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GPBDictionary.m
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GPBDictionary.m
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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 "GPBDictionary_PackagePrivate.h"
#import "GPBCodedInputStream_PackagePrivate.h"
#import "GPBCodedOutputStream_PackagePrivate.h"
#import "GPBDescriptor_PackagePrivate.h"
#import "GPBMessage_PackagePrivate.h"
#import "GPBUtilities_PackagePrivate.h"
// ------------------------------ NOTE ------------------------------
// At the moment, this is all using NSNumbers in NSDictionaries under
// the hood, but it is all hidden so we can come back and optimize
// with direct CFDictionary usage later. The reason that wasn't
// done yet is needing to support 32bit iOS builds. Otherwise
// it would be pretty simple to store all this data in CFDictionaries
// directly.
// ------------------------------------------------------------------
// 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"
// Used to include code only visible to specific versions of the static
// analyzer. Useful for wrapping code that only exists to silence the analyzer.
// Determine the values you want to use for BEGIN_APPLE_BUILD_VERSION,
// END_APPLE_BUILD_VERSION using:
// xcrun clang -dM -E -x c /dev/null | grep __apple_build_version__
// Example usage:
// #if GPB_STATIC_ANALYZER_ONLY(5621, 5623) ... #endif
#define GPB_STATIC_ANALYZER_ONLY(BEGIN_APPLE_BUILD_VERSION, END_APPLE_BUILD_VERSION) \
(defined(__clang_analyzer__) && \
(__apple_build_version__ >= BEGIN_APPLE_BUILD_VERSION && \
__apple_build_version__ <= END_APPLE_BUILD_VERSION))
enum {
kMapKeyFieldNumber = 1,
kMapValueFieldNumber = 2,
};
static BOOL DictDefault_IsValidValue(int32_t value) {
// Anything but the bad value marker is allowed.
return (value != kGPBUnrecognizedEnumeratorValue);
}
//%PDDM-DEFINE SERIALIZE_SUPPORT_2_TYPE(VALUE_NAME, VALUE_TYPE, GPBDATATYPE_NAME1, GPBDATATYPE_NAME2)
//%static size_t ComputeDict##VALUE_NAME##FieldSize(VALUE_TYPE value, uint32_t fieldNum, GPBDataType dataType) {
//% if (dataType == GPBDataType##GPBDATATYPE_NAME1) {
//% return GPBCompute##GPBDATATYPE_NAME1##Size(fieldNum, value);
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME2) {
//% return GPBCompute##GPBDATATYPE_NAME2##Size(fieldNum, value);
//% } else {
//% NSCAssert(NO, @"Unexpected type %d", dataType);
//% return 0;
//% }
//%}
//%
//%static void WriteDict##VALUE_NAME##Field(GPBCodedOutputStream *stream, VALUE_TYPE value, uint32_t fieldNum, GPBDataType dataType) {
//% if (dataType == GPBDataType##GPBDATATYPE_NAME1) {
//% [stream write##GPBDATATYPE_NAME1##:fieldNum value:value];
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME2) {
//% [stream write##GPBDATATYPE_NAME2##:fieldNum value:value];
//% } else {
//% NSCAssert(NO, @"Unexpected type %d", dataType);
//% }
//%}
//%
//%PDDM-DEFINE SERIALIZE_SUPPORT_3_TYPE(VALUE_NAME, VALUE_TYPE, GPBDATATYPE_NAME1, GPBDATATYPE_NAME2, GPBDATATYPE_NAME3)
//%static size_t ComputeDict##VALUE_NAME##FieldSize(VALUE_TYPE value, uint32_t fieldNum, GPBDataType dataType) {
//% if (dataType == GPBDataType##GPBDATATYPE_NAME1) {
//% return GPBCompute##GPBDATATYPE_NAME1##Size(fieldNum, value);
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME2) {
//% return GPBCompute##GPBDATATYPE_NAME2##Size(fieldNum, value);
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME3) {
//% return GPBCompute##GPBDATATYPE_NAME3##Size(fieldNum, value);
//% } else {
//% NSCAssert(NO, @"Unexpected type %d", dataType);
//% return 0;
//% }
//%}
//%
//%static void WriteDict##VALUE_NAME##Field(GPBCodedOutputStream *stream, VALUE_TYPE value, uint32_t fieldNum, GPBDataType dataType) {
//% if (dataType == GPBDataType##GPBDATATYPE_NAME1) {
//% [stream write##GPBDATATYPE_NAME1##:fieldNum value:value];
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME2) {
//% [stream write##GPBDATATYPE_NAME2##:fieldNum value:value];
//% } else if (dataType == GPBDataType##GPBDATATYPE_NAME3) {
//% [stream write##GPBDATATYPE_NAME3##:fieldNum value:value];
//% } else {
//% NSCAssert(NO, @"Unexpected type %d", dataType);
//% }
//%}
//%
//%PDDM-DEFINE SIMPLE_SERIALIZE_SUPPORT(VALUE_NAME, VALUE_TYPE, VisP)
//%static size_t ComputeDict##VALUE_NAME##FieldSize(VALUE_TYPE VisP##value, uint32_t fieldNum, GPBDataType dataType) {
//% NSCAssert(dataType == GPBDataType##VALUE_NAME, @"bad type: %d", dataType);
//% #pragma unused(dataType) // For when asserts are off in release.
