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 "GPBUtilities_PackagePrivate.h"
#import <objc/runtime.h>
#import "GPBArray_PackagePrivate.h"
#import "GPBDescriptor_PackagePrivate.h"
#import "GPBDictionary_PackagePrivate.h"
#import "GPBMessage_PackagePrivate.h"
#import "GPBUnknownField.h"
#import "GPBUnknownFieldSet.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"
static void AppendTextFormatForMessage(GPBMessage *message,
NSMutableString *toStr,
NSString *lineIndent);
NSData *GPBEmptyNSData(void) {
static dispatch_once_t onceToken;
static NSData *defaultNSData = nil;
dispatch_once(&onceToken, ^{
defaultNSData = [[NSData alloc] init];
});
return defaultNSData;
}
// -- About Version Checks --
// There's actually 3 places these checks all come into play:
// 1. When the generated source is compile into .o files, the header check
// happens. This is checking the protoc used matches the library being used
// when making the .o.
// 2. Every place a generated proto header is included in a developer's code,
// the header check comes into play again. But this time it is checking that
// the current library headers being used still support/match the ones for
// the generated code.
// 3. At runtime the final check here (GPBCheckRuntimeVersionsInternal), is
// called from the generated code passing in values captured when the
// generated code's .o was made. This checks that at runtime the generated
// code and runtime library match.
void GPBCheckRuntimeVersionSupport(int32_t objcRuntimeVersion) {
// NOTE: This is passing the value captured in the compiled code to check
// against the values captured when the runtime support was compiled. This
// ensures the library code isn't in a different framework/library that
// was generated with a non matching version.
if (GOOGLE_PROTOBUF_OBJC_VERSION < objcRuntimeVersion) {
// Library is too old for headers.
[NSException raise:NSInternalInconsistencyException
format:@"Linked to ProtocolBuffer runtime version %d,"
@" but code compiled needing atleast %d!",
GOOGLE_PROTOBUF_OBJC_VERSION, objcRuntimeVersion];
}
if (objcRuntimeVersion < GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION) {
// Headers are too old for library.
[NSException raise:NSInternalInconsistencyException
format:@"Proto generation source compiled against runtime"
@" version %d, but this version of the runtime only"
@" supports back to %d!",
objcRuntimeVersion,
GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION];
}
}
// This api is no longer used for version checks. 30001 is the last version
// using this old versioning model. When that support is removed, this function
// can be removed (along with the declaration in GPBUtilities_PackagePrivate.h).
void GPBCheckRuntimeVersionInternal(int32_t version) {
GPBInternalCompileAssert(GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION == 30001,
time_to_remove_this_old_version_shim);
if (version != GOOGLE_PROTOBUF_OBJC_MIN_SUPPORTED_VERSION) {
[NSException raise:NSInternalInconsistencyException
format:@"Linked to ProtocolBuffer runtime version %d,"
@" but code compiled with version %d!",
GOOGLE_PROTOBUF_OBJC_GEN_VERSION, version];
}
}
BOOL GPBMessageHasFieldNumberSet(GPBMessage *self, uint32_t fieldNumber) {
GPBDescriptor *descriptor = [self descriptor];
GPBFieldDescriptor *field = [descriptor fieldWithNumber:fieldNumber];
return GPBMessageHasFieldSet(self, field);
}
BOOL GPBMessageHasFieldSet(GPBMessage *self, GPBFieldDescriptor *field) {
if (self == nil || field == nil) return NO;
// Repeated/Map don't use the bit, they check the count.
if (GPBFieldIsMapOrArray(field)) {
// Array/map type doesn't matter, since GPB*Array/NSArray and
// GPB*Dictionary/NSDictionary all support -count;
NSArray *arrayOrMap = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
return (arrayOrMap.count > 0);
} else {
return GPBGetHasIvarField(self, field);
}
}
void GPBClearMessageField(GPBMessage *self, GPBFieldDescriptor *field) {
// If not set, nothing to do.
if (!GPBGetHasIvarField(self, field)) {
return;
}
if (GPBFieldStoresObject(field)) {
// Object types are handled slightly differently, they need to be released.
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
[*typePtr release];
*typePtr = nil;
} else {
// POD types just need to clear the has bit as the Get* method will
// fetch the default when needed.
}
GPBSetHasIvarField(self, field, NO);
}
BOOL GPBGetHasIvar(GPBMessage *self, int32_t idx, uint32_t fieldNumber) {
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
if (idx < 0) {
NSCAssert(fieldNumber != 0, @"Invalid field number.");
BOOL hasIvar = (self->messageStorage_->_has_storage_[-idx] == fieldNumber);
return hasIvar;
} else {
NSCAssert(idx != GPBNoHasBit, @"Invalid has bit.");
uint32_t byteIndex = idx / 32;
uint32_t bitMask = (1 << (idx % 32));
BOOL hasIvar =
(self->messageStorage_->_has_storage_[byteIndex] & bitMask) ? YES : NO;
return hasIvar;
}
}
uint32_t GPBGetHasOneof(GPBMessage *self, int32_t idx) {
NSCAssert(idx < 0, @"%@: invalid index (%d) for oneof.",
[self class], idx);
uint32_t result = self->messageStorage_->_has_storage_[-idx];
return result;
}
void GPBSetHasIvar(GPBMessage *self, int32_t idx, uint32_t fieldNumber,
BOOL value) {
if (idx < 0) {
NSCAssert(fieldNumber != 0, @"Invalid field number.");
uint32_t *has_storage = self->messageStorage_->_has_storage_;
has_storage[-idx] = (value ? fieldNumber : 0);
} else {
NSCAssert(idx != GPBNoHasBit, @"Invalid has bit.");
uint32_t *has_storage = self->messageStorage_->_has_storage_;
uint32_t byte = idx / 32;
uint32_t bitMask = (1 << (idx % 32));
if (value) {
has_storage[byte] |= bitMask;
} else {
has_storage[byte] &= ~bitMask;
}
}
}
void GPBMaybeClearOneof(GPBMessage *self, GPBOneofDescriptor *oneof,
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 oneofHasIndex, uint32_t fieldNumberNotToClear) {
uint32_t fieldNumberSet = GPBGetHasOneof(self, oneofHasIndex);
if ((fieldNumberSet == fieldNumberNotToClear) || (fieldNumberSet == 0)) {
// Do nothing/nothing set in the oneof.
return;
}
// Like GPBClearMessageField(), free the memory if an objecttype is set,
// pod types don't need to do anything.
GPBFieldDescriptor *fieldSet = [oneof fieldWithNumber:fieldNumberSet];
NSCAssert(fieldSet,
@"%@: oneof set to something (%u) not in the oneof?",
[self class], fieldNumberSet);
if (fieldSet && GPBFieldStoresObject(fieldSet)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[fieldSet->description_->offset];
[*typePtr release];
*typePtr = nil;
}
// Set to nothing stored in the oneof.
