A\x06\x08\x02\x10\x03\x18\x01");
TestMap *msg = [[TestMap alloc] initWithData:data error:NULL];
XCTAssertEqual(msg.mapInt32Int32.count, 1U);
int32_t val = 666;
XCTAssertTrue([msg.mapInt32Int32 valueForKey:2 value:&val]);
XCTAssertEqual(val, 3);
[msg release];
}
// TEST(GeneratedMapFieldTest, CorruptedWireFormat)
- (void)testMap_CorruptedWireFormat {
// corrupted data in wire format
NSData *data = DataFromCStr("\x0A\x06\x08\x02\x11\x03");
NSError *error = nil;
TestMap *msg = [TestMap parseFromData:data error:&error];
XCTAssertNil(msg);
XCTAssertNotNil(error);
XCTAssertEqualObjects(error.domain, GPBMessageErrorDomain);
XCTAssertEqual(error.code, GPBMessageErrorCodeMalformedData);
}
// TEST(GeneratedMapFieldTest, Proto2UnknownEnum)
- (void)testMap_Proto2UnknownEnum {
TestEnumMapPlusExtra *orig = [[TestEnumMapPlusExtra alloc] init];
orig.knownMapField = [GPBInt32EnumDictionary
dictionaryWithValidationFunction:Proto2MapEnumPlusExtra_IsValidValue];
orig.unknownMapField = [GPBInt32EnumDictionary
dictionaryWithValidationFunction:Proto2MapEnumPlusExtra_IsValidValue];
[orig.knownMapField setValue:Proto2MapEnumPlusExtra_EProto2MapEnumFoo
forKey:0];
[orig.unknownMapField setValue:Proto2MapEnumPlusExtra_EProto2MapEnumExtra
forKey:0];
TestEnumMap *msg1 = [TestEnumMap parseFromData:[orig data] error:NULL];
XCTAssertEqual(msg1.knownMapField.count, 1U);
int32_t val = -1;
XCTAssertTrue([msg1.knownMapField valueForKey:0 value:&val]);
XCTAssertEqual(val, Proto2MapEnum_Proto2MapEnumFoo);
XCTAssertEqual(msg1.unknownFields.countOfFields, 1U);
TestEnumMapPlusExtra *msg2 =
[TestEnumMapPlusExtra parseFromData:[msg1 data] error:NULL];
val = -1;
XCTAssertEqual(msg2.knownMapField.count, 1U);
XCTAssertTrue([msg2.knownMapField valueForKey:0 value:&val]);
XCTAssertEqual(val, Proto2MapEnumPlusExtra_EProto2MapEnumFoo);
val = -1;
XCTAssertEqual(msg2.unknownMapField.count, 1U);
XCTAssertTrue([msg2.unknownMapField valueForKey:0 value:&val]);
XCTAssertEqual(val, Proto2MapEnumPlusExtra_EProto2MapEnumExtra);
XCTAssertEqual(msg2.unknownFields.countOfFields, 0U);
XCTAssertEqualObjects(orig, msg2);
[orig release];
}
#pragma mark - Map Round Tripping
- (void)testProto2MapRoundTripping {
Message2 *msg = [[Message2 alloc] init];
// Key/Value data should result in different byte lengths on wire to ensure
// everything is right.
[msg.mapInt32Int32 setValue:1000 forKey:200];
[msg.mapInt32Int32 setValue:101 forKey:2001];
[msg.mapInt64Int64 setValue:1002 forKey:202];
[msg.mapInt64Int64 setValue:103 forKey:2003];
[msg.mapUint32Uint32 setValue:1004 forKey:204];
[msg.mapUint32Uint32 setValue:105 forKey:2005];
[msg.mapUint64Uint64 setValue:1006 forKey:206];
[msg.mapUint64Uint64 setValue:107 forKey:2007];
[msg.mapSint32Sint32 setValue:1008 forKey:208];
[msg.mapSint32Sint32 setValue:109 forKey:2009];
[msg.mapSint64Sint64 setValue:1010 forKey:210];
[msg.mapSint64Sint64 setValue:111 forKey:2011];
[msg.mapFixed32Fixed32 setValue:1012 forKey:212];
[msg.mapFixed32Fixed32 setValue:113 forKey:2013];
[msg.mapFixed64Fixed64 setValue:1014 forKey:214];
[msg.mapFixed64Fixed64 setValue:115 forKey:2015];
[msg.mapSfixed32Sfixed32 setValue:1016 forKey:216];
[msg.mapSfixed32Sfixed32 setValue:117 forKey:2017];
[msg.mapSfixed64Sfixed64 setValue:1018 forKey:218];
[msg.mapSfixed64Sfixed64 setValue:119 forKey:2019];
[msg.mapInt32Float setValue:1020.f forKey:220];
[msg.mapInt32Float setValue:121.f forKey:2021];
[msg.mapInt32Double setValue:1022. forKey:222];
[msg.mapInt32Double setValue:123. forKey:2023];
[msg.mapBoolBool setValue:false forKey:true];
[msg.mapBoolBool setValue:true forKey:false];
msg.mapStringString[@"224"] = @"1024";
msg.mapStringString[@"2025"] = @"125";
msg.mapStringBytes[@"226"] = DataFromCStr("1026");
msg.mapStringBytes[@"2027"] = DataFromCStr("127");
Message2 *val1 = [[Message2 alloc] init];
val1.optionalInt32 = 1028;
Message2 *val2 = [[Message2 alloc] init];
val2.optionalInt32 = 129;
[msg.mapStringMessage setValue:val1 forKey:@"228"];
[msg.mapStringMessage setValue:val2 forKey:@"2029"];
[msg.mapInt32Bytes setObject:DataFromCStr("1030 bytes") forKey:230];
[msg.mapInt32Bytes setObject:DataFromCStr("131") forKey:2031];
[msg.mapInt32Enum setValue:Message2_Enum_Bar forKey:232];
[msg.mapInt32Enum setValue:Message2_Enum_Baz forKey:2033];
Message2 *val3 = [[Message2 alloc] init];
val3.optionalInt32 = 1034;
Message2 *val4 = [[Message2 alloc] init];
val4.optionalInt32 = 135;
[msg.mapInt32Message setObject:val3 forKey:234];
[msg.mapInt32Message setObject:val4 forKey:2035];
NSData *data = [msg data];
Message2 *msg2 = [[Message2 alloc] initWithData:data error:NULL];
XCTAssertNotEqual(msg2, msg); // Pointer comparison
XCTAssertEqualObjects(msg2, msg);
[val4 release];
[val3 release];
[val2 release];
[val1 release];
[msg2 release];
[msg release];
}
@end