//% return GPBCompute##VALUE_NAME##Size(fieldNum, value);
//%}
//%
//%static void WriteDict##VALUE_NAME##Field(GPBCodedOutputStream *stream, VALUE_TYPE VisP##value, uint32_t fieldNum, GPBDataType dataType) {
//% NSCAssert(dataType == GPBDataType##VALUE_NAME, @"bad type: %d", dataType);
//% #pragma unused(dataType) // For when asserts are off in release.
//% [stream write##VALUE_NAME##:fieldNum value:value];
//%}
//%
//%PDDM-DEFINE SERIALIZE_SUPPORT_HELPERS()
//%SERIALIZE_SUPPORT_3_TYPE(Int32, int32_t, Int32, SInt32, SFixed32)
//%SERIALIZE_SUPPORT_2_TYPE(UInt32, uint32_t, UInt32, Fixed32)
//%SERIALIZE_SUPPORT_3_TYPE(Int64, int64_t, Int64, SInt64, SFixed64)
//%SERIALIZE_SUPPORT_2_TYPE(UInt64, uint64_t, UInt64, Fixed64)
//%SIMPLE_SERIALIZE_SUPPORT(Bool, BOOL, )
//%SIMPLE_SERIALIZE_SUPPORT(Enum, int32_t, )
//%SIMPLE_SERIALIZE_SUPPORT(Float, float, )
//%SIMPLE_SERIALIZE_SUPPORT(Double, double, )
//%SIMPLE_SERIALIZE_SUPPORT(String, NSString, *)
//%SERIALIZE_SUPPORT_3_TYPE(Object, id, Message, String, Bytes)
//%PDDM-EXPAND SERIALIZE_SUPPORT_HELPERS()
// This block of code is generated, do not edit it directly.
// clang-format off
static size_t ComputeDictInt32FieldSize(int32_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeInt32) {
return GPBComputeInt32Size(fieldNum, value);
} else if (dataType == GPBDataTypeSInt32) {
return GPBComputeSInt32Size(fieldNum, value);
} else if (dataType == GPBDataTypeSFixed32) {
return GPBComputeSFixed32Size(fieldNum, value);
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
return 0;
}
}
static void WriteDictInt32Field(GPBCodedOutputStream *stream, int32_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeInt32) {
[stream writeInt32:fieldNum value:value];
} else if (dataType == GPBDataTypeSInt32) {
[stream writeSInt32:fieldNum value:value];
} else if (dataType == GPBDataTypeSFixed32) {
[stream writeSFixed32:fieldNum value:value];
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
}
}
static size_t ComputeDictUInt32FieldSize(uint32_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeUInt32) {
return GPBComputeUInt32Size(fieldNum, value);
} else if (dataType == GPBDataTypeFixed32) {
return GPBComputeFixed32Size(fieldNum, value);
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
return 0;
}
}
static void WriteDictUInt32Field(GPBCodedOutputStream *stream, uint32_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeUInt32) {
[stream writeUInt32:fieldNum value:value];
} else if (dataType == GPBDataTypeFixed32) {
[stream writeFixed32:fieldNum value:value];
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
}
}
static size_t ComputeDictInt64FieldSize(int64_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeInt64) {
return GPBComputeInt64Size(fieldNum, value);
} else if (dataType == GPBDataTypeSInt64) {
return GPBComputeSInt64Size(fieldNum, value);
} else if (dataType == GPBDataTypeSFixed64) {
return GPBComputeSFixed64Size(fieldNum, value);
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
return 0;
}
}
static void WriteDictInt64Field(GPBCodedOutputStream *stream, int64_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeInt64) {
[stream writeInt64:fieldNum value:value];
} else if (dataType == GPBDataTypeSInt64) {
[stream writeSInt64:fieldNum value:value];
} else if (dataType == GPBDataTypeSFixed64) {
[stream writeSFixed64:fieldNum value:value];
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
}
}
static size_t ComputeDictUInt64FieldSize(uint64_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeUInt64) {
return GPBComputeUInt64Size(fieldNum, value);
} else if (dataType == GPBDataTypeFixed64) {
return GPBComputeFixed64Size(fieldNum, value);
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
return 0;
}
}
static void WriteDictUInt64Field(GPBCodedOutputStream *stream, uint64_t value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeUInt64) {
[stream writeUInt64:fieldNum value:value];
} else if (dataType == GPBDataTypeFixed64) {
[stream writeFixed64:fieldNum value:value];
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
}
}
static size_t ComputeDictBoolFieldSize(BOOL value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeBool, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