// (field number doesn't matter since setting to nothing).
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
GPBSetHasIvar(self, oneofHasIndex, 1, NO);
}
#pragma mark - IVar accessors
//%PDDM-DEFINE IVAR_POD_ACCESSORS_DEFN(NAME, TYPE)
//%TYPE GPBGetMessage##NAME##Field(GPBMessage *self,
//% TYPE$S NAME$S GPBFieldDescriptor *field) {
//% if (GPBGetHasIvarField(self, field)) {
//% uint8_t *storage = (uint8_t *)self->messageStorage_;
//% TYPE *typePtr = (TYPE *)&storage[field->description_->offset];
//% return *typePtr;
//% } else {
//% return field.defaultValue.value##NAME;
//% }
//%}
//%
//%// Only exists for public api, no core code should use this.
//%void GPBSetMessage##NAME##Field(GPBMessage *self,
//% NAME$S GPBFieldDescriptor *field,
//% NAME$S TYPE value) {
//% if (self == nil || field == nil) return;
//% GPBFileSyntax syntax = [self descriptor].file.syntax;
//% GPBSet##NAME##IvarWithFieldInternal(self, field, value, syntax);
//%}
//%
//%void GPBSet##NAME##IvarWithFieldInternal(GPBMessage *self,
//% NAME$S GPBFieldDescriptor *field,
//% NAME$S TYPE value,
//% NAME$S GPBFileSyntax syntax) {
//% GPBOneofDescriptor *oneof = field->containingOneof_;
//% if (oneof) {
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
//% GPBMessageFieldDescription *fieldDesc = field->description_;
//% GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
//% }
//% NSCAssert(self->messageStorage_ != NULL,
//% @"%@: All messages should have storage (from init)",
//% [self class]);
//%#if defined(__clang_analyzer__)
//% if (self->messageStorage_ == NULL) return;
//%#endif
//% uint8_t *storage = (uint8_t *)self->messageStorage_;
//% TYPE *typePtr = (TYPE *)&storage[field->description_->offset];
//% *typePtr = value;
//% // proto2: any value counts as having been set; proto3, it
//% // has to be a non zero value or be in a oneof.
//% BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
//% || (value != (TYPE)0)
//% || (field->containingOneof_ != NULL));
//% GPBSetHasIvarField(self, field, hasValue);
//% GPBBecomeVisibleToAutocreator(self);
//%}
//%
//%PDDM-DEFINE IVAR_ALIAS_DEFN_OBJECT(NAME, TYPE)
//%// Only exists for public api, no core code should use this.
//%TYPE *GPBGetMessage##NAME##Field(GPBMessage *self,
//% TYPE$S NAME$S GPBFieldDescriptor *field) {
//% return (TYPE *)GPBGetObjectIvarWithField(self, field);
//%}
//%
//%// Only exists for public api, no core code should use this.
//%void GPBSetMessage##NAME##Field(GPBMessage *self,
//% NAME$S GPBFieldDescriptor *field,
//% NAME$S TYPE *value) {
//% GPBSetObjectIvarWithField(self, field, (id)value);
//%}
//%
// Object types are handled slightly differently, they need to be released
// and retained.
void GPBSetAutocreatedRetainedObjectIvarWithField(
GPBMessage *self, GPBFieldDescriptor *field,
id __attribute__((ns_consumed)) value) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
NSCAssert(*typePtr == NULL, @"Can't set autocreated object more than once.");
*typePtr = value;
}
void GPBClearAutocreatedMessageIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
return;
}
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
GPBMessage *oldValue = *typePtr;
*typePtr = NULL;
GPBClearMessageAutocreator(oldValue);
[oldValue release];
}
// This exists only for briging some aliased types, nothing else should use it.
static void GPBSetObjectIvarWithField(GPBMessage *self,
GPBFieldDescriptor *field, id value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetRetainedObjectIvarWithFieldInternal(self, field, [value retain],
syntax);
}
void GPBSetObjectIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field, id value,
GPBFileSyntax syntax) {
GPBSetRetainedObjectIvarWithFieldInternal(self, field, [value retain],
syntax);
}
void GPBSetRetainedObjectIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
id value, GPBFileSyntax syntax) {
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
GPBDataType fieldType = GPBGetFieldDataType(field);
BOOL isMapOrArray = GPBFieldIsMapOrArray(field);
BOOL fieldIsMessage = GPBDataTypeIsMessage(fieldType);
#ifdef DEBUG
if (value == nil && !isMapOrArray && !fieldIsMessage &&
field.hasDefaultValue) {
// Setting a message to nil is an obvious way to "clear" the value
// as there is no way to set a non-empty default value for messages.
//
// For Strings and Bytes that have default values set it is not clear what
// should be done when their value is set to nil. Is the intention just to
// clear the set value and reset to default, or is the intention to set the
// value to the empty string/data? Arguments can be made for both cases.
// 'nil' has been abused as a replacement for an empty string/data in ObjC.
// We decided to be consistent with all "object" types and clear the has
// field, and fall back on the default value. The warning below will only
// appear in debug, but the could should be changed so the intention is
// clear.
NSString *hasSel = NSStringFromSelector(field->hasOrCountSel_);
NSString *propName = field.name;
NSString *className = self.descriptor.name;
NSLog(@"warning: '%@.%@ = nil;' is not clearly defined for fields with "
@"default values. Please use '%@.%@ = %@' if you want to set it to "
@"empty, or call '%@.%@ = NO' to reset it to it's default value of "
@"'%@'. Defaulting to resetting default value.",
className, propName, className, propName,
(fieldType == GPBDataTypeString) ? @"@\"\"" : @"GPBEmptyNSData()",
className, hasSel, field.defaultValue.valueString);
// Note: valueString, depending on the type, it could easily be
// valueData/valueMessage.
}
#endif // DEBUG
if (!isMapOrArray) {
// Non repeated/map can be in an oneof, clear any existing value from the
// oneof.
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
// Clear "has" if they are being set to nil.
BOOL setHasValue = (value != nil);
// Under proto3, Bytes & String fields get cleared by resetting them to
// their default (empty) values, so if they are set to something of length
// zero, they are being cleared.
if ((syntax == GPBFileSyntaxProto3) && !fieldIsMessage &&
([value length] == 0)) {
// Except, if the field was in a oneof, then it still gets recorded as
// having been set so the state of the oneof can be serialized back out.
if (!oneof) {
setHasValue = NO;
}
if (setHasValue) {
NSCAssert(value != nil, @"Should never be setting has for nil");
} else {
// The value passed in was retained, it must be released since we
// aren't saving anything in the field.
