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 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
#import "GPBMessage_PackagePrivate.h"
#import <objc/runtime.h>
#import <objc/message.h>
#import "GPBArray_PackagePrivate.h"
#import "GPBCodedInputStream_PackagePrivate.h"
#import "GPBCodedOutputStream_PackagePrivate.h"
#import "GPBDescriptor_PackagePrivate.h"
#import "GPBDictionary_PackagePrivate.h"
#import "GPBExtensionInternals.h"
#import "GPBExtensionRegistry.h"
#import "GPBRootObject_PackagePrivate.h"
#import "GPBUnknownFieldSet_PackagePrivate.h"
#import "GPBUtilities_PackagePrivate.h"
// Direct access is use for speed, to avoid even internally declaring things
// read/write, etc. The warning is enabled in the project to ensure code calling
// protos can turn on -Wdirect-ivar-access without issues.
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdirect-ivar-access"
NSString *const GPBMessageErrorDomain =
GPBNSStringifySymbol(GPBMessageErrorDomain);
NSString *const GPBErrorReasonKey = @"Reason";
static NSString *const kGPBDataCoderKey = @"GPBData";
//
// PLEASE REMEMBER:
//
// This is the base class for *all* messages generated, so any selector defined,
// *public* or *private* could end up colliding with a proto message field. So
// avoid using selectors that could match a property, use C functions to hide
// them, etc.
//
@interface GPBMessage () {
@package
GPBUnknownFieldSet *unknownFields_;
NSMutableDictionary *extensionMap_;
NSMutableDictionary *autocreatedExtensionMap_;
// If the object was autocreated, we remember the creator so that if we get
// mutated, we can inform the creator to make our field visible.
GPBMessage *autocreator_;
GPBFieldDescriptor *autocreatorField_;
GPBExtensionDescriptor *autocreatorExtension_;
}
@end
static id CreateArrayForField(GPBFieldDescriptor *field,
GPBMessage *autocreator)
__attribute__((ns_returns_retained));
static id GetOrCreateArrayIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax);
static id GetArrayIvarWithField(GPBMessage *self, GPBFieldDescriptor *field);
static id CreateMapForField(GPBFieldDescriptor *field,
GPBMessage *autocreator)
__attribute__((ns_returns_retained));
static id GetOrCreateMapIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax);
static id GetMapIvarWithField(GPBMessage *self, GPBFieldDescriptor *field);
static NSMutableDictionary *CloneExtensionMap(NSDictionary *extensionMap,
NSZone *zone)
__attribute__((ns_returns_retained));
#ifdef DEBUG
static NSError *MessageError(NSInteger code, NSDictionary *userInfo) {
return [NSError errorWithDomain:GPBMessageErrorDomain
code:code
userInfo:userInfo];
}
#endif
static NSError *ErrorFromException(NSException *exception) {
NSError *error = nil;
if ([exception.name isEqual:GPBCodedInputStreamException]) {
NSDictionary *exceptionInfo = exception.userInfo;
error = exceptionInfo[GPBCodedInputStreamUnderlyingErrorKey];
}
if (!error) {
NSString *reason = exception.reason;
NSDictionary *userInfo = nil;
if ([reason length]) {
userInfo = @{ GPBErrorReasonKey : reason };
}
error = [NSError errorWithDomain:GPBMessageErrorDomain
code:GPBMessageErrorCodeOther
userInfo:userInfo];
}
return error;
}
static void CheckExtension(GPBMessage *self,
GPBExtensionDescriptor *extension) {
if (![self isKindOfClass:extension.containingMessageClass]) {
[NSException
raise:NSInvalidArgumentException
format:@"Extension %@ used on wrong class (%@ instead of %@)",
extension.singletonName,
[self class], extension.containingMessageClass];
}
}
static NSMutableDictionary *CloneExtensionMap(NSDictionary *extensionMap,
NSZone *zone) {
if (extensionMap.count == 0) {
return nil;
}
NSMutableDictionary *result = [[NSMutableDictionary allocWithZone:zone]
initWithCapacity:extensionMap.count];
for (GPBExtensionDescriptor *extension in extensionMap) {
id value = [extensionMap objectForKey:extension];
BOOL isMessageExtension = GPBExtensionIsMessage(extension);
if (extension.repeated) {
if (isMessageExtension) {
NSMutableArray *list =
[[NSMutableArray alloc] initWithCapacity:[value count]];
for (GPBMessage *listValue in value) {
GPBMessage *copiedValue = [listValue copyWithZone:zone];
[list addObject:copiedValue];
[copiedValue release];
}
[result setObject:list forKey:extension];
[list release];
} else {
NSMutableArray *copiedValue = [value mutableCopyWithZone:zone];
[result setObject:copiedValue forKey:extension];
[copiedValue release];
}
} else {
if (isMessageExtension) {
GPBMessage *copiedValue = [value copyWithZone:zone];
[result setObject:copiedValue forKey:extension];
[copiedValue release];
} else {
[result setObject:value forKey:extension];
}
}
}
return result;
}
static id CreateArrayForField(GPBFieldDescriptor *field,
GPBMessage *autocreator) {
id result;
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
case GPBDataTypeBool:
result = [[GPBBoolArray alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt32Array alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt32Array alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt64Array alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt64Array alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBFloatArray alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBDoubleArray alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBEnumArray alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeGroup:
case GPBDataTypeMessage:
case GPBDataTypeString:
if (autocreator) {
result = [[GPBAutocreatedArray alloc] init];
} else {
result = [[NSMutableArray alloc] init];
}
break;
}
if (autocreator) {
if (GPBDataTypeIsObject(fieldDataType)) {
GPBAutocreatedArray *autoArray = result;
autoArray->_autocreator = autocreator;
} else {
GPBInt32Array *gpbArray = result;
gpbArray->_autocreator = autocreator;
}
}
return result;
}
static id CreateMapForField(GPBFieldDescriptor *field,
GPBMessage *autocreator) {
id result;
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = GPBGetFieldDataType(field);
switch (keyDataType) {
case GPBDataTypeBool:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBBoolBoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBBoolUInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBBoolInt32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBBoolUInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBBoolInt64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBBoolFloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBBoolDoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBBoolEnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBBoolObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBUInt32BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt32UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBUInt32Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt32UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBUInt32Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBUInt32FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBUInt32DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBUInt32EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBUInt32ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBInt32BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBInt32UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt32Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBInt32UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt32Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBInt32FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBInt32DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBInt32EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBInt32ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBUInt64BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBUInt64UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBUInt64Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBUInt64UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBUInt64Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBUInt64FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBUInt64DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBUInt64EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBUInt64ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBInt64BoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBInt64UInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBInt64Int32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBInt64UInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBInt64Int64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBInt64FloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBInt64DoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBInt64EnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
result = [[GPBInt64ObjectDictionary alloc] init];
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeString:
switch (valueDataType) {
case GPBDataTypeBool:
result = [[GPBStringBoolDictionary alloc] init];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
result = [[GPBStringUInt32Dictionary alloc] init];
break;
case GPBDataTypeInt32:
case GPBDataTypeSFixed32:
case GPBDataTypeSInt32:
result = [[GPBStringInt32Dictionary alloc] init];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
result = [[GPBStringUInt64Dictionary alloc] init];
break;
case GPBDataTypeInt64:
case GPBDataTypeSFixed64:
case GPBDataTypeSInt64:
result = [[GPBStringInt64Dictionary alloc] init];
break;
case GPBDataTypeFloat:
result = [[GPBStringFloatDictionary alloc] init];
break;
case GPBDataTypeDouble:
result = [[GPBStringDoubleDictionary alloc] init];
break;
case GPBDataTypeEnum:
result = [[GPBStringEnumDictionary alloc]
initWithValidationFunction:field.enumDescriptor.enumVerifier];
break;
case GPBDataTypeBytes:
case GPBDataTypeMessage:
case GPBDataTypeString:
if (autocreator) {
result = [[GPBAutocreatedDictionary alloc] init];
} else {
result = [[NSMutableDictionary alloc] init];
}
break;
case GPBDataTypeGroup:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
break;
case GPBDataTypeFloat:
case GPBDataTypeDouble:
case GPBDataTypeEnum:
case GPBDataTypeBytes:
case GPBDataTypeGroup:
case GPBDataTypeMessage:
NSCAssert(NO, @"shouldn't happen");
return nil;
}
if (autocreator) {
if ((keyDataType == GPBDataTypeString) &&
GPBDataTypeIsObject(valueDataType)) {
GPBAutocreatedDictionary *autoDict = result;
autoDict->_autocreator = autocreator;
} else {
GPBInt32Int32Dictionary *gpbDict = result;
gpbDict->_autocreator = autocreator;
}
}
return result;
}
#if !defined(__clang_analyzer__)
// These functions are blocked from the analyzer because the analyzer sees the
// GPBSetRetainedObjectIvarWithFieldInternal() call as consuming the array/map,
// so use of the array/map after the call returns is flagged as a use after
// free.
// But GPBSetRetainedObjectIvarWithFieldInternal() is "consuming" the retain
// count be holding onto the object (it is transfering it), the object is
// still valid after returning from the call. The other way to avoid this
// would be to add a -retain/-autorelease, but that would force every
// repeated/map field parsed into the autorelease pool which is both a memory
// and performance hit.
static id GetOrCreateArrayIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax) {
id array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
// No lock needed, this is called from places expecting to mutate
// so no threading protection is needed.
array = CreateArrayForField(field, nil);
GPBSetRetainedObjectIvarWithFieldInternal(self, field, array, syntax);
}
return array;
}
// This is like GPBGetObjectIvarWithField(), but for arrays, it should
// only be used to wire the method into the class.
static id GetArrayIvarWithField(GPBMessage *self, GPBFieldDescriptor *field) {
id array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
// Check again after getting the lock.
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(self->readOnlySemaphore_, DISPATCH_TIME_FOREVER);
array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!array) {
array = CreateArrayForField(field, self);
GPBSetAutocreatedRetainedObjectIvarWithField(self, field, array);
}
dispatch_semaphore_signal(self->readOnlySemaphore_);
}
return array;
}
static id GetOrCreateMapIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax) {
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
// No lock needed, this is called from places expecting to mutate
// so no threading protection is needed.
dict = CreateMapForField(field, nil);
GPBSetRetainedObjectIvarWithFieldInternal(self, field, dict, syntax);
}
return dict;
}
// This is like GPBGetObjectIvarWithField(), but for maps, it should
// only be used to wire the method into the class.
static id GetMapIvarWithField(GPBMessage *self, GPBFieldDescriptor *field) {
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
// Check again after getting the lock.
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(self->readOnlySemaphore_, DISPATCH_TIME_FOREVER);
dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!dict) {
dict = CreateMapForField(field, self);
GPBSetAutocreatedRetainedObjectIvarWithField(self, field, dict);
}
dispatch_semaphore_signal(self->readOnlySemaphore_);
}
return dict;
}
#endif // !defined(__clang_analyzer__)
GPBMessage *GPBCreateMessageWithAutocreator(Class msgClass,
GPBMessage *autocreator,
GPBFieldDescriptor *field) {
GPBMessage *message = [[msgClass alloc] init];
message->autocreator_ = autocreator;
message->autocreatorField_ = [field retain];
return message;
}
static GPBMessage *CreateMessageWithAutocreatorForExtension(
Class msgClass, GPBMessage *autocreator, GPBExtensionDescriptor *extension)
__attribute__((ns_returns_retained));
static GPBMessage *CreateMessageWithAutocreatorForExtension(
Class msgClass, GPBMessage *autocreator,
GPBExtensionDescriptor *extension) {
GPBMessage *message = [[msgClass alloc] init];
message->autocreator_ = autocreator;
message->autocreatorExtension_ = [extension retain];
return message;
}
BOOL GPBWasMessageAutocreatedBy(GPBMessage *message, GPBMessage *parent) {
return (message->autocreator_ == parent);
}
void GPBBecomeVisibleToAutocreator(GPBMessage *self) {
// Message objects that are implicitly created by accessing a message field
// are initially not visible via the hasX selector. This method makes them
// visible.
if (self->autocreator_) {
// This will recursively make all parent messages visible until it reaches a
// super-creator that's visible.
if (self->autocreatorField_) {
GPBFileSyntax syntax = [self->autocreator_ descriptor].file.syntax;
GPBSetObjectIvarWithFieldInternal(self->autocreator_,
self->autocreatorField_, self, syntax);
} else {
[self->autocreator_ setExtension:self->autocreatorExtension_ value:self];
}
}
}
void GPBAutocreatedArrayModified(GPBMessage *self, id array) {
// When one of our autocreated arrays adds elements, make it visible.