return GPBComputeBoolSize(fieldNum, value);
}
static void WriteDictBoolField(GPBCodedOutputStream *stream, BOOL value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeBool, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
[stream writeBool:fieldNum value:value];
}
static size_t ComputeDictEnumFieldSize(int32_t value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeEnum, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
return GPBComputeEnumSize(fieldNum, value);
}
static void WriteDictEnumField(GPBCodedOutputStream *stream, int32_t value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeEnum, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
[stream writeEnum:fieldNum value:value];
}
static size_t ComputeDictFloatFieldSize(float value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeFloat, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
return GPBComputeFloatSize(fieldNum, value);
}
static void WriteDictFloatField(GPBCodedOutputStream *stream, float value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeFloat, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
[stream writeFloat:fieldNum value:value];
}
static size_t ComputeDictDoubleFieldSize(double value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeDouble, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
return GPBComputeDoubleSize(fieldNum, value);
}
static void WriteDictDoubleField(GPBCodedOutputStream *stream, double value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeDouble, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
[stream writeDouble:fieldNum value:value];
}
static size_t ComputeDictStringFieldSize(NSString *value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeString, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
return GPBComputeStringSize(fieldNum, value);
}
static void WriteDictStringField(GPBCodedOutputStream *stream, NSString *value, uint32_t fieldNum, GPBDataType dataType) {
NSCAssert(dataType == GPBDataTypeString, @"bad type: %d", dataType);
#pragma unused(dataType) // For when asserts are off in release.
[stream writeString:fieldNum value:value];
}
static size_t ComputeDictObjectFieldSize(id value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeMessage) {
return GPBComputeMessageSize(fieldNum, value);
} else if (dataType == GPBDataTypeString) {
return GPBComputeStringSize(fieldNum, value);
} else if (dataType == GPBDataTypeBytes) {
return GPBComputeBytesSize(fieldNum, value);
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
return 0;
}
}
static void WriteDictObjectField(GPBCodedOutputStream *stream, id value, uint32_t fieldNum, GPBDataType dataType) {
if (dataType == GPBDataTypeMessage) {
[stream writeMessage:fieldNum value:value];
} else if (dataType == GPBDataTypeString) {
[stream writeString:fieldNum value:value];
} else if (dataType == GPBDataTypeBytes) {
[stream writeBytes:fieldNum value:value];
} else {
NSCAssert(NO, @"Unexpected type %d", dataType);
}
}
// clang-format on
//%PDDM-EXPAND-END SERIALIZE_SUPPORT_HELPERS()
size_t GPBDictionaryComputeSizeInternalHelper(NSDictionary *dict, GPBFieldDescriptor *field) {
GPBDataType mapValueType = GPBGetFieldDataType(field);
size_t result = 0;
NSString *key;
NSEnumerator *keys = [dict keyEnumerator];
while ((key = [keys nextObject])) {
id obj = dict[key];
size_t msgSize = GPBComputeStringSize(kMapKeyFieldNumber, key);
msgSize += ComputeDictObjectFieldSize(obj, kMapValueFieldNumber, mapValueType);
result += GPBComputeRawVarint32SizeForInteger(msgSize) + msgSize;
}
size_t tagSize = GPBComputeWireFormatTagSize(GPBFieldNumber(field), GPBDataTypeMessage);
result += tagSize * dict.count;
return result;
}
void GPBDictionaryWriteToStreamInternalHelper(GPBCodedOutputStream *outputStream,
NSDictionary *dict,
GPBFieldDescriptor *field) {
NSCAssert(field.mapKeyDataType == GPBDataTypeString, @"Unexpected key type");
GPBDataType mapValueType = GPBGetFieldDataType(field);
uint32_t tag = GPBWireFormatMakeTag(GPBFieldNumber(field), GPBWireFormatLengthDelimited);
NSString *key;
NSEnumerator *keys = [dict keyEnumerator];
while ((key = [keys nextObject])) {
id obj = dict[key];
// Write the tag.