[value release];
value = nil;
}
}
GPBSetHasIvarField(self, field, setHasValue);
}
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
id oldValue = *typePtr;
*typePtr = value;
if (oldValue) {
if (isMapOrArray) {
if (field.fieldType == GPBFieldTypeRepeated) {
// If the old array was autocreated by us, then clear it.
if (GPBDataTypeIsObject(fieldType)) {
GPBAutocreatedArray *autoArray = oldValue;
if (autoArray->_autocreator == self) {
autoArray->_autocreator = nil;
}
} else {
// Type doesn't matter, it is a GPB*Array.
GPBInt32Array *gpbArray = oldValue;
if (gpbArray->_autocreator == self) {
gpbArray->_autocreator = nil;
}
}
} else { // GPBFieldTypeMap
// If the old map was autocreated by us, then clear it.
if ((field.mapKeyDataType == GPBDataTypeString) &&
GPBDataTypeIsObject(fieldType)) {
GPBAutocreatedDictionary *autoDict = oldValue;
if (autoDict->_autocreator == self) {
autoDict->_autocreator = nil;
}
} else {
// Type doesn't matter, it is a GPB*Dictionary.
GPBInt32Int32Dictionary *gpbDict = oldValue;
if (gpbDict->_autocreator == self) {
gpbDict->_autocreator = nil;
}
}
}
} else if (fieldIsMessage) {
// If the old message value was autocreated by us, then clear it.
GPBMessage *oldMessageValue = oldValue;
if (GPBWasMessageAutocreatedBy(oldMessageValue, self)) {
GPBClearMessageAutocreator(oldMessageValue);
}
}
[oldValue release];
}
GPBBecomeVisibleToAutocreator(self);
}
id GPBGetObjectIvarWithFieldNoAutocreate(GPBMessage *self,
GPBFieldDescriptor *field) {
if (self->messageStorage_ == nil) {
return nil;
}
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
return *typePtr;
}
id GPBGetObjectIvarWithField(GPBMessage *self, GPBFieldDescriptor *field) {
NSCAssert(!GPBFieldIsMapOrArray(field), @"Shouldn't get here");
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
id *typePtr = (id *)&storage[field->description_->offset];
return *typePtr;
}
// Not set...
// Non messages (string/data), get their default.
if (!GPBFieldDataTypeIsMessage(field)) {
return field.defaultValue.valueMessage;
}
GPBPrepareReadOnlySemaphore(self);
dispatch_semaphore_wait(self->readOnlySemaphore_, DISPATCH_TIME_FOREVER);
GPBMessage *result = GPBGetObjectIvarWithFieldNoAutocreate(self, field);
if (!result) {
// For non repeated messages, create the object, set it and return it.
// This object will not initially be visible via GPBGetHasIvar, so
// we save its creator so it can become visible if it's mutated later.
result = GPBCreateMessageWithAutocreator(field.msgClass, self, field);
GPBSetAutocreatedRetainedObjectIvarWithField(self, field, result);
}
dispatch_semaphore_signal(self->readOnlySemaphore_);
return result;
}
// Only exists for public api, no core code should use this.
int32_t GPBGetMessageEnumField(GPBMessage *self, GPBFieldDescriptor *field) {
GPBFileSyntax syntax = [self descriptor].file.syntax;
return GPBGetEnumIvarWithFieldInternal(self, field, syntax);
}
int32_t GPBGetEnumIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
GPBFileSyntax syntax) {
int32_t result = GPBGetMessageInt32Field(self, field);
// If this is presevering unknown enums, make sure the value is valid before
// returning it.
if (GPBHasPreservingUnknownEnumSemantics(syntax) &&
![field isValidEnumValue:result]) {
result = kGPBUnrecognizedEnumeratorValue;
}
return result;
}
// Only exists for public api, no core code should use this.
void GPBSetMessageEnumField(GPBMessage *self, GPBFieldDescriptor *field,
int32_t value) {
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetInt32IvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetEnumIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field, int32_t value,
GPBFileSyntax syntax) {
// Don't allow in unknown values. Proto3 can use the Raw method.
if (![field isValidEnumValue:value]) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@: Attempt to set an unknown enum value (%d)",
[self class], field.name, value];
}
GPBSetInt32IvarWithFieldInternal(self, field, value, syntax);
}
// Only exists for public api, no core code should use this.
int32_t GPBGetMessageRawEnumField(GPBMessage *self,
GPBFieldDescriptor *field) {
int32_t result = GPBGetMessageInt32Field(self, field);
return result;
}
// Only exists for public api, no core code should use this.
void GPBSetMessageRawEnumField(GPBMessage *self, GPBFieldDescriptor *field,
int32_t value) {
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetInt32IvarWithFieldInternal(self, field, value, syntax);
}
BOOL GPBGetMessageBoolField(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
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
// Bools are stored in the 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)
GPBMessageFieldDescription *fieldDesc = field->description_;
return GPBGetHasIvar(self, (int32_t)(fieldDesc->offset), fieldDesc->number);
} else {
return field.defaultValue.valueBool;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageBoolField(GPBMessage *self,
GPBFieldDescriptor *field,
BOOL value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetBoolIvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetBoolIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
BOOL value,
GPBFileSyntax syntax) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
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
// Bools are stored in the 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)
GPBSetHasIvar(self, (int32_t)(fieldDesc->offset), fieldDesc->number, value);
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (BOOL)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(Int32, int32_t)
// This block of code is generated, do not edit it directly.
int32_t GPBGetMessageInt32Field(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
int32_t *typePtr = (int32_t *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueInt32;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageInt32Field(GPBMessage *self,
GPBFieldDescriptor *field,
int32_t value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetInt32IvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetInt32IvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
int32_t value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
int32_t *typePtr = (int32_t *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (int32_t)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(UInt32, uint32_t)
// This block of code is generated, do not edit it directly.
uint32_t GPBGetMessageUInt32Field(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
uint32_t *typePtr = (uint32_t *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueUInt32;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageUInt32Field(GPBMessage *self,
GPBFieldDescriptor *field,
uint32_t value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetUInt32IvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetUInt32IvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
uint32_t value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
uint32_t *typePtr = (uint32_t *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (uint32_t)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(Int64, int64_t)
// This block of code is generated, do not edit it directly.
int64_t GPBGetMessageInt64Field(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
int64_t *typePtr = (int64_t *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueInt64;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageInt64Field(GPBMessage *self,
GPBFieldDescriptor *field,
int64_t value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetInt64IvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetInt64IvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
int64_t value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
int64_t *typePtr = (int64_t *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (int64_t)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(UInt64, uint64_t)
// This block of code is generated, do not edit it directly.