GPBDescriptor *descriptor = [[self class] descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (field.fieldType == GPBFieldTypeRepeated) {
id curArray = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (curArray == array) {
if (GPBFieldDataTypeIsObject(field)) {
GPBAutocreatedArray *autoArray = array;
autoArray->_autocreator = nil;
} else {
GPBInt32Array *gpbArray = array;
gpbArray->_autocreator = nil;
}
GPBBecomeVisibleToAutocreator(self);
return;
}
}
}
NSCAssert(NO, @"Unknown autocreated %@ for %@.", [array class], self);
}
void GPBAutocreatedDictionaryModified(GPBMessage *self, id dictionary) {
// When one of our autocreated dicts adds elements, make it visible.
GPBDescriptor *descriptor = [[self class] descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (field.fieldType == GPBFieldTypeMap) {
id curDict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (curDict == dictionary) {
if ((field.mapKeyDataType == GPBDataTypeString) &&
GPBFieldDataTypeIsObject(field)) {
GPBAutocreatedDictionary *autoDict = dictionary;
autoDict->_autocreator = nil;
} else {
GPBInt32Int32Dictionary *gpbDict = dictionary;
gpbDict->_autocreator = nil;
}
GPBBecomeVisibleToAutocreator(self);
return;
}
}
}
NSCAssert(NO, @"Unknown autocreated %@ for %@.", [dictionary class], self);
}
void GPBClearMessageAutocreator(GPBMessage *self) {
if ((self == nil) || !self->autocreator_) {
return;
}
#if defined(DEBUG) && DEBUG && !defined(NS_BLOCK_ASSERTIONS)
// Either the autocreator must have its "has" flag set to YES, or it must be
// NO and not equal to ourselves.
BOOL autocreatorHas =
(self->autocreatorField_
? GPBGetHasIvarField(self->autocreator_, self->autocreatorField_)
: [self->autocreator_ hasExtension:self->autocreatorExtension_]);
GPBMessage *autocreatorFieldValue =
(self->autocreatorField_
? GPBGetObjectIvarWithFieldNoAutocreate(self->autocreator_,
self->autocreatorField_)
: [self->autocreator_->autocreatedExtensionMap_
objectForKey:self->autocreatorExtension_]);
NSCAssert(autocreatorHas || autocreatorFieldValue != self,
@"Cannot clear autocreator because it still refers to self, self: %@.",
self);
#endif // DEBUG && !defined(NS_BLOCK_ASSERTIONS)
self->autocreator_ = nil;
[self->autocreatorField_ release];
self->autocreatorField_ = nil;
[self->autocreatorExtension_ release];
self->autocreatorExtension_ = nil;
}
// Call this before using the readOnlySemaphore_. This ensures it is created only once.
void GPBPrepareReadOnlySemaphore(GPBMessage *self) {
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdirect-ivar-access"
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
// Create the semaphore on demand (rather than init) as developers might not cause them
// to be needed, and the heap usage can add up. The atomic swap is used to avoid needing
// another lock around creating it.
if (self->readOnlySemaphore_ == nil) {
dispatch_semaphore_t worker = dispatch_semaphore_create(1);
if (!OSAtomicCompareAndSwapPtrBarrier(NULL, worker, (void * volatile *)&(self->readOnlySemaphore_))) {
dispatch_release(worker);
}
}
#pragma clang diagnostic pop
}
static GPBUnknownFieldSet *GetOrMakeUnknownFields(GPBMessage *self) {
if (!self->unknownFields_) {
self->unknownFields_ = [[GPBUnknownFieldSet alloc] init];
GPBBecomeVisibleToAutocreator(self);
}
return self->unknownFields_;
}
@implementation GPBMessage
+ (void)initialize {
Class pbMessageClass = [GPBMessage class];
if ([self class] == pbMessageClass) {
// This is here to start up the "base" class descriptor.
[self descriptor];
// Message shares extension method resolving with GPBRootObject so insure
// it is started up at the same time.
(void)[GPBRootObject class];
} else if ([self superclass] == pbMessageClass) {
// This is here to start up all the "message" subclasses. Just needs to be
// done for the messages, not any of the subclasses.
// This must be done in initialize to enforce thread safety of start up of
// the protocol buffer library.
// Note: The generated code for -descriptor calls
// +[GPBDescriptor allocDescriptorForClass:...], passing the GPBRootObject
// subclass for the file. That call chain is what ensures that *Root class
// is started up to support extension resolution off the message class
// (+resolveClassMethod: below) in a thread safe manner.
[self descriptor];
}
}
+ (instancetype)allocWithZone:(NSZone *)zone {
// Override alloc to allocate our classes with the additional storage
// required for the instance variables.
GPBDescriptor *descriptor = [self descriptor];
return NSAllocateObject(self, descriptor->storageSize_, zone);
}
+ (instancetype)alloc {
return [self allocWithZone:nil];
}
+ (GPBDescriptor *)descriptor {
// This is thread safe because it is called from +initialize.
static GPBDescriptor *descriptor = NULL;
static GPBFileDescriptor *fileDescriptor = NULL;
if (!descriptor) {
// Use a dummy file that marks it as proto2 syntax so when used generically
// it supports unknowns/etc.
fileDescriptor =
[[GPBFileDescriptor alloc] initWithPackage:@"internal"
syntax:GPBFileSyntaxProto2];
descriptor = [GPBDescriptor allocDescriptorForClass:[GPBMessage class]
rootClass:Nil
file:fileDescriptor
fields:NULL
fieldCount:0
storageSize:0
Shrink ObjC overhead (generated size and some runtime sizes) NOTE: This is a binary breaking change as structure sizes have changed size and/or order. - Drop capturing field options, no other options were captured and other mobile targeted languages don't try to capture this sort information (saved 8 bytes for every field defined (in static data and again in field descriptor instance size data). - No longer generate/compile in the messages/enums in descriptor.proto. If developers need it, they should generate it and compile it in. Reduced the overhead of the core library. - Compute the number of has_bits actually needs to avoid over reserving. - Let the boolean single fields store via a has_bit to avoid storage, makes the common cases of the instance size smaller. - Reorder some flags and down size the enums to contain the bits needed. - Reorder the items in the structures to manually ensure they are are packed better (especially when generating 64bit code - 8 bytes for every field, 16 bytes for every extension, instance sizes 8 bytes also). - Split off the structure initialization so when the default is zero, the generated static storage doesn't need to reserve the space. This is batched at the message level, so all the fields for the message have to have zero defaults to get the saves. By definition all proto3 syntax files fall into this case but it also saves space for the proto2 that use the standard defaults. (saves 8 bytes of static data for every field that had a zero default) - Don't track the enums defined by a message. Nothing in the runtime needs it and it was just generation and runtime overhead. (saves 8 bytes per enum) - Ensure EnumDescriptors are started up threadsafe in all cases. - Split some of the Descriptor initialization into multiple methods so the generated code isn't padded with lots of zero/nil args. - Change how oneof info is feed to the runtime enabling us to generate less static data (8 bytes saved per oneof for 64bit). - Change how enum value informat is capture to pack the data and only decode it if it ends up being needed. Avoids padding issues causing bloat of 64bit, and removes the needs for extra pointers in addition to the data (just the data and one pointer now).
9 years ago
flags:0];
}
return descriptor;
}
+ (instancetype)message {
return [[[self alloc] init] autorelease];
}
- (instancetype)init {
if ((self = [super init])) {
messageStorage_ = (GPBMessage_StoragePtr)(
((uint8_t *)self) + class_getInstanceSize([self class]));
}
return self;
}
- (instancetype)initWithData:(NSData *)data error:(NSError **)errorPtr {
return [self initWithData:data extensionRegistry:nil error:errorPtr];
}
- (instancetype)initWithData:(NSData *)data
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
if ((self = [self init])) {
@try {
[self mergeFromData:data extensionRegistry:extensionRegistry];
if (errorPtr) {
*errorPtr = nil;
}
}
@catch (NSException *exception) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = ErrorFromException(exception);
}
}
#ifdef DEBUG
if (self && !self.initialized) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = MessageError(GPBMessageErrorCodeMissingRequiredField, nil);
}
}
#endif
}
return self;
}
- (instancetype)initWithCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:
(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
if ((self = [self init])) {
@try {
[self mergeFromCodedInputStream:input extensionRegistry:extensionRegistry];
if (errorPtr) {
*errorPtr = nil;
}
}
@catch (NSException *exception) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = ErrorFromException(exception);
}
}
#ifdef DEBUG
if (self && !self.initialized) {
[self release];
self = nil;
if (errorPtr) {
*errorPtr = MessageError(GPBMessageErrorCodeMissingRequiredField, nil);
}
}
#endif
}
return self;
}
- (void)dealloc {
[self internalClear:NO];
NSCAssert(!autocreator_, @"Autocreator was not cleared before dealloc.");
if (readOnlySemaphore_) {
dispatch_release(readOnlySemaphore_);
}
[super dealloc];
}
- (void)copyFieldsInto:(GPBMessage *)message
zone:(NSZone *)zone
descriptor:(GPBDescriptor *)descriptor {
// Copy all the storage...
memcpy(message->messageStorage_, messageStorage_, descriptor->storageSize_);
GPBFileSyntax syntax = descriptor.file.syntax;
// Loop over the fields doing fixup...
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (GPBFieldIsMapOrArray(field)) {
id value = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (value) {
// We need to copy the array/map, but the catch is for message fields,
// we also need to ensure all the messages as those need copying also.
id newValue;
if (GPBFieldDataTypeIsMessage(field)) {
if (field.fieldType == GPBFieldTypeRepeated) {
NSArray *existingArray = (NSArray *)value;
NSMutableArray *newArray =
[[NSMutableArray alloc] initWithCapacity:existingArray.count];
newValue = newArray;
for (GPBMessage *msg in existingArray) {
GPBMessage *copiedMsg = [msg copyWithZone:zone];
[newArray addObject:copiedMsg];
[copiedMsg release];
}
} else {
if (field.mapKeyDataType == GPBDataTypeString) {
// Map is an NSDictionary.
NSDictionary *existingDict = value;
NSMutableDictionary *newDict = [[NSMutableDictionary alloc]
initWithCapacity:existingDict.count];
newValue = newDict;
[existingDict enumerateKeysAndObjectsUsingBlock:^(NSString *key,
GPBMessage *msg,
BOOL *stop) {
#pragma unused(stop)
GPBMessage *copiedMsg = [msg copyWithZone:zone];
[newDict setObject:copiedMsg forKey:key];
[copiedMsg release];
}];
} else {
// Is one of the GPB*ObjectDictionary classes. Type doesn't
// matter, just need one to invoke the selector.
GPBInt32ObjectDictionary *existingDict = value;
newValue = [existingDict deepCopyWithZone:zone];
}
}
} else {
// Not messages (but is a map/array)...
if (field.fieldType == GPBFieldTypeRepeated) {
if (GPBFieldDataTypeIsObject(field)) {
// NSArray
newValue = [value mutableCopyWithZone:zone];
} else {
// GPB*Array
newValue = [value copyWithZone:zone];
}
} else {
if (field.mapKeyDataType == GPBDataTypeString) {
// NSDictionary
newValue = [value mutableCopyWithZone:zone];
} else {
// Is one of the GPB*Dictionary classes. Type doesn't matter,
// just need one to invoke the selector.
GPBInt32Int32Dictionary *existingDict = value;
newValue = [existingDict copyWithZone:zone];
}
}
}
// We retain here because the memcpy picked up the pointer value and
// the next call to SetRetainedObject... will release the current value.
[value retain];
GPBSetRetainedObjectIvarWithFieldInternal(message, field, newValue,
syntax);
}
} else if (GPBFieldDataTypeIsMessage(field)) {
// For object types, if we have a value, copy it. If we don't,
// zero it to remove the pointer to something that was autocreated
// (and the ptr just got memcpyed).
if (GPBGetHasIvarField(self, field)) {
GPBMessage *value = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
GPBMessage *newValue = [value copyWithZone:zone];
// We retain here because the memcpy picked up the pointer value and
// the next call to SetRetainedObject... will release the current value.
[value retain];
GPBSetRetainedObjectIvarWithFieldInternal(message, field, newValue,
syntax);
} else {
uint8_t *storage = (uint8_t *)message->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
*typePtr = NULL;
}
} else if (GPBFieldDataTypeIsObject(field) &&
GPBGetHasIvarField(self, field)) {
// A set string/data value (message picked off above), copy it.
id value = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
id newValue = [value copyWithZone:zone];
// We retain here because the memcpy picked up the pointer value and
// the next call to SetRetainedObject... will release the current value.