[outputStream writeInt32NoTag:tag];
// Write the size of the message.
size_t msgSize = GPBComputeStringSize(kMapKeyFieldNumber, key);
msgSize += ComputeDictObjectFieldSize(obj, kMapValueFieldNumber, mapValueType);
// Write the size and fields.
[outputStream writeInt32NoTag:(int32_t)msgSize];
[outputStream writeString:kMapKeyFieldNumber value:key];
WriteDictObjectField(outputStream, obj, kMapValueFieldNumber, mapValueType);
}
}
BOOL GPBDictionaryIsInitializedInternalHelper(NSDictionary *dict, GPBFieldDescriptor *field) {
NSCAssert(field.mapKeyDataType == GPBDataTypeString, @"Unexpected key type");
NSCAssert(GPBGetFieldDataType(field) == GPBDataTypeMessage, @"Unexpected value type");
#pragma unused(field) // For when asserts are off in release.
GPBMessage *msg;
NSEnumerator *objects = [dict objectEnumerator];
while ((msg = [objects nextObject])) {
if (!msg.initialized) {
return NO;
}
}
return YES;
}
// Note: if the type is an object, it the retain pass back to the caller.
static void ReadValue(GPBCodedInputStream *stream,
GPBGenericValue *valueToFill,
GPBDataType type,
GPBExtensionRegistry *registry,
GPBFieldDescriptor *field) {
switch (type) {
case GPBDataTypeBool:
valueToFill->valueBool = GPBCodedInputStreamReadBool(&stream->state_);
break;
case GPBDataTypeFixed32:
valueToFill->valueUInt32 = GPBCodedInputStreamReadFixed32(&stream->state_);
break;
case GPBDataTypeSFixed32:
valueToFill->valueInt32 = GPBCodedInputStreamReadSFixed32(&stream->state_);
break;
case GPBDataTypeFloat:
valueToFill->valueFloat = GPBCodedInputStreamReadFloat(&stream->state_);
break;
case GPBDataTypeFixed64:
valueToFill->valueUInt64 = GPBCodedInputStreamReadFixed64(&stream->state_);
break;
case GPBDataTypeSFixed64:
valueToFill->valueInt64 = GPBCodedInputStreamReadSFixed64(&stream->state_);
break;
case GPBDataTypeDouble:
valueToFill->valueDouble = GPBCodedInputStreamReadDouble(&stream->state_);
break;
case GPBDataTypeInt32:
valueToFill->valueInt32 = GPBCodedInputStreamReadInt32(&stream->state_);
break;
case GPBDataTypeInt64:
valueToFill->valueInt64 = GPBCodedInputStreamReadInt64(&stream->state_);
break;
case GPBDataTypeSInt32:
valueToFill->valueInt32 = GPBCodedInputStreamReadSInt32(&stream->state_);
break;
case GPBDataTypeSInt64:
valueToFill->valueInt64 = GPBCodedInputStreamReadSInt64(&stream->state_);
break;
case GPBDataTypeUInt32:
valueToFill->valueUInt32 = GPBCodedInputStreamReadUInt32(&stream->state_);
break;
case GPBDataTypeUInt64:
valueToFill->valueUInt64 = GPBCodedInputStreamReadUInt64(&stream->state_);
break;
case GPBDataTypeBytes:
[valueToFill->valueData release];
valueToFill->valueData = GPBCodedInputStreamReadRetainedBytes(&stream->state_);
break;
case GPBDataTypeString:
[valueToFill->valueString release];
valueToFill->valueString = GPBCodedInputStreamReadRetainedString(&stream->state_);
break;
case GPBDataTypeMessage: {
GPBMessage *message = [[field.msgClass alloc] init];
[stream readMessage:message extensionRegistry:registry];
[valueToFill->valueMessage release];
valueToFill->valueMessage = message;
break;
}
case GPBDataTypeGroup:
NSCAssert(NO, @"Can't happen");
break;
case GPBDataTypeEnum:
valueToFill->valueEnum = GPBCodedInputStreamReadEnum(&stream->state_);
break;
}
}
void GPBDictionaryReadEntry(id mapDictionary,
GPBCodedInputStream *stream,
GPBExtensionRegistry *registry,
GPBFieldDescriptor *field,