uint64_t GPBGetMessageUInt64Field(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
uint64_t *typePtr = (uint64_t *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueUInt64;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageUInt64Field(GPBMessage *self,
GPBFieldDescriptor *field,
uint64_t value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetUInt64IvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetUInt64IvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
uint64_t value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
uint64_t *typePtr = (uint64_t *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (uint64_t)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(Float, float)
// This block of code is generated, do not edit it directly.
float GPBGetMessageFloatField(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
float *typePtr = (float *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueFloat;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageFloatField(GPBMessage *self,
GPBFieldDescriptor *field,
float value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetFloatIvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetFloatIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
float value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
float *typePtr = (float *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (float)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
//%PDDM-EXPAND IVAR_POD_ACCESSORS_DEFN(Double, double)
// This block of code is generated, do not edit it directly.
double GPBGetMessageDoubleField(GPBMessage *self,
GPBFieldDescriptor *field) {
if (GPBGetHasIvarField(self, field)) {
uint8_t *storage = (uint8_t *)self->messageStorage_;
double *typePtr = (double *)&storage[field->description_->offset];
return *typePtr;
} else {
return field.defaultValue.valueDouble;
}
}
// Only exists for public api, no core code should use this.
void GPBSetMessageDoubleField(GPBMessage *self,
GPBFieldDescriptor *field,
double value) {
if (self == nil || field == nil) return;
GPBFileSyntax syntax = [self descriptor].file.syntax;
GPBSetDoubleIvarWithFieldInternal(self, field, value, syntax);
}
void GPBSetDoubleIvarWithFieldInternal(GPBMessage *self,
GPBFieldDescriptor *field,
double value,
GPBFileSyntax syntax) {
GPBOneofDescriptor *oneof = field->containingOneof_;
if (oneof) {
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
GPBMessageFieldDescription *fieldDesc = field->description_;
GPBMaybeClearOneof(self, oneof, fieldDesc->hasIndex, fieldDesc->number);
}
NSCAssert(self->messageStorage_ != NULL,
@"%@: All messages should have storage (from init)",
[self class]);
#if defined(__clang_analyzer__)
if (self->messageStorage_ == NULL) return;
#endif
uint8_t *storage = (uint8_t *)self->messageStorage_;
double *typePtr = (double *)&storage[field->description_->offset];
*typePtr = value;
// proto2: any value counts as having been set; proto3, it
// has to be a non zero value or be in a oneof.
BOOL hasValue = ((syntax == GPBFileSyntaxProto2)
|| (value != (double)0)
|| (field->containingOneof_ != NULL));
GPBSetHasIvarField(self, field, hasValue);
GPBBecomeVisibleToAutocreator(self);
}
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
//%PDDM-EXPAND-END (6 expansions)
// Aliases are function calls that are virtually the same.
//%PDDM-EXPAND IVAR_ALIAS_DEFN_OBJECT(String, NSString)
// This block of code is generated, do not edit it directly.
// Only exists for public api, no core code should use this.
NSString *GPBGetMessageStringField(GPBMessage *self,
GPBFieldDescriptor *field) {
return (NSString *)GPBGetObjectIvarWithField(self, field);
}
// Only exists for public api, no core code should use this.
void GPBSetMessageStringField(GPBMessage *self,
GPBFieldDescriptor *field,
NSString *value) {
GPBSetObjectIvarWithField(self, field, (id)value);
}
//%PDDM-EXPAND IVAR_ALIAS_DEFN_OBJECT(Bytes, NSData)
// This block of code is generated, do not edit it directly.
// Only exists for public api, no core code should use this.
NSData *GPBGetMessageBytesField(GPBMessage *self,
GPBFieldDescriptor *field) {
return (NSData *)GPBGetObjectIvarWithField(self, field);
}
// Only exists for public api, no core code should use this.
void GPBSetMessageBytesField(GPBMessage *self,
GPBFieldDescriptor *field,
NSData *value) {
GPBSetObjectIvarWithField(self, field, (id)value);
}
//%PDDM-EXPAND IVAR_ALIAS_DEFN_OBJECT(Message, GPBMessage)
// This block of code is generated, do not edit it directly.
// Only exists for public api, no core code should use this.
GPBMessage *GPBGetMessageMessageField(GPBMessage *self,
GPBFieldDescriptor *field) {
return (GPBMessage *)GPBGetObjectIvarWithField(self, field);
}
// Only exists for public api, no core code should use this.
void GPBSetMessageMessageField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBMessage *value) {
GPBSetObjectIvarWithField(self, field, (id)value);
}
//%PDDM-EXPAND IVAR_ALIAS_DEFN_OBJECT(Group, GPBMessage)
// This block of code is generated, do not edit it directly.
// Only exists for public api, no core code should use this.
GPBMessage *GPBGetMessageGroupField(GPBMessage *self,
GPBFieldDescriptor *field) {
return (GPBMessage *)GPBGetObjectIvarWithField(self, field);
}
// Only exists for public api, no core code should use this.
void GPBSetMessageGroupField(GPBMessage *self,
GPBFieldDescriptor *field,
GPBMessage *value) {
GPBSetObjectIvarWithField(self, field, (id)value);
}
//%PDDM-EXPAND-END (4 expansions)
// GPBGetMessageRepeatedField is defined in GPBMessage.m
// Only exists for public api, no core code should use this.
void GPBSetMessageRepeatedField(GPBMessage *self, GPBFieldDescriptor *field, id array) {
#if defined(DEBUG) && DEBUG
if (field.fieldType != GPBFieldTypeRepeated) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@ is not a repeated field.",
[self class], field.name];
}
Class expectedClass = Nil;
switch (GPBGetFieldDataType(field)) {
case GPBDataTypeBool:
expectedClass = [GPBBoolArray class];
break;
case GPBDataTypeSFixed32:
case GPBDataTypeInt32:
case GPBDataTypeSInt32:
expectedClass = [GPBInt32Array class];
break;
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
expectedClass = [GPBUInt32Array class];
break;
case GPBDataTypeSFixed64:
case GPBDataTypeInt64:
case GPBDataTypeSInt64:
expectedClass = [GPBInt64Array class];
break;
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
expectedClass = [GPBUInt64Array class];
break;
case GPBDataTypeFloat:
expectedClass = [GPBFloatArray class];
break;
case GPBDataTypeDouble:
expectedClass = [GPBDoubleArray class];
break;
case GPBDataTypeBytes:
case GPBDataTypeString:
case GPBDataTypeMessage:
case GPBDataTypeGroup:
expectedClass = [NSMutableArray class];
break;
case GPBDataTypeEnum:
expectedClass = [GPBEnumArray class];
break;
}
if (array && ![array isKindOfClass:expectedClass]) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@: Expected %@ object, got %@.",
[self class], field.name, expectedClass, [array class]];
}
#endif
GPBSetObjectIvarWithField(self, field, array);
}
#if defined(DEBUG) && DEBUG
static NSString *TypeToStr(GPBDataType dataType) {
switch (dataType) {
case GPBDataTypeBool:
return @"Bool";
case GPBDataTypeSFixed32:
case GPBDataTypeInt32:
case GPBDataTypeSInt32:
return @"Int32";
case GPBDataTypeFixed32:
case GPBDataTypeUInt32:
return @"UInt32";
case GPBDataTypeSFixed64:
case GPBDataTypeInt64:
case GPBDataTypeSInt64:
return @"Int64";
case GPBDataTypeFixed64:
case GPBDataTypeUInt64:
return @"UInt64";
case GPBDataTypeFloat:
return @"Float";
case GPBDataTypeDouble:
return @"Double";
case GPBDataTypeBytes:
case GPBDataTypeString:
case GPBDataTypeMessage:
case GPBDataTypeGroup:
return @"Object";
case GPBDataTypeEnum:
return @"Bool";
}
}
#endif
// GPBGetMessageMapField is defined in GPBMessage.m
// Only exists for public api, no core code should use this.