[value retain];
GPBSetRetainedObjectIvarWithFieldInternal(message, field, newValue,
syntax);
} else {
// memcpy took care of the rest of the primitive fields if they were set.
}
} // for (field in descriptor->fields_)
}
- (id)copyWithZone:(NSZone *)zone {
GPBDescriptor *descriptor = [self descriptor];
GPBMessage *result = [[descriptor.messageClass allocWithZone:zone] init];
[self copyFieldsInto:result zone:zone descriptor:descriptor];
// Make immutable copies of the extra bits.
result->unknownFields_ = [unknownFields_ copyWithZone:zone];
result->extensionMap_ = CloneExtensionMap(extensionMap_, zone);
return result;
}
- (void)clear {
[self internalClear:YES];
}
- (void)internalClear:(BOOL)zeroStorage {
GPBDescriptor *descriptor = [self descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (GPBFieldIsMapOrArray(field)) {
id arrayOrMap = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (arrayOrMap) {
if (field.fieldType == GPBFieldTypeRepeated) {
if (GPBFieldDataTypeIsObject(field)) {
if ([arrayOrMap isKindOfClass:[GPBAutocreatedArray class]]) {
GPBAutocreatedArray *autoArray = arrayOrMap;
if (autoArray->_autocreator == self) {
autoArray->_autocreator = nil;
}
}
} else {
// Type doesn't matter, it is a GPB*Array.
GPBInt32Array *gpbArray = arrayOrMap;
if (gpbArray->_autocreator == self) {
gpbArray->_autocreator = nil;
}
}
} else {
if ((field.mapKeyDataType == GPBDataTypeString) &&
GPBFieldDataTypeIsObject(field)) {
if ([arrayOrMap isKindOfClass:[GPBAutocreatedDictionary class]]) {
GPBAutocreatedDictionary *autoDict = arrayOrMap;
if (autoDict->_autocreator == self) {
autoDict->_autocreator = nil;
}
}
} else {
// Type doesn't matter, it is a GPB*Dictionary.
GPBInt32Int32Dictionary *gpbDict = arrayOrMap;
if (gpbDict->_autocreator == self) {
gpbDict->_autocreator = nil;
}
}
}
[arrayOrMap release];
}
} else if (GPBFieldDataTypeIsMessage(field)) {
GPBClearAutocreatedMessageIvarWithField(self, field);
GPBMessage *value = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[value release];
} else if (GPBFieldDataTypeIsObject(field) &&
GPBGetHasIvarField(self, field)) {
id value = GPBGetObjectIvarWithField(self, field);
[value release];
}
}
// GPBClearMessageAutocreator() expects that its caller has already been
// removed from autocreatedExtensionMap_ so we set to nil first.
NSArray *autocreatedValues = [autocreatedExtensionMap_ allValues];
[autocreatedExtensionMap_ release];
autocreatedExtensionMap_ = nil;
// Since we're clearing all of our extensions, make sure that we clear the
// autocreator on any that we've created so they no longer refer to us.
for (GPBMessage *value in autocreatedValues) {
NSCAssert(GPBWasMessageAutocreatedBy(value, self),
@"Autocreated extension does not refer back to self.");
GPBClearMessageAutocreator(value);
}
[extensionMap_ release];
extensionMap_ = nil;
[unknownFields_ release];
unknownFields_ = nil;
// Note that clearing does not affect autocreator_. If we are being cleared
// because of a dealloc, then autocreator_ should be nil anyway. If we are
// being cleared because someone explicitly clears us, we don't want to
// sever our relationship with our autocreator.
if (zeroStorage) {
memset(messageStorage_, 0, descriptor->storageSize_);
}
}
- (BOOL)isInitialized {
GPBDescriptor *descriptor = [self descriptor];
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (field.isRequired) {
if (!GPBGetHasIvarField(self, field)) {
return NO;
}
}
if (GPBFieldDataTypeIsMessage(field)) {
GPBFieldType fieldType = field.fieldType;
if (fieldType == GPBFieldTypeSingle) {
if (field.isRequired) {
GPBMessage *message = GPBGetMessageMessageField(self, field);
if (!message.initialized) {
return NO;
}
} else {
NSAssert(field.isOptional,
@"%@: Single message field %@ not required or optional?",
[self class], field.name);
if (GPBGetHasIvarField(self, field)) {
GPBMessage *message = GPBGetMessageMessageField(self, field);
if (!message.initialized) {
return NO;
}
}
}
} else if (fieldType == GPBFieldTypeRepeated) {
NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
for (GPBMessage *message in array) {
if (!message.initialized) {
return NO;
}
}
} else { // fieldType == GPBFieldTypeMap
if (field.mapKeyDataType == GPBDataTypeString) {
NSDictionary *map =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (map && !GPBDictionaryIsInitializedInternalHelper(map, field)) {
return NO;
}
} else {
// Real type is GPB*ObjectDictionary, exact type doesn't matter.
GPBInt32ObjectDictionary *map =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (map && ![map isInitialized]) {
return NO;
}
}
}
}
}
__block BOOL result = YES;
[extensionMap_
enumerateKeysAndObjectsUsingBlock:^(GPBExtensionDescriptor *extension,
id obj,
BOOL *stop) {
if (GPBExtensionIsMessage(extension)) {
if (extension.isRepeated) {
for (GPBMessage *msg in obj) {
if (!msg.initialized) {
result = NO;
*stop = YES;
break;
}
}
} else {
GPBMessage *asMsg = obj;
if (!asMsg.initialized) {
result = NO;
*stop = YES;
}
}
}
}];
return result;
}
- (GPBDescriptor *)descriptor {
return [[self class] descriptor];
}
- (NSData *)data {
#ifdef DEBUG
if (!self.initialized) {
return nil;
}
#endif
NSMutableData *data = [NSMutableData dataWithLength:[self serializedSize]];
GPBCodedOutputStream *stream =
[[GPBCodedOutputStream alloc] initWithData:data];
@try {
[self writeToCodedOutputStream:stream];
}
@catch (NSException *exception) {
// This really shouldn't happen. The only way writeToCodedOutputStream:
// could throw is if something in the library has a bug and the
// serializedSize was wrong.
#ifdef DEBUG
NSLog(@"%@: Internal exception while building message data: %@",
[self class], exception);
#endif
data = nil;
}
[stream release];
return data;
}
- (NSData *)delimitedData {
size_t serializedSize = [self serializedSize];
size_t varintSize = GPBComputeRawVarint32SizeForInteger(serializedSize);
NSMutableData *data =
[NSMutableData dataWithLength:(serializedSize + varintSize)];
GPBCodedOutputStream *stream =
[[GPBCodedOutputStream alloc] initWithData:data];
@try {
[self writeDelimitedToCodedOutputStream:stream];
}
@catch (NSException *exception) {
// This really shouldn't happen. The only way writeToCodedOutputStream:
// could throw is if something in the library has a bug and the
// serializedSize was wrong.
#ifdef DEBUG
NSLog(@"%@: Internal exception while building message delimitedData: %@",
[self class], exception);
#endif
// If it happens, truncate.
data.length = 0;
}
[stream release];
return data;
}
- (void)writeToOutputStream:(NSOutputStream *)output {
GPBCodedOutputStream *stream =
[[GPBCodedOutputStream alloc] initWithOutputStream:output];
[self writeToCodedOutputStream:stream];
[stream release];
}
- (void)writeToCodedOutputStream:(GPBCodedOutputStream *)output {
GPBDescriptor *descriptor = [self descriptor];
NSArray *fieldsArray = descriptor->fields_;
NSUInteger fieldCount = fieldsArray.count;
const GPBExtensionRange *extensionRanges = descriptor.extensionRanges;
NSUInteger extensionRangesCount = descriptor.extensionRangesCount;
for (NSUInteger i = 0, j = 0; i < fieldCount || j < extensionRangesCount;) {
if (i == fieldCount) {
[self writeExtensionsToCodedOutputStream:output
range:extensionRanges[j++]];
} else if (j == extensionRangesCount ||
GPBFieldNumber(fieldsArray[i]) < extensionRanges[j].start) {
[self writeField:fieldsArray[i++] toCodedOutputStream:output];
} else {
[self writeExtensionsToCodedOutputStream:output
range:extensionRanges[j++]];
}
}
if (descriptor.isWireFormat) {
[unknownFields_ writeAsMessageSetTo:output];
} else {
[unknownFields_ writeToCodedOutputStream:output];
}
}
- (void)writeDelimitedToOutputStream:(NSOutputStream *)output {
GPBCodedOutputStream *codedOutput =
[[GPBCodedOutputStream alloc] initWithOutputStream:output];
[self writeDelimitedToCodedOutputStream:codedOutput];
[codedOutput release];
}
- (void)writeDelimitedToCodedOutputStream:(GPBCodedOutputStream *)output {
[output writeRawVarintSizeTAs32:[self serializedSize]];
[self writeToCodedOutputStream:output];
}
- (void)writeField:(GPBFieldDescriptor *)field
toCodedOutputStream:(GPBCodedOutputStream *)output {
GPBFieldType fieldType = field.fieldType;
if (fieldType == GPBFieldTypeSingle) {
BOOL has = GPBGetHasIvarField(self, field);
if (!has) {
return;
}
}
uint32_t fieldNumber = GPBFieldNumber(field);
//%PDDM-DEFINE FIELD_CASE(TYPE, REAL_TYPE)
//%FIELD_CASE_FULL(TYPE, REAL_TYPE, REAL_TYPE)
//%PDDM-DEFINE FIELD_CASE_FULL(TYPE, REAL_TYPE, ARRAY_TYPE)
//% case GPBDataType##TYPE:
//% if (fieldType == GPBFieldTypeRepeated) {
//% uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
//% GPB##ARRAY_TYPE##Array *array =
//% GPBGetObjectIvarWithFieldNoAutocreate(self, field);
//% [output write##TYPE##Array:fieldNumber values:array tag:tag];
//% } else if (fieldType == GPBFieldTypeSingle) {
//% [output write##TYPE:fieldNumber
//% TYPE$S value:GPBGetMessage##REAL_TYPE##Field(self, field)];
//% } else { // fieldType == GPBFieldTypeMap
//% // Exact type here doesn't matter.
//% GPBInt32##ARRAY_TYPE##Dictionary *dict =
//% GPBGetObjectIvarWithFieldNoAutocreate(self, field);
//% [dict writeToCodedOutputStream:output asField:field];
//% }
//% break;
//%
//%PDDM-DEFINE FIELD_CASE2(TYPE)
//% case GPBDataType##TYPE:
//% if (fieldType == GPBFieldTypeRepeated) {
//% NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
//% [output write##TYPE##Array:fieldNumber values:array];
//% } else if (fieldType == GPBFieldTypeSingle) {
//% // GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has check
//% // again.
//% [output write##TYPE:fieldNumber
//% TYPE$S value:GPBGetObjectIvarWithFieldNoAutocreate(self, field)];
//% } else { // fieldType == GPBFieldTypeMap
//% // Exact type here doesn't matter.