GPBMessage *parentMessage) {
GPBDataType keyDataType = field.mapKeyDataType;
GPBDataType valueDataType = GPBGetFieldDataType(field);
GPBGenericValue key;
GPBGenericValue value;
// Zero them (but pick up any enum default for proto2).
key.valueString = value.valueString = nil;
if (valueDataType == GPBDataTypeEnum) {
value = field.defaultValue;
}
GPBCodedInputStreamState *state = &stream->state_;
uint32_t keyTag =
GPBWireFormatMakeTag(kMapKeyFieldNumber, GPBWireFormatForType(keyDataType, NO));
uint32_t valueTag =
GPBWireFormatMakeTag(kMapValueFieldNumber, GPBWireFormatForType(valueDataType, NO));
BOOL hitError = NO;
while (YES) {
uint32_t tag = GPBCodedInputStreamReadTag(state);
if (tag == keyTag) {
ReadValue(stream, &key, keyDataType, registry, field);
} else if (tag == valueTag) {
ReadValue(stream, &value, valueDataType, registry, field);
} else if (tag == 0) {
// zero signals EOF / limit reached
break;
} else { // Unknown
if (![stream skipField:tag]){
hitError = YES;
break;
}
}
}
if (!hitError) {
// Handle the special defaults and/or missing key/value.
if ((keyDataType == GPBDataTypeString) && (key.valueString == nil)) {
key.valueString = [@"" retain];
}
if (GPBDataTypeIsObject(valueDataType) && value.valueString == nil) {
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wswitch-enum"
switch (valueDataType) {
case GPBDataTypeString:
value.valueString = [@"" retain];
break;
case GPBDataTypeBytes:
value.valueData = [GPBEmptyNSData() retain];
break;
#if defined(__clang_analyzer__)
case GPBDataTypeGroup:
// Maps can't really have Groups as the value type, but this case is needed
// so the analyzer won't report the possibility of send nil in for the value
// in the NSMutableDictionary case below.
#endif
case GPBDataTypeMessage: {
value.valueMessage = [[field.msgClass alloc] init];
break;
}
default:
// Nothing
break;
}
#pragma clang diagnostic pop
}
if ((keyDataType == GPBDataTypeString) && GPBDataTypeIsObject(valueDataType)) {
#if GPB_STATIC_ANALYZER_ONLY(6020053, 7000181)
// Limited to Xcode 6.4 - 7.2, are known to fail here. The upper end can
// be raised as needed for new Xcodes.
//
// This is only needed on a "shallow" analyze; on a "deep" analyze, the
// existing code path gets this correct. In shallow, the analyzer decides
// GPBDataTypeIsObject(valueDataType) is both false and true on a single
// path through this function, allowing nil to be used for the
// setObject:forKey:.
if (value.valueString == nil) {
value.valueString = [@"" retain];
}
#endif
// mapDictionary is an NSMutableDictionary
[(NSMutableDictionary *)mapDictionary setObject:value.valueString
forKey:key.valueString];
} else {
if (valueDataType == GPBDataTypeEnum) {
if (GPBHasPreservingUnknownEnumSemantics([parentMessage descriptor].file.syntax) ||
[field isValidEnumValue:value.valueEnum]) {
[mapDictionary setGPBGenericValue:&value forGPBGenericValueKey:&key];
} else {
NSData *data = [mapDictionary serializedDataForUnknownValue:value.valueEnum
forKey:&key
keyDataType:keyDataType];
[parentMessage addUnknownMapEntry:GPBFieldNumber(field) value:data];
}
} else {
[mapDictionary setGPBGenericValue:&value forGPBGenericValueKey:&key];
}
}
}
if (GPBDataTypeIsObject(keyDataType)) {
[key.valueString release];
}
if (GPBDataTypeIsObject(valueDataType)) {
[value.valueString release];
}
}
//
// Macros for the common basic cases.