void GPBSetMessageMapField(GPBMessage *self, GPBFieldDescriptor *field,
id dictionary) {
#if defined(DEBUG) && DEBUG
if (field.fieldType != GPBFieldTypeMap) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@ is not a map<> field.",
[self class], field.name];
}
if (dictionary) {
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = GPBGetFieldDataType(field);
NSString *keyStr = TypeToStr(keyDataType);
NSString *valueStr = TypeToStr(valueDataType);
if (keyDataType == GPBDataTypeString) {
keyStr = @"String";
}
Class expectedClass = Nil;
if ((keyDataType == GPBDataTypeString) &&
GPBDataTypeIsObject(valueDataType)) {
expectedClass = [NSMutableDictionary class];
} else {
NSString *className =
[NSString stringWithFormat:@"GPB%@%@Dictionary", keyStr, valueStr];
expectedClass = NSClassFromString(className);
NSCAssert(expectedClass, @"Missing a class (%@)?", expectedClass);
}
if (![dictionary isKindOfClass:expectedClass]) {
[NSException raise:NSInvalidArgumentException
format:@"%@.%@: Expected %@ object, got %@.",
[self class], field.name, expectedClass,
[dictionary class]];
}
}
#endif
GPBSetObjectIvarWithField(self, field, dictionary);
}
#pragma mark - Misc Dynamic Runtime Utils
const char *GPBMessageEncodingForSelector(SEL selector, BOOL instanceSel) {
Protocol *protocol =
objc_getProtocol(GPBStringifySymbol(GPBMessageSignatureProtocol));
struct objc_method_description description =
protocol_getMethodDescription(protocol, selector, NO, instanceSel);
return description.types;
}
#pragma mark - Text Format Support
static void AppendStringEscaped(NSString *toPrint, NSMutableString *destStr) {
[destStr appendString:@"\""];
NSUInteger len = [toPrint length];
for (NSUInteger i = 0; i < len; ++i) {
unichar aChar = [toPrint characterAtIndex:i];
switch (aChar) {
case '\n': [destStr appendString:@"\\n"]; break;
case '\r': [destStr appendString:@"\\r"]; break;
case '\t': [destStr appendString:@"\\t"]; break;
case '\"': [destStr appendString:@"\\\""]; break;
case '\'': [destStr appendString:@"\\\'"]; break;
case '\\': [destStr appendString:@"\\\\"]; break;
default:
// This differs slightly from the C++ code in that the C++ doesn't
// generate UTF8; it looks at the string in UTF8, but escapes every
// byte > 0x7E.
if (aChar < 0x20) {
[destStr appendFormat:@"\\%d%d%d",
(aChar / 64), ((aChar % 64) / 8), (aChar % 8)];
} else {
[destStr appendFormat:@"%C", aChar];
}
break;
}
}
[destStr appendString:@"\""];
}
static void AppendBufferAsString(NSData *buffer, NSMutableString *destStr) {
const char *src = (const char *)[buffer bytes];
size_t srcLen = [buffer length];
[destStr appendString:@"\""];
for (const char *srcEnd = src + srcLen; src < srcEnd; src++) {
switch (*src) {
case '\n': [destStr appendString:@"\\n"]; break;
case '\r': [destStr appendString:@"\\r"]; break;
case '\t': [destStr appendString:@"\\t"]; break;
case '\"': [destStr appendString:@"\\\""]; break;
case '\'': [destStr appendString:@"\\\'"]; break;
case '\\': [destStr appendString:@"\\\\"]; break;
default:
if (isprint(*src)) {
[destStr appendFormat:@"%c", *src];
} else {
// NOTE: doing hex means you have to worry about the letter after
// the hex being another hex char and forcing that to be escaped, so
// use octal to keep it simple.
[destStr appendFormat:@"\\%03o", (uint8_t)(*src)];
}
break;
}
}
[destStr appendString:@"\""];
}
static void AppendTextFormatForMapMessageField(
id map, GPBFieldDescriptor *field, NSMutableString *toStr,
NSString *lineIndent, NSString *fieldName, NSString *lineEnding) {
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = GPBGetFieldDataType(field);
BOOL isMessageValue = GPBDataTypeIsMessage(valueDataType);
NSString *msgStartFirst =
[NSString stringWithFormat:@"%@%@ {%@\n", lineIndent, fieldName, lineEnding];
NSString *msgStart =
[NSString stringWithFormat:@"%@%@ {\n", lineIndent, fieldName];
NSString *msgEnd = [NSString stringWithFormat:@"%@}\n", lineIndent];
NSString *keyLine = [NSString stringWithFormat:@"%@ key: ", lineIndent];
NSString *valueLine = [NSString stringWithFormat:@"%@ value%s ", lineIndent,
(isMessageValue ? "" : ":")];
__block BOOL isFirst = YES;
if ((keyDataType == GPBDataTypeString) &&
GPBDataTypeIsObject(valueDataType)) {
// map is an NSDictionary.
NSDictionary *dict = map;
[dict enumerateKeysAndObjectsUsingBlock:^(NSString *key, id value, BOOL *stop) {
#pragma unused(stop)
[toStr appendString:(isFirst ? msgStartFirst : msgStart)];
isFirst = NO;
[toStr appendString:keyLine];
AppendStringEscaped(key, toStr);
[toStr appendString:@"\n"];
[toStr appendString:valueLine];
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wswitch-enum"
switch (valueDataType) {
case GPBDataTypeString:
AppendStringEscaped(value, toStr);
break;
case GPBDataTypeBytes:
AppendBufferAsString(value, toStr);
break;
case GPBDataTypeMessage:
[toStr appendString:@"{\n"];
NSString *subIndent = [lineIndent stringByAppendingString:@" "];
AppendTextFormatForMessage(value, toStr, subIndent);
[toStr appendFormat:@"%@ }", lineIndent];
break;
default:
NSCAssert(NO, @"Can't happen");
break;
}
#pragma clang diagnostic pop
[toStr appendString:@"\n"];
[toStr appendString:msgEnd];
}];
} else {
// map is one of the GPB*Dictionary classes, type doesn't matter.