//% id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
//% GPBDataType mapKeyDataType = field.mapKeyDataType;
//% if (mapKeyDataType == GPBDataTypeString) {
//% GPBDictionaryWriteToStreamInternalHelper(output, dict, field);
//% } else {
//% [dict writeToCodedOutputStream:output asField:field];
//% }
//% }
//% break;
//%
switch (GPBGetFieldDataType(field)) {
//%PDDM-EXPAND FIELD_CASE(Bool, Bool)
// This block of code is generated, do not edit it directly.
case GPBDataTypeBool:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBBoolArray *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeBoolArray:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeBool:fieldNumber
value:GPBGetMessageBoolField(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32BoolDictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Fixed32, UInt32)
// This block of code is generated, do not edit it directly.
case GPBDataTypeFixed32:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBUInt32Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeFixed32Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeFixed32:fieldNumber
value:GPBGetMessageUInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32UInt32Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(SFixed32, Int32)
// This block of code is generated, do not edit it directly.
case GPBDataTypeSFixed32:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt32Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeSFixed32Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeSFixed32:fieldNumber
value:GPBGetMessageInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int32Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Float, Float)
// This block of code is generated, do not edit it directly.
case GPBDataTypeFloat:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBFloatArray *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeFloatArray:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeFloat:fieldNumber
value:GPBGetMessageFloatField(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32FloatDictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Fixed64, UInt64)
// This block of code is generated, do not edit it directly.
case GPBDataTypeFixed64:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBUInt64Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeFixed64Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeFixed64:fieldNumber
value:GPBGetMessageUInt64Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32UInt64Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(SFixed64, Int64)
// This block of code is generated, do not edit it directly.
case GPBDataTypeSFixed64:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt64Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeSFixed64Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeSFixed64:fieldNumber
value:GPBGetMessageInt64Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int64Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Double, Double)
// This block of code is generated, do not edit it directly.
case GPBDataTypeDouble:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBDoubleArray *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeDoubleArray:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeDouble:fieldNumber
value:GPBGetMessageDoubleField(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32DoubleDictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Int32, Int32)
// This block of code is generated, do not edit it directly.
case GPBDataTypeInt32:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt32Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeInt32Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeInt32:fieldNumber
value:GPBGetMessageInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int32Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(Int64, Int64)
// This block of code is generated, do not edit it directly.
case GPBDataTypeInt64:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt64Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeInt64Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeInt64:fieldNumber
value:GPBGetMessageInt64Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int64Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(SInt32, Int32)
// This block of code is generated, do not edit it directly.
case GPBDataTypeSInt32:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt32Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeSInt32Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeSInt32:fieldNumber
value:GPBGetMessageInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int32Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(SInt64, Int64)
// This block of code is generated, do not edit it directly.
case GPBDataTypeSInt64:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBInt64Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeSInt64Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeSInt64:fieldNumber
value:GPBGetMessageInt64Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32Int64Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(UInt32, UInt32)
// This block of code is generated, do not edit it directly.
case GPBDataTypeUInt32:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBUInt32Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeUInt32Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeUInt32:fieldNumber
value:GPBGetMessageUInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32UInt32Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE(UInt64, UInt64)
// This block of code is generated, do not edit it directly.
case GPBDataTypeUInt64:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBUInt64Array *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeUInt64Array:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeUInt64:fieldNumber
value:GPBGetMessageUInt64Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32UInt64Dictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE_FULL(Enum, Int32, Enum)
// This block of code is generated, do not edit it directly.
case GPBDataTypeEnum:
if (fieldType == GPBFieldTypeRepeated) {
uint32_t tag = field.isPackable ? GPBFieldTag(field) : 0;
GPBEnumArray *array =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeEnumArray:fieldNumber values:array tag:tag];
} else if (fieldType == GPBFieldTypeSingle) {
[output writeEnum:fieldNumber
value:GPBGetMessageInt32Field(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
GPBInt32EnumDictionary *dict =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[dict writeToCodedOutputStream:output asField:field];
}
break;
//%PDDM-EXPAND FIELD_CASE2(Bytes)
// This block of code is generated, do not edit it directly.
case GPBDataTypeBytes:
if (fieldType == GPBFieldTypeRepeated) {
NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeBytesArray:fieldNumber values:array];
} else if (fieldType == GPBFieldTypeSingle) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has check
// again.
[output writeBytes:fieldNumber
value:GPBGetObjectIvarWithFieldNoAutocreate(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
GPBDataType mapKeyDataType = field.mapKeyDataType;
if (mapKeyDataType == GPBDataTypeString) {
GPBDictionaryWriteToStreamInternalHelper(output, dict, field);
} else {
[dict writeToCodedOutputStream:output asField:field];
}
}
break;
//%PDDM-EXPAND FIELD_CASE2(String)
// This block of code is generated, do not edit it directly.
case GPBDataTypeString:
if (fieldType == GPBFieldTypeRepeated) {
NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeStringArray:fieldNumber values:array];
} else if (fieldType == GPBFieldTypeSingle) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has check
// again.
[output writeString:fieldNumber
value:GPBGetObjectIvarWithFieldNoAutocreate(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
GPBDataType mapKeyDataType = field.mapKeyDataType;
if (mapKeyDataType == GPBDataTypeString) {
GPBDictionaryWriteToStreamInternalHelper(output, dict, field);
} else {
[dict writeToCodedOutputStream:output asField:field];
}
}
break;
//%PDDM-EXPAND FIELD_CASE2(Message)
// This block of code is generated, do not edit it directly.
case GPBDataTypeMessage:
if (fieldType == GPBFieldTypeRepeated) {
NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeMessageArray:fieldNumber values:array];
} else if (fieldType == GPBFieldTypeSingle) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has check
// again.
[output writeMessage:fieldNumber
value:GPBGetObjectIvarWithFieldNoAutocreate(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
GPBDataType mapKeyDataType = field.mapKeyDataType;
if (mapKeyDataType == GPBDataTypeString) {
GPBDictionaryWriteToStreamInternalHelper(output, dict, field);
} else {
[dict writeToCodedOutputStream:output asField:field];
}
}
break;
//%PDDM-EXPAND FIELD_CASE2(Group)
// This block of code is generated, do not edit it directly.
case GPBDataTypeGroup:
if (fieldType == GPBFieldTypeRepeated) {
NSArray *array = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[output writeGroupArray:fieldNumber values:array];
} else if (fieldType == GPBFieldTypeSingle) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has check
// again.
[output writeGroup:fieldNumber
value:GPBGetObjectIvarWithFieldNoAutocreate(self, field)];
} else { // fieldType == GPBFieldTypeMap
// Exact type here doesn't matter.
id dict = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
GPBDataType mapKeyDataType = field.mapKeyDataType;
if (mapKeyDataType == GPBDataTypeString) {
GPBDictionaryWriteToStreamInternalHelper(output, dict, field);
} else {
[dict writeToCodedOutputStream:output asField:field];
}
}
break;
//%PDDM-EXPAND-END (18 expansions)
}
}
#pragma mark - Extensions
- (id)getExtension:(GPBExtensionDescriptor *)extension {
CheckExtension(self, extension);
id value = [extensionMap_ objectForKey:extension];
if (value != nil) {
return value;
}
// No default for repeated.
if (extension.isRepeated) {
return nil;
}
// Non messages get their default.
if (!GPBExtensionIsMessage(extension)) {
return extension.defaultValue;
}
// Check for an autocreated value.
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(readOnlySemaphore_, DISPATCH_TIME_FOREVER);
value = [autocreatedExtensionMap_ objectForKey:extension];
if (!value) {
// Auto create the message extensions to match normal fields.
value = CreateMessageWithAutocreatorForExtension(extension.msgClass, self,
extension);
if (autocreatedExtensionMap_ == nil) {
autocreatedExtensionMap_ = [[NSMutableDictionary alloc] init];
}
// We can't simply call setExtension here because that would clear the new
// value's autocreator.
[autocreatedExtensionMap_ setObject:value forKey:extension];
[value release];
}
dispatch_semaphore_signal(readOnlySemaphore_);
return value;
}
- (id)getExistingExtension:(GPBExtensionDescriptor *)extension {
// This is an internal method so we don't need to call CheckExtension().
return [extensionMap_ objectForKey:extension];
}
- (BOOL)hasExtension:(GPBExtensionDescriptor *)extension {
#if defined(DEBUG) && DEBUG
CheckExtension(self, extension);
#endif // DEBUG
return nil != [extensionMap_ objectForKey:extension];
}
- (NSArray *)extensionsCurrentlySet {
return [extensionMap_ allKeys];
}
- (void)writeExtensionsToCodedOutputStream:(GPBCodedOutputStream *)output
range:(GPBExtensionRange)range {
NSArray *sortedExtensions = [[extensionMap_ allKeys]
sortedArrayUsingSelector:@selector(compareByFieldNumber:)];
uint32_t start = range.start;
uint32_t end = range.end;
for (GPBExtensionDescriptor *extension in sortedExtensions) {
uint32_t fieldNumber = extension.fieldNumber;
if (fieldNumber >= start && fieldNumber < end) {
id value = [extensionMap_ objectForKey:extension];
GPBWriteExtensionValueToOutputStream(extension, value, output);
}
}
}
- (void)setExtension:(GPBExtensionDescriptor *)extension value:(id)value {
if (!value) {
[self clearExtension:extension];
return;
}
CheckExtension(self, extension);
if (extension.repeated) {
[NSException raise:NSInvalidArgumentException
format:@"Must call addExtension() for repeated types."];
}
if (extensionMap_ == nil) {
extensionMap_ = [[NSMutableDictionary alloc] init];
}
// This pointless cast is for CLANG_WARN_NULLABLE_TO_NONNULL_CONVERSION.
// Without it, the compiler complains we're passing an id nullable when
// setObject:forKey: requires a id nonnull for the value. The check for
// !value at the start of the method ensures it isn't nil, but the check
// isn't smart enough to realize that.
[extensionMap_ setObject:(id)value forKey:extension];
GPBExtensionDescriptor *descriptor = extension;
if (GPBExtensionIsMessage(descriptor) && !descriptor.isRepeated) {
GPBMessage *autocreatedValue =
[[autocreatedExtensionMap_ objectForKey:extension] retain];
// Must remove from the map before calling GPBClearMessageAutocreator() so
// that GPBClearMessageAutocreator() knows its safe to clear.
[autocreatedExtensionMap_ removeObjectForKey:extension];
GPBClearMessageAutocreator(autocreatedValue);
[autocreatedValue release];
}
GPBBecomeVisibleToAutocreator(self);
}
- (void)addExtension:(GPBExtensionDescriptor *)extension value:(id)value {
CheckExtension(self, extension);
if (!extension.repeated) {
[NSException raise:NSInvalidArgumentException
format:@"Must call setExtension() for singular types."];
}
if (extensionMap_ == nil) {
extensionMap_ = [[NSMutableDictionary alloc] init];
}
NSMutableArray *list = [extensionMap_ objectForKey:extension];
if (list == nil) {
list = [NSMutableArray array];
[extensionMap_ setObject:list forKey:extension];
}
[list addObject:value];
GPBBecomeVisibleToAutocreator(self);
}
- (void)setExtension:(GPBExtensionDescriptor *)extension
index:(NSUInteger)idx
value:(id)value {
CheckExtension(self, extension);
if (!extension.repeated) {
[NSException raise:NSInvalidArgumentException
format:@"Must call setExtension() for singular types."];
}
if (extensionMap_ == nil) {
extensionMap_ = [[NSMutableDictionary alloc] init];
}
NSMutableArray *list = [extensionMap_ objectForKey:extension];
[list replaceObjectAtIndex:idx withObject:value];
GPBBecomeVisibleToAutocreator(self);
}
- (void)clearExtension:(GPBExtensionDescriptor *)extension {
CheckExtension(self, extension);
// Only become visible if there was actually a value to clear.
if ([extensionMap_ objectForKey:extension]) {
[extensionMap_ removeObjectForKey:extension];
GPBBecomeVisibleToAutocreator(self);
}
}
#pragma mark - mergeFrom
- (void)mergeFromData:(NSData *)data
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry {
GPBCodedInputStream *input = [[GPBCodedInputStream alloc] initWithData:data];
[self mergeFromCodedInputStream:input extensionRegistry:extensionRegistry];
[input checkLastTagWas:0];
[input release];
}
#pragma mark - mergeDelimitedFrom
- (void)mergeDelimitedFromCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry {
GPBCodedInputStreamState *state = &input->state_;
if (GPBCodedInputStreamIsAtEnd(state)) {
return;
}
NSData *data = GPBCodedInputStreamReadRetainedBytesNoCopy(state);
if (data == nil) {
return;
}
[self mergeFromData:data extensionRegistry:extensionRegistry];
[data release];
}
#pragma mark - Parse From Data Support
+ (instancetype)parseFromData:(NSData *)data error:(NSError **)errorPtr {
return [self parseFromData:data extensionRegistry:nil error:errorPtr];
}
+ (instancetype)parseFromData:(NSData *)data
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
return [[[self alloc] initWithData:data
extensionRegistry:extensionRegistry
error:errorPtr] autorelease];
}
+ (instancetype)parseFromCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
return
[[[self alloc] initWithCodedInputStream:input
extensionRegistry:extensionRegistry
error:errorPtr] autorelease];
}
#pragma mark - Parse Delimited From Data Support
+ (instancetype)parseDelimitedFromCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:
(GPBExtensionRegistry *)extensionRegistry
error:(NSError **)errorPtr {
GPBMessage *message = [[[self alloc] init] autorelease];
@try {
[message mergeDelimitedFromCodedInputStream:input
extensionRegistry:extensionRegistry];
if (errorPtr) {
*errorPtr = nil;
}
}
@catch (NSException *exception) {
message = nil;
if (errorPtr) {
*errorPtr = ErrorFromException(exception);
}
}
#ifdef DEBUG
if (message && !message.initialized) {
message = nil;
if (errorPtr) {
*errorPtr = MessageError(GPBMessageErrorCodeMissingRequiredField, nil);
}
}
#endif
return message;
}
#pragma mark - Unknown Field Support
- (GPBUnknownFieldSet *)unknownFields {
return unknownFields_;
}
- (void)setUnknownFields:(GPBUnknownFieldSet *)unknownFields {
if (unknownFields != unknownFields_) {
[unknownFields_ release];
unknownFields_ = [unknownFields copy];
GPBBecomeVisibleToAutocreator(self);
}
}
- (void)parseMessageSet:(GPBCodedInputStream *)input
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry {
uint32_t typeId = 0;
NSData *rawBytes = nil;
GPBExtensionDescriptor *extension = nil;
GPBCodedInputStreamState *state = &input->state_;
while (true) {
uint32_t tag = GPBCodedInputStreamReadTag(state);
if (tag == 0) {
break;
}
if (tag == GPBWireFormatMessageSetTypeIdTag) {
typeId = GPBCodedInputStreamReadUInt32(state);
if (typeId != 0) {
extension = [extensionRegistry extensionForDescriptor:[self descriptor]
fieldNumber:typeId];
}
} else if (tag == GPBWireFormatMessageSetMessageTag) {
rawBytes =
[GPBCodedInputStreamReadRetainedBytesNoCopy(state) autorelease];
} else {
if (![input skipField:tag]) {
break;
}
}
}
[input checkLastTagWas:GPBWireFormatMessageSetItemEndTag];
if (rawBytes != nil && typeId != 0) {
if (extension != nil) {
GPBCodedInputStream *newInput =
[[GPBCodedInputStream alloc] initWithData:rawBytes];
GPBExtensionMergeFromInputStream(extension,
extension.packable,
newInput,
extensionRegistry,
self);
[newInput release];
} else {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
[unknownFields mergeMessageSetMessage:typeId data:rawBytes];
}
}
}
- (BOOL)parseUnknownField:(GPBCodedInputStream *)input
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry
tag:(uint32_t)tag {
GPBWireFormat wireType = GPBWireFormatGetTagWireType(tag);
int32_t fieldNumber = GPBWireFormatGetTagFieldNumber(tag);
GPBDescriptor *descriptor = [self descriptor];
GPBExtensionDescriptor *extension =
[extensionRegistry extensionForDescriptor:descriptor
fieldNumber:fieldNumber];
if (extension == nil) {
if (descriptor.wireFormat && GPBWireFormatMessageSetItemTag == tag) {
[self parseMessageSet:input extensionRegistry:extensionRegistry];
return YES;
}
} else {
if (extension.wireType == wireType) {
GPBExtensionMergeFromInputStream(extension,
extension.packable,
input,
extensionRegistry,
self);
return YES;
}
// Primitive, repeated types can be packed on unpacked on the wire, and are
// parsed either way.