//
//%PDDM-DEFINE DICTIONARY_IMPL_FOR_POD_KEY(KEY_NAME, KEY_TYPE)
//%DICTIONARY_POD_IMPL_FOR_KEY(KEY_NAME, KEY_TYPE, , POD)
//%DICTIONARY_POD_KEY_TO_OBJECT_IMPL(KEY_NAME, KEY_TYPE, Object, id)
//%PDDM-DEFINE DICTIONARY_POD_IMPL_FOR_KEY(KEY_NAME, KEY_TYPE, KisP, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, UInt32, uint32_t, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, Int32, int32_t, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, UInt64, uint64_t, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, Int64, int64_t, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, Bool, BOOL, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, Float, float, KHELPER)
//%DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, Double, double, KHELPER)
//%DICTIONARY_KEY_TO_ENUM_IMPL(KEY_NAME, KEY_TYPE, KisP, Enum, int32_t, KHELPER)
//%PDDM-DEFINE DICTIONARY_KEY_TO_POD_IMPL(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER)
//%DICTIONARY_COMMON_IMPL(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, POD, VALUE_NAME, value)
//%PDDM-DEFINE DICTIONARY_POD_KEY_TO_OBJECT_IMPL(KEY_NAME, KEY_TYPE, VALUE_NAME, VALUE_TYPE)
//%DICTIONARY_COMMON_IMPL(KEY_NAME, KEY_TYPE, , VALUE_NAME, VALUE_TYPE, POD, OBJECT, Object, object)
//%PDDM-DEFINE DICTIONARY_COMMON_IMPL(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_VAR)
//%#pragma mark - KEY_NAME -> VALUE_NAME
//%
//%@implementation GPB##KEY_NAME##VALUE_NAME##Dictionary {
//% @package
//% NSMutableDictionary *_dictionary;
//%}
//%
//%- (instancetype)init {
//% return [self initWith##VNAME##s:NULL forKeys:NULL count:0];
//%}
//%
//%- (instancetype)initWith##VNAME##s:(const VALUE_TYPE [])##VNAME_VAR##s
//% ##VNAME$S## forKeys:(const KEY_TYPE##KisP$S##KisP [])keys
//% ##VNAME$S## count:(NSUInteger)count {
//% self = [super init];
//% if (self) {
//% _dictionary = [[NSMutableDictionary alloc] init];
//% if (count && VNAME_VAR##s && keys) {
//% for (NSUInteger i = 0; i < count; ++i) {
//%DICTIONARY_VALIDATE_VALUE_##VHELPER(VNAME_VAR##s[i], ______)##DICTIONARY_VALIDATE_KEY_##KHELPER(keys[i], ______) [_dictionary setObject:WRAPPED##VHELPER(VNAME_VAR##s[i]) forKey:WRAPPED##KHELPER(keys[i])];
//% }
//% }
//% }
//% return self;
//%}
//%
//%- (instancetype)initWithDictionary:(GPB##KEY_NAME##VALUE_NAME##Dictionary *)dictionary {
//% self = [self initWith##VNAME##s:NULL forKeys:NULL count:0];
//% if (self) {
//% if (dictionary) {
//% [_dictionary addEntriesFromDictionary:dictionary->_dictionary];
//% }
//% }
//% return self;
//%}
//%
//%- (instancetype)initWithCapacity:(NSUInteger)numItems {
//% #pragma unused(numItems)
//% return [self initWith##VNAME##s:NULL forKeys:NULL count:0];
//%}
//%
//%DICTIONARY_IMMUTABLE_CORE(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_VAR, )
//%
//%VALUE_FOR_KEY_##VHELPER(KEY_TYPE##KisP$S##KisP, VALUE_NAME, VALUE_TYPE, KHELPER)
//%
//%DICTIONARY_MUTABLE_CORE(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_VAR, )
//%
//%@end
//%
//%PDDM-DEFINE DICTIONARY_KEY_TO_ENUM_IMPL(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER)