GPBInt32Int32Dictionary *dict = map;
[dict enumerateForTextFormat:^(id keyObj, id valueObj) {
[toStr appendString:(isFirst ? msgStartFirst : msgStart)];
isFirst = NO;
// Key always is a NSString.
if (keyDataType == GPBDataTypeString) {
[toStr appendString:keyLine];
AppendStringEscaped(keyObj, toStr);
[toStr appendString:@"\n"];
} else {
[toStr appendFormat:@"%@%@\n", keyLine, keyObj];
}
[toStr appendString:valueLine];
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wswitch-enum"
switch (valueDataType) {
case GPBDataTypeString:
AppendStringEscaped(valueObj, toStr);
break;
case GPBDataTypeBytes:
AppendBufferAsString(valueObj, toStr);
break;
case GPBDataTypeMessage:
[toStr appendString:@"{\n"];
NSString *subIndent = [lineIndent stringByAppendingString:@" "];
AppendTextFormatForMessage(valueObj, toStr, subIndent);
[toStr appendFormat:@"%@ }", lineIndent];
break;
case GPBDataTypeEnum: {
int32_t enumValue = [valueObj intValue];
NSString *valueStr = nil;
GPBEnumDescriptor *descriptor = field.enumDescriptor;
if (descriptor) {
valueStr = [descriptor textFormatNameForValue:enumValue];
}
if (valueStr) {
[toStr appendString:valueStr];
} else {
[toStr appendFormat:@"%d", enumValue];
}
break;
}
default:
NSCAssert(valueDataType != GPBDataTypeGroup, @"Can't happen");
// Everything else is a NSString.
[toStr appendString:valueObj];
break;
}
#pragma clang diagnostic pop
[toStr appendString:@"\n"];
[toStr appendString:msgEnd];
}];
}
}
static void AppendTextFormatForMessageField(GPBMessage *message,
GPBFieldDescriptor *field,
NSMutableString *toStr,
NSString *lineIndent) {
id arrayOrMap;
NSUInteger count;
GPBFieldType fieldType = field.fieldType;
switch (fieldType) {
case GPBFieldTypeSingle:
arrayOrMap = nil;
count = (GPBGetHasIvarField(message, field) ? 1 : 0);
break;
case GPBFieldTypeRepeated:
// Will be NSArray or GPB*Array, type doesn't matter, they both
// implement count.
arrayOrMap = GPBGetObjectIvarWithFieldNoAutocreate(message, field);
count = [(NSArray *)arrayOrMap count];
break;
case GPBFieldTypeMap: {
// Will be GPB*Dictionary or NSMutableDictionary, type doesn't matter,
// they both implement count.
arrayOrMap = GPBGetObjectIvarWithFieldNoAutocreate(message, field);
count = [(NSDictionary *)arrayOrMap count];
break;
}
}
if (count == 0) {
// Nothing to print, out of here.
return;
}
NSString *lineEnding = @"";
// If the name can't be reversed or support for extra info was turned off,
// this can return nil.
NSString *fieldName = [field textFormatName];
if ([fieldName length] == 0) {
fieldName = [NSString stringWithFormat:@"%u", GPBFieldNumber(field)];
// If there is only one entry, put the objc name as a comment, other wise
// add it before the repeated values.
if (count > 1) {
[toStr appendFormat:@"%@# %@\n", lineIndent, field.name];
} else {
lineEnding = [NSString stringWithFormat:@" # %@", field.name];
}
}
if (fieldType == GPBFieldTypeMap) {
AppendTextFormatForMapMessageField(arrayOrMap, field, toStr, lineIndent,
fieldName, lineEnding);
return;
}
id array = arrayOrMap;
const BOOL isRepeated = (array != nil);
GPBDataType fieldDataType = GPBGetFieldDataType(field);
BOOL isMessageField = GPBDataTypeIsMessage(fieldDataType);
for (NSUInteger j = 0; j < count; ++j) {
// Start the line.
[toStr appendFormat:@"%@%@%s ", lineIndent, fieldName,
(isMessageField ? "" : ":")];
// The value.
switch (fieldDataType) {
#define FIELD_CASE(GPBDATATYPE, CTYPE, REAL_TYPE, ...) \
case GPBDataType##GPBDATATYPE: { \
CTYPE v = (isRepeated ? [(GPB##REAL_TYPE##Array *)array valueAtIndex:j] \
: GPBGetMessage##REAL_TYPE##Field(message, field)); \
[toStr appendFormat:__VA_ARGS__, v]; \
break; \
}
FIELD_CASE(Int32, int32_t, Int32, @"%d")
FIELD_CASE(SInt32, int32_t, Int32, @"%d")
FIELD_CASE(SFixed32, int32_t, Int32, @"%d")
FIELD_CASE(UInt32, uint32_t, UInt32, @"%u")
FIELD_CASE(Fixed32, uint32_t, UInt32, @"%u")
FIELD_CASE(Int64, int64_t, Int64, @"%lld")
FIELD_CASE(SInt64, int64_t, Int64, @"%lld")
FIELD_CASE(SFixed64, int64_t, Int64, @"%lld")
FIELD_CASE(UInt64, uint64_t, UInt64, @"%llu")
FIELD_CASE(Fixed64, uint64_t, UInt64, @"%llu")
FIELD_CASE(Float, float, Float, @"%.*g", FLT_DIG)
FIELD_CASE(Double, double, Double, @"%.*lg", DBL_DIG)
#undef FIELD_CASE
case GPBDataTypeEnum: {
int32_t v = (isRepeated ? [(GPBEnumArray *)array rawValueAtIndex:j]
: GPBGetMessageInt32Field(message, field));
NSString *valueStr = nil;
GPBEnumDescriptor *descriptor = field.enumDescriptor;
if (descriptor) {
valueStr = [descriptor textFormatNameForValue:v];
}
if (valueStr) {
[toStr appendString:valueStr];
} else {
[toStr appendFormat:@"%d", v];
}
break;
}
case GPBDataTypeBool: {
BOOL v = (isRepeated ? [(GPBBoolArray *)array valueAtIndex:j]
: GPBGetMessageBoolField(message, field));
[toStr appendString:(v ? @"true" : @"false")];
break;
}
case GPBDataTypeString: {
NSString *v = (isRepeated ? [(NSArray *)array objectAtIndex:j]
: GPBGetMessageStringField(message, field));
AppendStringEscaped(v, toStr);
break;
}
case GPBDataTypeBytes: {
NSData *v = (isRepeated ? [(NSArray *)array objectAtIndex:j]
: GPBGetMessageBytesField(message, field));
AppendBufferAsString(v, toStr);
break;
}
case GPBDataTypeGroup:
case GPBDataTypeMessage: {
GPBMessage *v =
(isRepeated ? [(NSArray *)array objectAtIndex:j]
: GPBGetObjectIvarWithField(message, field));
[toStr appendFormat:@"{%@\n", lineEnding];
NSString *subIndent = [lineIndent stringByAppendingString:@" "];
AppendTextFormatForMessage(v, toStr, subIndent);
[toStr appendFormat:@"%@}", lineIndent];
lineEnding = @"";
break;
}
} // switch(fieldDataType)
// End the line.