if ([extension isRepeated] &&
!GPBDataTypeIsObject(extension->description_->dataType) &&
(extension.alternateWireType == wireType)) {
GPBExtensionMergeFromInputStream(extension,
!extension.packable,
input,
extensionRegistry,
self);
return YES;
}
}
if ([GPBUnknownFieldSet isFieldTag:tag]) {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
return [unknownFields mergeFieldFrom:tag input:input];
} else {
return NO;
}
}
- (void)addUnknownMapEntry:(int32_t)fieldNum value:(NSData *)data {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
[unknownFields addUnknownMapEntry:fieldNum value:data];
}
#pragma mark - MergeFromCodedInputStream Support
static void MergeSingleFieldFromCodedInputStream(
GPBMessage *self, GPBFieldDescriptor *field, GPBFileSyntax syntax,
GPBCodedInputStream *input, GPBExtensionRegistry *extensionRegistry) {
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
#define CASE_SINGLE_POD(NAME, TYPE, FUNC_TYPE) \
case GPBDataType##NAME: { \
TYPE val = GPBCodedInputStreamRead##NAME(&input->state_); \
GPBSet##FUNC_TYPE##IvarWithFieldInternal(self, field, val, syntax); \
break; \
}
#define CASE_SINGLE_OBJECT(NAME) \
case GPBDataType##NAME: { \
id val = GPBCodedInputStreamReadRetained##NAME(&input->state_); \
GPBSetRetainedObjectIvarWithFieldInternal(self, field, val, syntax); \
break; \
}
CASE_SINGLE_POD(Bool, BOOL, Bool)
CASE_SINGLE_POD(Fixed32, uint32_t, UInt32)
CASE_SINGLE_POD(SFixed32, int32_t, Int32)
CASE_SINGLE_POD(Float, float, Float)
CASE_SINGLE_POD(Fixed64, uint64_t, UInt64)
CASE_SINGLE_POD(SFixed64, int64_t, Int64)
CASE_SINGLE_POD(Double, double, Double)
CASE_SINGLE_POD(Int32, int32_t, Int32)
CASE_SINGLE_POD(Int64, int64_t, Int64)
CASE_SINGLE_POD(SInt32, int32_t, Int32)
CASE_SINGLE_POD(SInt64, int64_t, Int64)
CASE_SINGLE_POD(UInt32, uint32_t, UInt32)
CASE_SINGLE_POD(UInt64, uint64_t, UInt64)
CASE_SINGLE_OBJECT(Bytes)
CASE_SINGLE_OBJECT(String)
#undef CASE_SINGLE_POD
#undef CASE_SINGLE_OBJECT
case GPBDataTypeMessage: {
if (GPBGetHasIvarField(self, field)) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has
// check again.
GPBMessage *message =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[input readMessage:message extensionRegistry:extensionRegistry];
} else {
GPBMessage *message = [[field.msgClass alloc] init];
[input readMessage:message extensionRegistry:extensionRegistry];
GPBSetRetainedObjectIvarWithFieldInternal(self, field, message, syntax);
}
break;
}
case GPBDataTypeGroup: {
if (GPBGetHasIvarField(self, field)) {
// GPBGetObjectIvarWithFieldNoAutocreate() avoids doing the has
// check again.
GPBMessage *message =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[input readGroup:GPBFieldNumber(field)
message:message
extensionRegistry:extensionRegistry];
} else {
GPBMessage *message = [[field.msgClass alloc] init];
[input readGroup:GPBFieldNumber(field)
message:message
extensionRegistry:extensionRegistry];
GPBSetRetainedObjectIvarWithFieldInternal(self, field, message, syntax);
}
break;
}
case GPBDataTypeEnum: {
int32_t val = GPBCodedInputStreamReadEnum(&input->state_);
if (GPBHasPreservingUnknownEnumSemantics(syntax) ||
[field isValidEnumValue:val]) {
GPBSetInt32IvarWithFieldInternal(self, field, val, syntax);
} else {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
[unknownFields mergeVarintField:GPBFieldNumber(field) value:val];
}
}
} // switch
}
static void MergeRepeatedPackedFieldFromCodedInputStream(
GPBMessage *self, GPBFieldDescriptor *field, GPBFileSyntax syntax,
GPBCodedInputStream *input) {
GPBDataType fieldDataType = GPBGetFieldDataType(field);
GPBCodedInputStreamState *state = &input->state_;
id genericArray = GetOrCreateArrayIvarWithField(self, field, syntax);
int32_t length = GPBCodedInputStreamReadInt32(state);
size_t limit = GPBCodedInputStreamPushLimit(state, length);
while (GPBCodedInputStreamBytesUntilLimit(state) > 0) {
switch (fieldDataType) {
#define CASE_REPEATED_PACKED_POD(NAME, TYPE, ARRAY_TYPE) \
case GPBDataType##NAME: { \
TYPE val = GPBCodedInputStreamRead##NAME(state); \
[(GPB##ARRAY_TYPE##Array *)genericArray addValue:val]; \
break; \
}
CASE_REPEATED_PACKED_POD(Bool, BOOL, Bool)
CASE_REPEATED_PACKED_POD(Fixed32, uint32_t, UInt32)
CASE_REPEATED_PACKED_POD(SFixed32, int32_t, Int32)
CASE_REPEATED_PACKED_POD(Float, float, Float)
CASE_REPEATED_PACKED_POD(Fixed64, uint64_t, UInt64)
CASE_REPEATED_PACKED_POD(SFixed64, int64_t, Int64)
CASE_REPEATED_PACKED_POD(Double, double, Double)
CASE_REPEATED_PACKED_POD(Int32, int32_t, Int32)
CASE_REPEATED_PACKED_POD(Int64, int64_t, Int64)
CASE_REPEATED_PACKED_POD(SInt32, int32_t, Int32)
CASE_REPEATED_PACKED_POD(SInt64, int64_t, Int64)
CASE_REPEATED_PACKED_POD(UInt32, uint32_t, UInt32)
CASE_REPEATED_PACKED_POD(UInt64, uint64_t, UInt64)
#undef CASE_REPEATED_PACKED_POD
case GPBDataTypeBytes:
case GPBDataTypeString:
case GPBDataTypeMessage:
case GPBDataTypeGroup:
NSCAssert(NO, @"Non primitive types can't be packed");
break;
case GPBDataTypeEnum: {
int32_t val = GPBCodedInputStreamReadEnum(state);
if (GPBHasPreservingUnknownEnumSemantics(syntax) ||
[field isValidEnumValue:val]) {
[(GPBEnumArray*)genericArray addRawValue:val];
} else {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
[unknownFields mergeVarintField:GPBFieldNumber(field) value:val];
}
break;
}
} // switch
} // while(BytesUntilLimit() > 0)
GPBCodedInputStreamPopLimit(state, limit);
}
static void MergeRepeatedNotPackedFieldFromCodedInputStream(
GPBMessage *self, GPBFieldDescriptor *field, GPBFileSyntax syntax,
GPBCodedInputStream *input, GPBExtensionRegistry *extensionRegistry) {
GPBCodedInputStreamState *state = &input->state_;
id genericArray = GetOrCreateArrayIvarWithField(self, field, syntax);
switch (GPBGetFieldDataType(field)) {
#define CASE_REPEATED_NOT_PACKED_POD(NAME, TYPE, ARRAY_TYPE) \
case GPBDataType##NAME: { \
TYPE val = GPBCodedInputStreamRead##NAME(state); \
[(GPB##ARRAY_TYPE##Array *)genericArray addValue:val]; \
break; \
}
#define CASE_REPEATED_NOT_PACKED_OBJECT(NAME) \
case GPBDataType##NAME: { \
id val = GPBCodedInputStreamReadRetained##NAME(state); \
[(NSMutableArray*)genericArray addObject:val]; \
[val release]; \
break; \
}
CASE_REPEATED_NOT_PACKED_POD(Bool, BOOL, Bool)
CASE_REPEATED_NOT_PACKED_POD(Fixed32, uint32_t, UInt32)
CASE_REPEATED_NOT_PACKED_POD(SFixed32, int32_t, Int32)
CASE_REPEATED_NOT_PACKED_POD(Float, float, Float)
CASE_REPEATED_NOT_PACKED_POD(Fixed64, uint64_t, UInt64)
CASE_REPEATED_NOT_PACKED_POD(SFixed64, int64_t, Int64)
CASE_REPEATED_NOT_PACKED_POD(Double, double, Double)
CASE_REPEATED_NOT_PACKED_POD(Int32, int32_t, Int32)
CASE_REPEATED_NOT_PACKED_POD(Int64, int64_t, Int64)
CASE_REPEATED_NOT_PACKED_POD(SInt32, int32_t, Int32)
CASE_REPEATED_NOT_PACKED_POD(SInt64, int64_t, Int64)
CASE_REPEATED_NOT_PACKED_POD(UInt32, uint32_t, UInt32)
CASE_REPEATED_NOT_PACKED_POD(UInt64, uint64_t, UInt64)
CASE_REPEATED_NOT_PACKED_OBJECT(Bytes)
CASE_REPEATED_NOT_PACKED_OBJECT(String)
#undef CASE_REPEATED_NOT_PACKED_POD
#undef CASE_NOT_PACKED_OBJECT
case GPBDataTypeMessage: {
GPBMessage *message = [[field.msgClass alloc] init];
[input readMessage:message extensionRegistry:extensionRegistry];
[(NSMutableArray*)genericArray addObject:message];
[message release];
break;
}
case GPBDataTypeGroup: {
GPBMessage *message = [[field.msgClass alloc] init];
[input readGroup:GPBFieldNumber(field)
message:message
extensionRegistry:extensionRegistry];
[(NSMutableArray*)genericArray addObject:message];
[message release];
break;
}
case GPBDataTypeEnum: {
int32_t val = GPBCodedInputStreamReadEnum(state);
if (GPBHasPreservingUnknownEnumSemantics(syntax) ||
[field isValidEnumValue:val]) {
[(GPBEnumArray*)genericArray addRawValue:val];
} else {
GPBUnknownFieldSet *unknownFields = GetOrMakeUnknownFields(self);
[unknownFields mergeVarintField:GPBFieldNumber(field) value:val];
}
break;
}
} // switch
}
- (void)mergeFromCodedInputStream:(GPBCodedInputStream *)input
extensionRegistry:(GPBExtensionRegistry *)extensionRegistry {
GPBDescriptor *descriptor = [self descriptor];
GPBFileSyntax syntax = descriptor.file.syntax;
GPBCodedInputStreamState *state = &input->state_;
uint32_t tag = 0;
NSUInteger startingIndex = 0;
NSArray *fields = descriptor->fields_;
NSUInteger numFields = fields.count;
while (YES) {
BOOL merged = NO;
tag = GPBCodedInputStreamReadTag(state);
if (tag == 0) {
break; // Reached end.