//%DICTIONARY_KEY_TO_ENUM_IMPL2(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, POD)
//%PDDM-DEFINE DICTIONARY_KEY_TO_ENUM_IMPL2(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER)
//%#pragma mark - KEY_NAME -> VALUE_NAME
//%
//%@implementation GPB##KEY_NAME##VALUE_NAME##Dictionary {
//% @package
//% NSMutableDictionary *_dictionary;
//% GPBEnumValidationFunc _validationFunc;
//%}
//%
//%@synthesize validationFunc = _validationFunc;
//%
//%- (instancetype)init {
//% return [self initWithValidationFunction:NULL rawValues:NULL forKeys:NULL count:0];
//%}
//%
//%- (instancetype)initWithValidationFunction:(GPBEnumValidationFunc)func {
//% return [self initWithValidationFunction:func rawValues:NULL forKeys:NULL count:0];
//%}
//%
//%- (instancetype)initWithValidationFunction:(GPBEnumValidationFunc)func
//% rawValues:(const VALUE_TYPE [])rawValues
//% forKeys:(const KEY_TYPE##KisP$S##KisP [])keys
//% count:(NSUInteger)count {
//% self = [super init];
//% if (self) {
//% _dictionary = [[NSMutableDictionary alloc] init];
//% _validationFunc = (func != NULL ? func : DictDefault_IsValidValue);
//% if (count && rawValues && keys) {
//% for (NSUInteger i = 0; i < count; ++i) {
//%DICTIONARY_VALIDATE_KEY_##KHELPER(keys[i], ______) [_dictionary setObject:WRAPPED##VHELPER(rawValues[i]) forKey:WRAPPED##KHELPER(keys[i])];
//% }
//% }
//% }
//% return self;
//%}
//%
//%- (instancetype)initWithDictionary:(GPB##KEY_NAME##VALUE_NAME##Dictionary *)dictionary {
//% self = [self initWithValidationFunction:dictionary.validationFunc
//% rawValues:NULL
//% forKeys:NULL
//% count:0];
//% if (self) {
//% if (dictionary) {
//% [_dictionary addEntriesFromDictionary:dictionary->_dictionary];
//% }
//% }
//% return self;
//%}
//%
//%- (instancetype)initWithValidationFunction:(GPBEnumValidationFunc)func
//% capacity:(NSUInteger)numItems {
//% #pragma unused(numItems)
//% return [self initWithValidationFunction:func rawValues:NULL forKeys:NULL count:0];
//%}
//%
//%DICTIONARY_IMMUTABLE_CORE(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, Value, value, Raw)
//%
//%- (BOOL)getEnum:(VALUE_TYPE *)value forKey:(KEY_TYPE##KisP$S##KisP)key {
//% NSNumber *wrapped = [_dictionary objectForKey:WRAPPED##KHELPER(key)];
//% if (wrapped && value) {
//% VALUE_TYPE result = UNWRAP##VALUE_NAME(wrapped);
//% if (!_validationFunc(result)) {
//% result = kGPBUnrecognizedEnumeratorValue;
//% }
//% *value = result;
//% }
//% return (wrapped != NULL);
//%}
//%
//%- (BOOL)getRawValue:(VALUE_TYPE *)rawValue forKey:(KEY_TYPE##KisP$S##KisP)key {
//% NSNumber *wrapped = [_dictionary objectForKey:WRAPPED##KHELPER(key)];
//% if (wrapped && rawValue) {
//% *rawValue = UNWRAP##VALUE_NAME(wrapped);
//% }
//% return (wrapped != NULL);
//%}
//%
//%- (void)enumerateKeysAndEnumsUsingBlock:
//% (void (NS_NOESCAPE ^)(KEY_TYPE KisP##key, VALUE_TYPE value, BOOL *stop))block {
//% GPBEnumValidationFunc func = _validationFunc;
//% BOOL stop = NO;
//% NSEnumerator *keys = [_dictionary keyEnumerator];
//% ENUM_TYPE##KHELPER(KEY_TYPE)##aKey;