[toStr appendFormat:@"%@\n", lineEnding];
} // for(count)
}
static void AppendTextFormatForMessageExtensionRange(GPBMessage *message,
NSArray *activeExtensions,
GPBExtensionRange range,
NSMutableString *toStr,
NSString *lineIndent) {
uint32_t start = range.start;
uint32_t end = range.end;
for (GPBExtensionDescriptor *extension in activeExtensions) {
uint32_t fieldNumber = extension.fieldNumber;
if (fieldNumber < start) {
// Not there yet.
continue;
}
if (fieldNumber > end) {
// Done.
break;
}
id rawExtValue = [message getExtension:extension];
BOOL isRepeated = extension.isRepeated;
NSUInteger numValues = 1;
NSString *lineEnding = @"";
if (isRepeated) {
numValues = [(NSArray *)rawExtValue count];
}
NSString *singletonName = extension.singletonName;
if (numValues == 1) {
lineEnding = [NSString stringWithFormat:@" # [%@]", singletonName];
} else {
[toStr appendFormat:@"%@# [%@]\n", lineIndent, singletonName];
}
GPBDataType extDataType = extension.dataType;
for (NSUInteger j = 0; j < numValues; ++j) {
id curValue = (isRepeated ? [rawExtValue objectAtIndex:j] : rawExtValue);
// Start the line.
[toStr appendFormat:@"%@%u%s ", lineIndent, fieldNumber,
(GPBDataTypeIsMessage(extDataType) ? "" : ":")];
// The value.
switch (extDataType) {
#define FIELD_CASE(GPBDATATYPE, CTYPE, NUMSELECTOR, ...) \
case GPBDataType##GPBDATATYPE: { \
CTYPE v = [(NSNumber *)curValue NUMSELECTOR]; \
[toStr appendFormat:__VA_ARGS__, v]; \
break; \
}
FIELD_CASE(Int32, int32_t, intValue, @"%d")
FIELD_CASE(SInt32, int32_t, intValue, @"%d")
FIELD_CASE(SFixed32, int32_t, unsignedIntValue, @"%d")
FIELD_CASE(UInt32, uint32_t, unsignedIntValue, @"%u")
FIELD_CASE(Fixed32, uint32_t, unsignedIntValue, @"%u")
FIELD_CASE(Int64, int64_t, longLongValue, @"%lld")
FIELD_CASE(SInt64, int64_t, longLongValue, @"%lld")
FIELD_CASE(SFixed64, int64_t, longLongValue, @"%lld")
FIELD_CASE(UInt64, uint64_t, unsignedLongLongValue, @"%llu")
FIELD_CASE(Fixed64, uint64_t, unsignedLongLongValue, @"%llu")
FIELD_CASE(Float, float, floatValue, @"%.*g", FLT_DIG)
FIELD_CASE(Double, double, doubleValue, @"%.*lg", DBL_DIG)
// TODO: Add a comment with the enum name from enum descriptors
// (might not be real value, so leave it as a comment, ObjC compiler
// name mangles differently). Doesn't look like we actually generate
// an enum descriptor reference like we do for normal fields, so this
// will take a compiler change.
FIELD_CASE(Enum, int32_t, intValue, @"%d")
#undef FIELD_CASE
case GPBDataTypeBool:
[toStr appendString:([(NSNumber *)curValue boolValue] ? @"true"
: @"false")];
break;
case GPBDataTypeString:
AppendStringEscaped(curValue, toStr);
break;
case GPBDataTypeBytes:
AppendBufferAsString((NSData *)curValue, toStr);
break;
case GPBDataTypeGroup:
case GPBDataTypeMessage: {
[toStr appendFormat:@"{%@\n", lineEnding];
NSString *subIndent = [lineIndent stringByAppendingString:@" "];
AppendTextFormatForMessage(curValue, toStr, subIndent);
[toStr appendFormat:@"%@}", lineIndent];
lineEnding = @"";
break;
}
} // switch(extDataType)
} // for(numValues)
// End the line.
[toStr appendFormat:@"%@\n", lineEnding];
} // for..in(activeExtensions)
}
static void AppendTextFormatForMessage(GPBMessage *message,
NSMutableString *toStr,
NSString *lineIndent) {
GPBDescriptor *descriptor = [message descriptor];
NSArray *fieldsArray = descriptor->fields_;
NSUInteger fieldCount = fieldsArray.count;
const GPBExtensionRange *extensionRanges = descriptor.extensionRanges;
NSUInteger extensionRangesCount = descriptor.extensionRangesCount;
NSArray *activeExtensions = [[message extensionsCurrentlySet]
sortedArrayUsingSelector:@selector(compareByFieldNumber:)];
for (NSUInteger i = 0, j = 0; i < fieldCount || j < extensionRangesCount;) {
if (i == fieldCount) {
AppendTextFormatForMessageExtensionRange(
message, activeExtensions, extensionRanges[j++], toStr, lineIndent);
} else if (j == extensionRangesCount ||
GPBFieldNumber(fieldsArray[i]) < extensionRanges[j].start) {
AppendTextFormatForMessageField(message, fieldsArray[i++], toStr,
lineIndent);
} else {
AppendTextFormatForMessageExtensionRange(
message, activeExtensions, extensionRanges[j++], toStr, lineIndent);
}
}
NSString *unknownFieldsStr =
GPBTextFormatForUnknownFieldSet(message.unknownFields, lineIndent);
if ([unknownFieldsStr length] > 0) {
[toStr appendFormat:@"%@# --- Unknown fields ---\n", lineIndent];
[toStr appendString:unknownFieldsStr];
}
}
NSString *GPBTextFormatForMessage(GPBMessage *message, NSString *lineIndent) {
if (message == nil) return @"";
if (lineIndent == nil) lineIndent = @"";
NSMutableString *buildString = [NSMutableString string];
AppendTextFormatForMessage(message, buildString, lineIndent);
return buildString;
}
NSString *GPBTextFormatForUnknownFieldSet(GPBUnknownFieldSet *unknownSet,
NSString *lineIndent) {
if (unknownSet == nil) return @"";
if (lineIndent == nil) lineIndent = @"";
NSMutableString *result = [NSMutableString string];
for (GPBUnknownField *field in [unknownSet sortedFields]) {
int32_t fieldNumber = [field number];
#define PRINT_LOOP(PROPNAME, CTYPE, FORMAT) \
[field.PROPNAME \
enumerateValuesWithBlock:^(CTYPE value, NSUInteger idx, BOOL * stop) { \
_Pragma("unused(idx, stop)"); \
[result \
appendFormat:@"%@%d: " #FORMAT "\n", lineIndent, fieldNumber, value]; \
}];
PRINT_LOOP(varintList, uint64_t, %llu);
PRINT_LOOP(fixed32List, uint32_t, 0x%X);
PRINT_LOOP(fixed64List, uint64_t, 0x%llX);
#undef PRINT_LOOP
// NOTE: C++ version of TextFormat tries to parse this as a message
// and print that if it succeeds.