}
for (NSUInteger i = 0; i < numFields; ++i) {
if (startingIndex >= numFields) startingIndex = 0;
GPBFieldDescriptor *fieldDescriptor = fields[startingIndex];
if (GPBFieldTag(fieldDescriptor) == tag) {
GPBFieldType fieldType = fieldDescriptor.fieldType;
if (fieldType == GPBFieldTypeSingle) {
MergeSingleFieldFromCodedInputStream(self, fieldDescriptor, syntax,
input, extensionRegistry);
// Well formed protos will only have a single field once, advance
// the starting index to the next field.
startingIndex += 1;
} else if (fieldType == GPBFieldTypeRepeated) {
if (fieldDescriptor.isPackable) {
MergeRepeatedPackedFieldFromCodedInputStream(
self, fieldDescriptor, syntax, input);
// Well formed protos will only have a repeated field that is
// packed once, advance the starting index to the next field.
startingIndex += 1;
} else {
MergeRepeatedNotPackedFieldFromCodedInputStream(
self, fieldDescriptor, syntax, input, extensionRegistry);
}
} else { // fieldType == GPBFieldTypeMap
// GPB*Dictionary or NSDictionary, exact type doesn't matter at this
// point.
id map = GetOrCreateMapIvarWithField(self, fieldDescriptor, syntax);
[input readMapEntry:map
extensionRegistry:extensionRegistry
field:fieldDescriptor
parentMessage:self];
}
merged = YES;
break;
} else {
startingIndex += 1;
}
} // for(i < numFields)
if (!merged && (tag != 0)) {
// Primitive, repeated types can be packed on unpacked on the wire, and
// are parsed either way. The above loop covered tag in the preferred
// for, so this need to check the alternate form.
for (NSUInteger i = 0; i < numFields; ++i) {
if (startingIndex >= numFields) startingIndex = 0;
GPBFieldDescriptor *fieldDescriptor = fields[startingIndex];
if ((fieldDescriptor.fieldType == GPBFieldTypeRepeated) &&
!GPBFieldDataTypeIsObject(fieldDescriptor) &&
(GPBFieldAlternateTag(fieldDescriptor) == tag)) {
BOOL alternateIsPacked = !fieldDescriptor.isPackable;
if (alternateIsPacked) {
MergeRepeatedPackedFieldFromCodedInputStream(
self, fieldDescriptor, syntax, input);
// Well formed protos will only have a repeated field that is
// packed once, advance the starting index to the next field.
startingIndex += 1;
} else {
MergeRepeatedNotPackedFieldFromCodedInputStream(
self, fieldDescriptor, syntax, input, extensionRegistry);
}
merged = YES;
break;
} else {
startingIndex += 1;
}
}
}
if (!merged) {
if (tag == 0) {
// zero signals EOF / limit reached
return;
} else {
if (![self parseUnknownField:input
extensionRegistry:extensionRegistry
tag:tag]) {
// it's an endgroup tag
return;
}
}
} // if(!merged)
} // while(YES)
}
#pragma mark - MergeFrom Support
- (void)mergeFrom:(GPBMessage *)other {
Class selfClass = [self class];
Class otherClass = [other class];
if (!([selfClass isSubclassOfClass:otherClass] ||
[otherClass isSubclassOfClass:selfClass])) {
[NSException raise:NSInvalidArgumentException
format:@"Classes must match %@ != %@", selfClass, otherClass];
}
// We assume something will be done and become visible.
GPBBecomeVisibleToAutocreator(self);
GPBDescriptor *descriptor = [[self class] descriptor];
GPBFileSyntax syntax = descriptor.file.syntax;
for (GPBFieldDescriptor *field in descriptor->fields_) {
GPBFieldType fieldType = field.fieldType;
if (fieldType == GPBFieldTypeSingle) {
int32_t hasIndex = GPBFieldHasIndex(field);
uint32_t fieldNumber = GPBFieldNumber(field);
if (!GPBGetHasIvar(other, hasIndex, fieldNumber)) {
// Other doesn't have the field set, on to the next.
continue;
}
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
case GPBDataTypeBool:
GPBSetBoolIvarWithFieldInternal(
self, field, GPBGetMessageBoolField(other, field), syntax);
break;
case GPBDataTypeSFixed32:
case GPBDataTypeEnum:
case GPBDataTypeInt32:
case GPBDataTypeSInt32:
GPBSetInt32IvarWithFieldInternal(
self, field, GPBGetMessageInt32Field(other, field), syntax);
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
GPBSetUInt32IvarWithFieldInternal(
self, field, GPBGetMessageUInt32Field(other, field), syntax);
break;
case GPBDataTypeSFixed64:
case GPBDataTypeInt64:
case GPBDataTypeSInt64:
GPBSetInt64IvarWithFieldInternal(
self, field, GPBGetMessageInt64Field(other, field), syntax);
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
GPBSetUInt64IvarWithFieldInternal(
self, field, GPBGetMessageUInt64Field(other, field), syntax);
break;
case GPBDataTypeFloat:
GPBSetFloatIvarWithFieldInternal(
self, field, GPBGetMessageFloatField(other, field), syntax);
break;
case GPBDataTypeDouble:
GPBSetDoubleIvarWithFieldInternal(
self, field, GPBGetMessageDoubleField(other, field), syntax);
break;
case GPBDataTypeBytes:
case GPBDataTypeString: {
id otherVal = GPBGetObjectIvarWithFieldNoAutocreate(other, field);
GPBSetObjectIvarWithFieldInternal(self, field, otherVal, syntax);
break;
}
case GPBDataTypeMessage:
case GPBDataTypeGroup: {
id otherVal = GPBGetObjectIvarWithFieldNoAutocreate(other, field);
if (GPBGetHasIvar(self, hasIndex, fieldNumber)) {
GPBMessage *message =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
[message mergeFrom:otherVal];
} else {
GPBMessage *message = [otherVal copy];
GPBSetRetainedObjectIvarWithFieldInternal(self, field, message,
syntax);
}
break;
}
} // switch()
} else if (fieldType == GPBFieldTypeRepeated) {
// In the case of a list, they need to be appended, and there is no
// _hasIvar to worry about setting.
id otherArray =
GPBGetObjectIvarWithFieldNoAutocreate(other, field);
if (otherArray) {
GPBDataType fieldDataType = field->description_->dataType;
if (GPBDataTypeIsObject(fieldDataType)) {
NSMutableArray *resultArray =
GetOrCreateArrayIvarWithField(self, field, syntax);
[resultArray addObjectsFromArray:otherArray];
} else if (fieldDataType == GPBDataTypeEnum) {
GPBEnumArray *resultArray =
GetOrCreateArrayIvarWithField(self, field, syntax);
[resultArray addRawValuesFromArray:otherArray];
} else {
// The array type doesn't matter, that all implment
// -addValuesFromArray:.
GPBInt32Array *resultArray =
GetOrCreateArrayIvarWithField(self, field, syntax);
[resultArray addValuesFromArray:otherArray];
}
}
} else { // fieldType = GPBFieldTypeMap
// In the case of a map, they need to be merged, and there is no
// _hasIvar to worry about setting.
id otherDict = GPBGetObjectIvarWithFieldNoAutocreate(other, field);
if (otherDict) {
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = field->description_->dataType;
if (GPBDataTypeIsObject(keyDataType) &&
GPBDataTypeIsObject(valueDataType)) {
NSMutableDictionary *resultDict =
GetOrCreateMapIvarWithField(self, field, syntax);
[resultDict addEntriesFromDictionary:otherDict];
} else if (valueDataType == GPBDataTypeEnum) {
// The exact type doesn't matter, just need to know it is a
// GPB*EnumDictionary.
GPBInt32EnumDictionary *resultDict =
GetOrCreateMapIvarWithField(self, field, syntax);
[resultDict addRawEntriesFromDictionary:otherDict];
} else {
// The exact type doesn't matter, they all implement
// -addEntriesFromDictionary:.
GPBInt32Int32Dictionary *resultDict =
GetOrCreateMapIvarWithField(self, field, syntax);
[resultDict addEntriesFromDictionary:otherDict];
}
}
} // if (fieldType)..else if...else
} // for(fields)
// Unknown fields.
if (!unknownFields_) {
[self setUnknownFields:other.unknownFields];
} else {
[unknownFields_ mergeUnknownFields:other.unknownFields];
}
// Extensions
if (other->extensionMap_.count == 0) {
return;
}
if (extensionMap_ == nil) {
extensionMap_ =
CloneExtensionMap(other->extensionMap_, NSZoneFromPointer(self));
} else {
for (GPBExtensionDescriptor *extension in other->extensionMap_) {
id otherValue = [other->extensionMap_ objectForKey:extension];
id value = [extensionMap_ objectForKey:extension];
BOOL isMessageExtension = GPBExtensionIsMessage(extension);
if (extension.repeated) {
NSMutableArray *list = value;
if (list == nil) {
list = [[NSMutableArray alloc] init];
[extensionMap_ setObject:list forKey:extension];
[list release];
}
if (isMessageExtension) {
for (GPBMessage *otherListValue in otherValue) {
GPBMessage *copiedValue = [otherListValue copy];
[list addObject:copiedValue];
[copiedValue release];
}
} else {
[list addObjectsFromArray:otherValue];
}
} else {
if (isMessageExtension) {
if (value) {
[(GPBMessage *)value mergeFrom:(GPBMessage *)otherValue];
} else {
GPBMessage *copiedValue = [otherValue copy];
[extensionMap_ setObject:copiedValue forKey:extension];
[copiedValue release];
}
} else {
[extensionMap_ setObject:otherValue forKey:extension];
}
}
if (isMessageExtension && !extension.isRepeated) {
GPBMessage *autocreatedValue =
[[autocreatedExtensionMap_ objectForKey:extension] retain];
// Must remove from the map before calling GPBClearMessageAutocreator()
// so that GPBClearMessageAutocreator() knows its safe to clear.
[autocreatedExtensionMap_ removeObjectForKey:extension];
GPBClearMessageAutocreator(autocreatedValue);
[autocreatedValue release];
}
}
}
}
#pragma mark - isEqual: & hash Support
- (BOOL)isEqual:(id)other {
if (other == self) {
return YES;
}
if (![other isKindOfClass:[GPBMessage class]]) {
return NO;
}
GPBMessage *otherMsg = other;
GPBDescriptor *descriptor = [[self class] descriptor];
if ([[otherMsg class] descriptor] != descriptor) {
return NO;
}
uint8_t *selfStorage = (uint8_t *)messageStorage_;
uint8_t *otherStorage = (uint8_t *)otherMsg->messageStorage_;
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (GPBFieldIsMapOrArray(field)) {
// In the case of a list or map, there is no _hasIvar to worry about.
// NOTE: These are NSArray/GPB*Array or NSDictionary/GPB*Dictionary, but
// the type doesn't really matter as the objects all support -count and
// -isEqual:.
NSArray *resultMapOrArray =
GPBGetObjectIvarWithFieldNoAutocreate(self, field);
NSArray *otherMapOrArray =
GPBGetObjectIvarWithFieldNoAutocreate(other, field);
// nil and empty are equal
if (resultMapOrArray.count != 0 || otherMapOrArray.count != 0) {
if (![resultMapOrArray isEqual:otherMapOrArray]) {
return NO;
}
}
} else { // Single field
int32_t hasIndex = GPBFieldHasIndex(field);
uint32_t fieldNum = GPBFieldNumber(field);
BOOL selfHas = GPBGetHasIvar(self, hasIndex, fieldNum);
BOOL otherHas = GPBGetHasIvar(other, hasIndex, fieldNum);
if (selfHas != otherHas) {
return NO; // Differing has values, not equal.
}
if (!selfHas) {
// Same has values, was no, nothing else to check for this field.
continue;
}
// Now compare the values.
GPBDataType fieldDataType = GPBGetFieldDataType(field);
size_t fieldOffset = field->description_->offset;
switch (fieldDataType) {
case GPBDataTypeBool: {
// Bools are stored in has_bits to avoid needing explicit space in
// the storage structure.
// (the field number passed to the HasIvar helper doesn't really
// matter since the offset is never negative)
BOOL selfValue = GPBGetHasIvar(self, (int32_t)(fieldOffset), 0);
BOOL otherValue = GPBGetHasIvar(other, (int32_t)(fieldOffset), 0);
if (selfValue != otherValue) {
return NO;
}
break;
}
case GPBDataTypeSFixed32:
case GPBDataTypeInt32:
case GPBDataTypeSInt32:
case GPBDataTypeEnum:
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
case GPBDataTypeFloat: {
GPBInternalCompileAssert(sizeof(float) == sizeof(uint32_t), float_not_32_bits);
// These are all 32bit, signed/unsigned doesn't matter for equality.
uint32_t *selfValPtr = (uint32_t *)&selfStorage[fieldOffset];
uint32_t *otherValPtr = (uint32_t *)&otherStorage[fieldOffset];
if (*selfValPtr != *otherValPtr) {
return NO;
}
break;
}
case GPBDataTypeSFixed64:
case GPBDataTypeInt64:
case GPBDataTypeSInt64:
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
case GPBDataTypeDouble: {
GPBInternalCompileAssert(sizeof(double) == sizeof(uint64_t), double_not_64_bits);
// These are all 64bit, signed/unsigned doesn't matter for equality.
uint64_t *selfValPtr = (uint64_t *)&selfStorage[fieldOffset];
uint64_t *otherValPtr = (uint64_t *)&otherStorage[fieldOffset];
if (*selfValPtr != *otherValPtr) {
return NO;
}
break;
}
case GPBDataTypeBytes:
case GPBDataTypeString:
case GPBDataTypeMessage:
case GPBDataTypeGroup: {
// Type doesn't matter here, they all implement -isEqual:.
id *selfValPtr = (id *)&selfStorage[fieldOffset];
id *otherValPtr = (id *)&otherStorage[fieldOffset];
if (![*selfValPtr isEqual:*otherValPtr]) {
return NO;
}
break;
}
} // switch()
} // if(mapOrArray)...else
} // for(fields)
// nil and empty are equal
if (extensionMap_.count != 0 || otherMsg->extensionMap_.count != 0) {
if (![extensionMap_ isEqual:otherMsg->extensionMap_]) {
return NO;
}
}
// nil and empty are equal
GPBUnknownFieldSet *otherUnknowns = otherMsg->unknownFields_;
if ([unknownFields_ countOfFields] != 0 ||
[otherUnknowns countOfFields] != 0) {
if (![unknownFields_ isEqual:otherUnknowns]) {
return NO;
}
}
return YES;
}
// It is very difficult to implement a generic hash for ProtoBuf messages that
// will perform well. If you need hashing on your ProtoBufs (eg you are using
// them as dictionary keys) you will probably want to implement a ProtoBuf
// message specific hash as a category on your protobuf class. Do not make it a
// category on GPBMessage as you will conflict with this hash, and will possibly
// override hash for all generated protobufs. A good implementation of hash will
// be really fast, so we would recommend only hashing protobufs that have an
// identifier field of some kind that you can easily hash. If you implement
// hash, we would strongly recommend overriding isEqual: in your category as
// well, as the default implementation of isEqual: is extremely slow, and may
// drastically affect performance in large sets.
- (NSUInteger)hash {
GPBDescriptor *descriptor = [[self class] descriptor];
const NSUInteger prime = 19;
uint8_t *storage = (uint8_t *)messageStorage_;
// Start with the descriptor and then mix it with some instance info.
// Hopefully that will give a spread based on classes and what fields are set.
NSUInteger result = (NSUInteger)descriptor;
for (GPBFieldDescriptor *field in descriptor->fields_) {
if (GPBFieldIsMapOrArray(field)) {
// Exact type doesn't matter, just check if there are any elements.
NSArray *mapOrArray = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
NSUInteger count = mapOrArray.count;
if (count) {
// NSArray/NSDictionary use count, use the field number and the count.
result = prime * result + GPBFieldNumber(field);
result = prime * result + count;
}
} else if (GPBGetHasIvarField(self, field)) {
// Just using the field number seemed simple/fast, but then a small
// message class where all the same fields are always set (to different
// things would end up all with the same hash, so pull in some data).
GPBDataType fieldDataType = GPBGetFieldDataType(field);
size_t fieldOffset = field->description_->offset;
switch (fieldDataType) {
case GPBDataTypeBool: {
// Bools are stored in has_bits to avoid needing explicit space in
// the storage structure.
// (the field number passed to the HasIvar helper doesn't really
// matter since the offset is never negative)
BOOL value = GPBGetHasIvar(self, (int32_t)(fieldOffset), 0);
result = prime * result + value;
break;
}
case GPBDataTypeSFixed32:
case GPBDataTypeInt32:
case GPBDataTypeSInt32:
case GPBDataTypeEnum:
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
case GPBDataTypeFloat: {
GPBInternalCompileAssert(sizeof(float) == sizeof(uint32_t), float_not_32_bits);
// These are all 32bit, just mix it in.
uint32_t *valPtr = (uint32_t *)&storage[fieldOffset];
result = prime * result + *valPtr;
break;
}
case GPBDataTypeSFixed64:
case GPBDataTypeInt64:
case GPBDataTypeSInt64:
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
case GPBDataTypeDouble: {
GPBInternalCompileAssert(sizeof(double) == sizeof(uint64_t), double_not_64_bits);
// These are all 64bit, just mix what fits into an NSUInteger in.
uint64_t *valPtr = (uint64_t *)&storage[fieldOffset];
result = prime * result + (NSUInteger)(*valPtr);
break;
}
case GPBDataTypeBytes:
case GPBDataTypeString: {
// Type doesn't matter here, they both implement -hash:.
id *valPtr = (id *)&storage[fieldOffset];
result = prime * result + [*valPtr hash];
break;
}
case GPBDataTypeMessage:
case GPBDataTypeGroup: {
GPBMessage **valPtr = (GPBMessage **)&storage[fieldOffset];
// Could call -hash on the sub message, but that could recurse pretty
// deep; follow the lead of NSArray/NSDictionary and don't really
// recurse for hash, instead use the field number and the descriptor
// of the sub message. Yes, this could suck for a bunch of messages
// where they all only differ in the sub messages, but if you are
// using a message with sub messages for something that needs -hash,
// odds are you are also copying them as keys, and that deep copy
// will also suck.
result = prime * result + GPBFieldNumber(field);
result = prime * result + (NSUInteger)[[*valPtr class] descriptor];
break;
}
} // switch()
}
}
// Unknowns and extensions are not included.
return result;
}
#pragma mark - Description Support
- (NSString *)description {
NSString *textFormat = GPBTextFormatForMessage(self, @" ");
NSString *description = [NSString
stringWithFormat:@"<%@ %p>: {\n%@}", [self class], self, textFormat];
return description;
}
#if defined(DEBUG) && DEBUG
// Xcode 5.1 added support for custom quick look info.
// https://developer.apple.com/library/ios/documentation/IDEs/Conceptual/CustomClassDisplay_in_QuickLook/CH01-quick_look_for_custom_objects/CH01-quick_look_for_custom_objects.html#//apple_ref/doc/uid/TP40014001-CH2-SW1
- (id)debugQuickLookObject {
return GPBTextFormatForMessage(self, nil);
}
#endif // DEBUG
#pragma mark - SerializedSize
- (size_t)serializedSize {
GPBDescriptor *descriptor = [[self class] descriptor];
size_t result = 0;
// Has check is done explicitly, so GPBGetObjectIvarWithFieldNoAutocreate()
// avoids doing the has check again.
// Fields.
for (GPBFieldDescriptor *fieldDescriptor in descriptor->fields_) {
GPBFieldType fieldType = fieldDescriptor.fieldType;
GPBDataType fieldDataType = GPBGetFieldDataType(fieldDescriptor);
// Single Fields
if (fieldType == GPBFieldTypeSingle) {
BOOL selfHas = GPBGetHasIvarField(self, fieldDescriptor);
if (!selfHas) {
continue; // Nothing to do.
}
uint32_t fieldNumber = GPBFieldNumber(fieldDescriptor);
switch (fieldDataType) {
#define CASE_SINGLE_POD(NAME, TYPE, FUNC_TYPE) \
case GPBDataType##NAME: { \
TYPE fieldVal = GPBGetMessage##FUNC_TYPE##Field(self, fieldDescriptor); \
result += GPBCompute##NAME##Size(fieldNumber, fieldVal); \
break; \
}
#define CASE_SINGLE_OBJECT(NAME) \
case GPBDataType##NAME: { \
id fieldVal = GPBGetObjectIvarWithFieldNoAutocreate(self, fieldDescriptor); \
result += GPBCompute##NAME##Size(fieldNumber, fieldVal); \
break; \
}
CASE_SINGLE_POD(Bool, BOOL, Bool)
CASE_SINGLE_POD(Fixed32, uint32_t, UInt32)
CASE_SINGLE_POD(SFixed32, int32_t, Int32)
CASE_SINGLE_POD(Float, float, Float)
CASE_SINGLE_POD(Fixed64, uint64_t, UInt64)
CASE_SINGLE_POD(SFixed64, int64_t, Int64)
CASE_SINGLE_POD(Double, double, Double)
CASE_SINGLE_POD(Int32, int32_t, Int32)
CASE_SINGLE_POD(Int64, int64_t, Int64)
CASE_SINGLE_POD(SInt32, int32_t, Int32)
CASE_SINGLE_POD(SInt64, int64_t, Int64)
CASE_SINGLE_POD(UInt32, uint32_t, UInt32)
CASE_SINGLE_POD(UInt64, uint64_t, UInt64)
CASE_SINGLE_OBJECT(Bytes)
CASE_SINGLE_OBJECT(String)
CASE_SINGLE_OBJECT(Message)
CASE_SINGLE_OBJECT(Group)
CASE_SINGLE_POD(Enum, int32_t, Int32)
#undef CASE_SINGLE_POD
#undef CASE_SINGLE_OBJECT
}
// Repeated Fields
} else if (fieldType == GPBFieldTypeRepeated) {
id genericArray =
GPBGetObjectIvarWithFieldNoAutocreate(self, fieldDescriptor);
NSUInteger count = [genericArray count];
if (count == 0) {
continue; // Nothing to add.
}
__block size_t dataSize = 0;
switch (fieldDataType) {
#define CASE_REPEATED_POD(NAME, TYPE, ARRAY_TYPE) \
CASE_REPEATED_POD_EXTRA(NAME, TYPE, ARRAY_TYPE, )
#define CASE_REPEATED_POD_EXTRA(NAME, TYPE, ARRAY_TYPE, ARRAY_ACCESSOR_NAME) \
case GPBDataType##NAME: { \
GPB##ARRAY_TYPE##Array *array = genericArray; \
[array enumerate##ARRAY_ACCESSOR_NAME##ValuesWithBlock:^(TYPE value, NSUInteger idx, BOOL *stop) { \
_Pragma("unused(idx, stop)"); \
dataSize += GPBCompute##NAME##SizeNoTag(value); \
}]; \
break; \
}
#define CASE_REPEATED_OBJECT(NAME) \
case GPBDataType##NAME: { \
for (id value in genericArray) { \
dataSize += GPBCompute##NAME##SizeNoTag(value); \
} \
break; \
}
CASE_REPEATED_POD(Bool, BOOL, Bool)
CASE_REPEATED_POD(Fixed32, uint32_t, UInt32)
CASE_REPEATED_POD(SFixed32, int32_t, Int32)
CASE_REPEATED_POD(Float, float, Float)
CASE_REPEATED_POD(Fixed64, uint64_t, UInt64)
CASE_REPEATED_POD(SFixed64, int64_t, Int64)
CASE_REPEATED_POD(Double, double, Double)
CASE_REPEATED_POD(Int32, int32_t, Int32)
CASE_REPEATED_POD(Int64, int64_t, Int64)
CASE_REPEATED_POD(SInt32, int32_t, Int32)
CASE_REPEATED_POD(SInt64, int64_t, Int64)
CASE_REPEATED_POD(UInt32, uint32_t, UInt32)
CASE_REPEATED_POD(UInt64, uint64_t, UInt64)
CASE_REPEATED_OBJECT(Bytes)
CASE_REPEATED_OBJECT(String)
CASE_REPEATED_OBJECT(Message)
CASE_REPEATED_OBJECT(Group)
CASE_REPEATED_POD_EXTRA(Enum, int32_t, Enum, Raw)
#undef CASE_REPEATED_POD
#undef CASE_REPEATED_POD_EXTRA
#undef CASE_REPEATED_OBJECT
} // switch
result += dataSize;
size_t tagSize = GPBComputeTagSize(GPBFieldNumber(fieldDescriptor));
if (fieldDataType == GPBDataTypeGroup) {
// Groups have both a start and an end tag.
tagSize *= 2;
}
if (fieldDescriptor.isPackable) {
result += tagSize;
result += GPBComputeSizeTSizeAsInt32NoTag(dataSize);
} else {
result += count * tagSize;
}
// Map<> Fields
} else { // fieldType == GPBFieldTypeMap
if (GPBDataTypeIsObject(fieldDataType) &&
(fieldDescriptor.mapKeyDataType == GPBDataTypeString)) {
// If key type was string, then the map is an NSDictionary.