for (NSData *data in field.lengthDelimitedList) {
[result appendFormat:@"%@%d: ", lineIndent, fieldNumber];
AppendBufferAsString(data, result);
[result appendString:@"\n"];
}
for (GPBUnknownFieldSet *subUnknownSet in field.groupList) {
[result appendFormat:@"%@%d: {\n", lineIndent, fieldNumber];
NSString *subIndent = [lineIndent stringByAppendingString:@" "];
NSString *subUnknwonSetStr =
GPBTextFormatForUnknownFieldSet(subUnknownSet, subIndent);
[result appendString:subUnknwonSetStr];
[result appendFormat:@"%@}\n", lineIndent];
}
}
return result;
}
// Helpers to decode a varint. Not using GPBCodedInputStream version because
// that needs a state object, and we don't want to create an input stream out
// of the data.
GPB_INLINE int8_t ReadRawByteFromData(const uint8_t **data) {
int8_t result = *((int8_t *)(*data));
++(*data);
return result;
}
static int32_t ReadRawVarint32FromData(const uint8_t **data) {
int8_t tmp = ReadRawByteFromData(data);
if (tmp >= 0) {
return tmp;
}
int32_t result = tmp & 0x7f;
if ((tmp = ReadRawByteFromData(data)) >= 0) {
result |= tmp << 7;
} else {
result |= (tmp & 0x7f) << 7;
if ((tmp = ReadRawByteFromData(data)) >= 0) {
result |= tmp << 14;
} else {
result |= (tmp & 0x7f) << 14;
if ((tmp = ReadRawByteFromData(data)) >= 0) {
result |= tmp << 21;
} else {
result |= (tmp & 0x7f) << 21;
result |= (tmp = ReadRawByteFromData(data)) << 28;
if (tmp < 0) {
// Discard upper 32 bits.
for (int i = 0; i < 5; i++) {
if (ReadRawByteFromData(data) >= 0) {
return result;
}
}
[NSException raise:NSParseErrorException
format:@"Unable to read varint32"];
}
}
}
}
return result;
}
NSString *GPBDecodeTextFormatName(const uint8_t *decodeData, int32_t key,
NSString *inputStr) {
// decodData form:
// varint32: num entries
// for each entry:
// varint32: key
// bytes*: decode data
//
// decode data one of two forms:
// 1: a \0 followed by the string followed by an \0
// 2: bytecodes to transform an input into the right thing, ending with \0
//
// the bytes codes are of the form:
// 0xabbccccc
// 0x0 (all zeros), end.
// a - if set, add an underscore
// bb - 00 ccccc bytes as is
// bb - 10 ccccc upper first, as is on rest, ccccc byte total
// bb - 01 ccccc lower first, as is on rest, ccccc byte total
// bb - 11 ccccc all upper, ccccc byte total
if (!decodeData || !inputStr) {
return nil;
}
// Find key
const uint8_t *scan = decodeData;
int32_t numEntries = ReadRawVarint32FromData(&scan);
BOOL foundKey = NO;
while (!foundKey && (numEntries > 0)) {
--numEntries;
int32_t dataKey = ReadRawVarint32FromData(&scan);
if (dataKey == key) {
foundKey = YES;
} else {
// If it is a inlined string, it will start with \0; if it is bytecode it
// will start with a code. So advance one (skipping the inline string
// marker), and then loop until reaching the end marker (\0).
++scan;
while (*scan != 0) ++scan;
// Now move past the end marker.
++scan;
}
}
if (!foundKey) {
return nil;
}
// Decode
if (*scan == 0) {
// Inline string. Move over the marker, and NSString can take it as
// UTF8.
++scan;
NSString *result = [NSString stringWithUTF8String:(const char *)scan];
return result;
}
NSMutableString *result =
[NSMutableString stringWithCapacity:[inputStr length]];
const uint8_t kAddUnderscore = 0b10000000;
const uint8_t kOpMask = 0b01100000;
// const uint8_t kOpAsIs = 0b00000000;
const uint8_t kOpFirstUpper = 0b01000000;
const uint8_t kOpFirstLower = 0b00100000;
const uint8_t kOpAllUpper = 0b01100000;
const uint8_t kSegmentLenMask = 0b00011111;
NSInteger i = 0;
for (; *scan != 0; ++scan) {
if (*scan & kAddUnderscore) {
[result appendString:@"_"];
}
int segmentLen = *scan & kSegmentLenMask;
uint8_t decodeOp = *scan & kOpMask;
// Do op specific handling of the first character.
if (decodeOp == kOpFirstUpper) {
unichar c = [inputStr characterAtIndex:i];
[result appendFormat:@"%c", toupper((char)c)];
++i;
--segmentLen;
} else if (decodeOp == kOpFirstLower) {
unichar c = [inputStr characterAtIndex:i];
[result appendFormat:@"%c", tolower((char)c)];
++i;
--segmentLen;
}
// else op == kOpAsIs || op == kOpAllUpper
// Now pull over the rest of the length for this segment.
for (int x = 0; x < segmentLen; ++x) {
unichar c = [inputStr characterAtIndex:(i + x)];
if (decodeOp == kOpAllUpper) {
[result appendFormat:@"%c", toupper((char)c)];
} else {
[result appendFormat:@"%C", c];
}
}
i += segmentLen;
}
return result;
}
#pragma clang diagnostic pop
#pragma mark - GPBMessageSignatureProtocol
// A series of selectors that are used solely to get @encoding values
// for them by the dynamic protobuf runtime code. An object using the protocol
// needs to be declared for the protocol to be valid at runtime.
@interface GPBMessageSignatureProtocol : NSObject<GPBMessageSignatureProtocol>
@end
@implementation GPBMessageSignatureProtocol
@end