NSDictionary *map =
GPBGetObjectIvarWithFieldNoAutocreate(self, fieldDescriptor);
if (map) {
result += GPBDictionaryComputeSizeInternalHelper(map, fieldDescriptor);
}
} else {
// Type will be GPB*GroupDictionary, exact type doesn't matter.
GPBInt32Int32Dictionary *map =
GPBGetObjectIvarWithFieldNoAutocreate(self, fieldDescriptor);
result += [map computeSerializedSizeAsField:fieldDescriptor];
}
}
} // for(fields)
// Add any unknown fields.
if (descriptor.wireFormat) {
result += [unknownFields_ serializedSizeAsMessageSet];
} else {
result += [unknownFields_ serializedSize];
}
// Add any extensions.
for (GPBExtensionDescriptor *extension in extensionMap_) {
id value = [extensionMap_ objectForKey:extension];
result += GPBComputeExtensionSerializedSizeIncludingTag(extension, value);
}
return result;
}
#pragma mark - Resolve Methods Support
typedef struct ResolveIvarAccessorMethodResult {
IMP impToAdd;
SEL encodingSelector;
} ResolveIvarAccessorMethodResult;
static void ResolveIvarGet(GPBFieldDescriptor *field,
ResolveIvarAccessorMethodResult *result) {
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
#define CASE_GET(NAME, TYPE, TRUE_NAME) \
case GPBDataType##NAME: { \
result->impToAdd = imp_implementationWithBlock(^(id obj) { \
return GPBGetMessage##TRUE_NAME##Field(obj, field); \
}); \
result->encodingSelector = @selector(get##NAME); \
break; \
}
#define CASE_GET_OBJECT(NAME, TYPE, TRUE_NAME) \
case GPBDataType##NAME: { \
result->impToAdd = imp_implementationWithBlock(^(id obj) { \
return GPBGetObjectIvarWithField(obj, field); \
}); \
result->encodingSelector = @selector(get##NAME); \
break; \
}
CASE_GET(Bool, BOOL, Bool)
CASE_GET(Fixed32, uint32_t, UInt32)
CASE_GET(SFixed32, int32_t, Int32)
CASE_GET(Float, float, Float)
CASE_GET(Fixed64, uint64_t, UInt64)
CASE_GET(SFixed64, int64_t, Int64)
CASE_GET(Double, double, Double)
CASE_GET(Int32, int32_t, Int32)
CASE_GET(Int64, int64_t, Int64)
CASE_GET(SInt32, int32_t, Int32)
CASE_GET(SInt64, int64_t, Int64)
CASE_GET(UInt32, uint32_t, UInt32)
CASE_GET(UInt64, uint64_t, UInt64)
CASE_GET_OBJECT(Bytes, id, Object)
CASE_GET_OBJECT(String, id, Object)
CASE_GET_OBJECT(Message, id, Object)
CASE_GET_OBJECT(Group, id, Object)
CASE_GET(Enum, int32_t, Enum)
#undef CASE_GET
}
}
static void ResolveIvarSet(GPBFieldDescriptor *field,
GPBFileSyntax syntax,
ResolveIvarAccessorMethodResult *result) {
GPBDataType fieldDataType = GPBGetFieldDataType(field);
switch (fieldDataType) {
#define CASE_SET(NAME, TYPE, TRUE_NAME) \
case GPBDataType##NAME: { \
result->impToAdd = imp_implementationWithBlock(^(id obj, TYPE value) { \
return GPBSet##TRUE_NAME##IvarWithFieldInternal(obj, field, value, syntax); \
}); \
result->encodingSelector = @selector(set##NAME:); \
break; \
}
CASE_SET(Bool, BOOL, Bool)
CASE_SET(Fixed32, uint32_t, UInt32)
CASE_SET(SFixed32, int32_t, Int32)
CASE_SET(Float, float, Float)
CASE_SET(Fixed64, uint64_t, UInt64)
CASE_SET(SFixed64, int64_t, Int64)
CASE_SET(Double, double, Double)
CASE_SET(Int32, int32_t, Int32)
CASE_SET(Int64, int64_t, Int64)
CASE_SET(SInt32, int32_t, Int32)
CASE_SET(SInt64, int64_t, Int64)
CASE_SET(UInt32, uint32_t, UInt32)
CASE_SET(UInt64, uint64_t, UInt64)
CASE_SET(Bytes, id, Object)
CASE_SET(String, id, Object)
CASE_SET(Message, id, Object)
CASE_SET(Group, id, Object)
CASE_SET(Enum, int32_t, Enum)
#undef CASE_SET
}
}
+ (BOOL)resolveInstanceMethod:(SEL)sel {
const GPBDescriptor *descriptor = [self descriptor];
if (!descriptor) {
return [super resolveInstanceMethod:sel];
}
// NOTE: hasOrCountSel_/setHasSel_ will be NULL if the field for the given
// message should not have has support (done in GPBDescriptor.m), so there is
// no need for checks here to see if has*/setHas* are allowed.
ResolveIvarAccessorMethodResult result = {NULL, NULL};
for (GPBFieldDescriptor *field in descriptor->fields_) {
BOOL isMapOrArray = GPBFieldIsMapOrArray(field);
if (!isMapOrArray) {
// Single fields.
if (sel == field->getSel_) {
ResolveIvarGet(field, &result);
break;
} else if (sel == field->setSel_) {
ResolveIvarSet(field, descriptor.file.syntax, &result);
break;
} else if (sel == field->hasOrCountSel_) {
int32_t index = GPBFieldHasIndex(field);
uint32_t fieldNum = GPBFieldNumber(field);
result.impToAdd = imp_implementationWithBlock(^(id obj) {
return GPBGetHasIvar(obj, index, fieldNum);
});
result.encodingSelector = @selector(getBool);
break;
} else if (sel == field->setHasSel_) {
result.impToAdd = imp_implementationWithBlock(^(id obj, BOOL value) {
if (value) {
[NSException raise:NSInvalidArgumentException
format:@"%@: %@ can only be set to NO (to clear field).",
[obj class],
NSStringFromSelector(field->setHasSel_)];
}
GPBClearMessageField(obj, field);
});
result.encodingSelector = @selector(setBool:);
break;
} else {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof && (sel == oneof->caseSel_)) {
Shrink ObjC overhead (generated size and some runtime sizes) NOTE: This is a binary breaking change as structure sizes have changed size and/or order. - Drop capturing field options, no other options were captured and other mobile targeted languages don't try to capture this sort information (saved 8 bytes for every field defined (in static data and again in field descriptor instance size data). - No longer generate/compile in the messages/enums in descriptor.proto. If developers need it, they should generate it and compile it in. Reduced the overhead of the core library. - Compute the number of has_bits actually needs to avoid over reserving. - Let the boolean single fields store via a has_bit to avoid storage, makes the common cases of the instance size smaller. - Reorder some flags and down size the enums to contain the bits needed. - Reorder the items in the structures to manually ensure they are are packed better (especially when generating 64bit code - 8 bytes for every field, 16 bytes for every extension, instance sizes 8 bytes also). - Split off the structure initialization so when the default is zero, the generated static storage doesn't need to reserve the space. This is batched at the message level, so all the fields for the message have to have zero defaults to get the saves. By definition all proto3 syntax files fall into this case but it also saves space for the proto2 that use the standard defaults. (saves 8 bytes of static data for every field that had a zero default) - Don't track the enums defined by a message. Nothing in the runtime needs it and it was just generation and runtime overhead. (saves 8 bytes per enum) - Ensure EnumDescriptors are started up threadsafe in all cases. - Split some of the Descriptor initialization into multiple methods so the generated code isn't padded with lots of zero/nil args. - Change how oneof info is feed to the runtime enabling us to generate less static data (8 bytes saved per oneof for 64bit). - Change how enum value informat is capture to pack the data and only decode it if it ends up being needed. Avoids padding issues causing bloat of 64bit, and removes the needs for extra pointers in addition to the data (just the data and one pointer now).
9 years ago
int32_t index = GPBFieldHasIndex(field);
result.impToAdd = imp_implementationWithBlock(^(id obj) {
return GPBGetHasOneof(obj, index);
});
result.encodingSelector = @selector(getEnum);
break;
}
}
} else {
// map<>/repeated fields.
if (sel == field->getSel_) {
if (field.fieldType == GPBFieldTypeRepeated) {
result.impToAdd = imp_implementationWithBlock(^(id obj) {
return GetArrayIvarWithField(obj, field);
});
} else {
result.impToAdd = imp_implementationWithBlock(^(id obj) {
return GetMapIvarWithField(obj, field);
});
}
result.encodingSelector = @selector(getArray);
break;
} else if (sel == field->setSel_) {
// Local for syntax so the block can directly capture it and not the
// full lookup.
const GPBFileSyntax syntax = descriptor.file.syntax;
result.impToAdd = imp_implementationWithBlock(^(id obj, id value) {
return GPBSetObjectIvarWithFieldInternal(obj, field, value, syntax);
});
result.encodingSelector = @selector(setArray:);
break;
} else if (sel == field->hasOrCountSel_) {
result.impToAdd = imp_implementationWithBlock(^(id obj) {
// Type doesn't matter, all *Array and *Dictionary types support
// -count.
NSArray *arrayOrMap =
GPBGetObjectIvarWithFieldNoAutocreate(obj, field);
return [arrayOrMap count];
});
result.encodingSelector = @selector(getArrayCount);
break;
}
}
}
if (result.impToAdd) {
const char *encoding =
GPBMessageEncodingForSelector(result.encodingSelector, YES);
Class msgClass = descriptor.messageClass;
BOOL methodAdded = class_addMethod(msgClass, sel, result.impToAdd, encoding);
// class_addMethod() is documented as also failing if the method was already
// added; so we check if the method is already there and return success so
// the method dispatch will still happen. Why would it already be added?
// Two threads could cause the same method to be bound at the same time,
// but only one will actually bind it; the other still needs to return true
// so things will dispatch.
if (!methodAdded) {
methodAdded = GPBClassHasSel(msgClass, sel);
}
return methodAdded;
}
return [super resolveInstanceMethod:sel];
}
+ (BOOL)resolveClassMethod:(SEL)sel {
// Extensions scoped to a Message and looked up via class methods.
if (GPBResolveExtensionClassMethod([self descriptor].messageClass, sel)) {
return YES;
}
return [super resolveClassMethod:sel];
}
#pragma mark - NSCoding Support
+ (BOOL)supportsSecureCoding {
return YES;
}
- (instancetype)initWithCoder:(NSCoder *)aDecoder {
self = [self init];
if (self) {
NSData *data =
[aDecoder decodeObjectOfClass:[NSData class] forKey:kGPBDataCoderKey];
if (data.length) {
[self mergeFromData:data extensionRegistry:nil];
}
}
return self;
}
- (void)encodeWithCoder:(NSCoder *)aCoder {
NSData *data = [self data];
if (data.length) {
[aCoder encodeObject:data forKey:kGPBDataCoderKey];
}
}
#pragma mark - KVC Support
+ (BOOL)accessInstanceVariablesDirectly {
// Make sure KVC doesn't use instance variables.
return NO;
}
@end
#pragma mark - Messages from GPBUtilities.h but defined here for access to helpers.
// Only exists for public api, no core code should use this.
id GPBGetMessageRepeatedField(GPBMessage *self, GPBFieldDescriptor *field) {
#if defined(DEBUG) && DEBUG
if (field.fieldType != GPBFieldTypeRepeated) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@ is not a repeated field.",
[self class], field.name];
}
#endif
GPBDescriptor *descriptor = [[self class] descriptor];
GPBFileSyntax syntax = descriptor.file.syntax;
return GetOrCreateArrayIvarWithField(self, field, syntax);
}
// Only exists for public api, no core code should use this.
id GPBGetMessageMapField(GPBMessage *self, GPBFieldDescriptor *field) {
#if defined(DEBUG) && DEBUG
if (field.fieldType != GPBFieldTypeMap) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@ is not a map<> field.",
[self class], field.name];
}
#endif
GPBDescriptor *descriptor = [[self class] descriptor];
GPBFileSyntax syntax = descriptor.file.syntax;
return GetOrCreateMapIvarWithField(self, field, syntax);
}
#pragma clang diagnostic pop