//% while ((aKey = [keys nextObject])) {
//% ENUM_TYPE##VHELPER(VALUE_TYPE)##aValue = _dictionary[aKey];
//% VALUE_TYPE unwrapped = UNWRAP##VALUE_NAME(aValue);
//% if (!func(unwrapped)) {
//% unwrapped = kGPBUnrecognizedEnumeratorValue;
//% }
//% block(UNWRAP##KEY_NAME(aKey), unwrapped, &stop);
//% if (stop) {
//% break;
//% }
//% }
//%}
//%
//%DICTIONARY_MUTABLE_CORE2(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, Value, Enum, value, Raw)
//%
//%- (void)setEnum:(VALUE_TYPE)value forKey:(KEY_TYPE##KisP$S##KisP)key {
//%DICTIONARY_VALIDATE_KEY_##KHELPER(key, ) if (!_validationFunc(value)) {
//% [NSException raise:NSInvalidArgumentException
//% format:@"GPB##KEY_NAME##VALUE_NAME##Dictionary: Attempt to set an unknown enum value (%d)",
//% value];
//% }
//%
//% [_dictionary setObject:WRAPPED##VHELPER(value) forKey:WRAPPED##KHELPER(key)];
//% if (_autocreator) {
//% GPBAutocreatedDictionaryModified(_autocreator, self);
//% }
//%}
//%
//%@end
//%
//%PDDM-DEFINE DICTIONARY_IMMUTABLE_CORE(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_VAR, ACCESSOR_NAME)
//%- (void)dealloc {
//% NSAssert(!_autocreator,
//% @"%@: Autocreator must be cleared before release, autocreator: %@",
//% [self class], _autocreator);
//% [_dictionary release];
//% [super dealloc];
//%}
//%
//%- (instancetype)copyWithZone:(NSZone *)zone {
//% return [[GPB##KEY_NAME##VALUE_NAME##Dictionary allocWithZone:zone] initWithDictionary:self];
//%}
//%
//%- (BOOL)isEqual:(id)other {
//% if (self == other) {
//% return YES;
//% }
//% if (![other isKindOfClass:[GPB##KEY_NAME##VALUE_NAME##Dictionary class]]) {
//% return NO;
//% }
//% GPB##KEY_NAME##VALUE_NAME##Dictionary *otherDictionary = other;
//% return [_dictionary isEqual:otherDictionary->_dictionary];
//%}
//%
//%- (NSUInteger)hash {
//% return _dictionary.count;
//%}
//%
//%- (NSString *)description {
//% return [NSString stringWithFormat:@"<%@ %p> { %@ }", [self class], self, _dictionary];
//%}
//%
//%- (NSUInteger)count {
//% return _dictionary.count;
//%}
//%
//%- (void)enumerateKeysAnd##ACCESSOR_NAME##VNAME##sUsingBlock:
//% (void (NS_NOESCAPE ^)(KEY_TYPE KisP##key, VALUE_TYPE VNAME_VAR, BOOL *stop))block {
//% BOOL stop = NO;
//% NSDictionary *internal = _dictionary;
//% NSEnumerator *keys = [internal keyEnumerator];
//% ENUM_TYPE##KHELPER(KEY_TYPE)##aKey;
//% while ((aKey = [keys nextObject])) {
//% ENUM_TYPE##VHELPER(VALUE_TYPE)##a##VNAME_VAR$u = internal[aKey];
//% block(UNWRAP##KEY_NAME(aKey), UNWRAP##VALUE_NAME(a##VNAME_VAR$u), &stop);
//% if (stop) {
//% break;
//% }
//% }
//%}
//%
//%EXTRA_METHODS_##VHELPER(KEY_NAME, VALUE_NAME)- (size_t)computeSerializedSizeAsField:(GPBFieldDescriptor *)field {
//% NSDictionary *internal = _dictionary;
//% NSUInteger count = internal.count;
//% if (count == 0) {
//% return 0;
//% }
//%
//% GPBDataType valueDataType = GPBGetFieldDataType(field);
//% GPBDataType keyDataType = field.mapKeyDataType;
//% size_t result = 0;
//% NSEnumerator *keys = [internal keyEnumerator];
//% ENUM_TYPE##KHELPER(KEY_TYPE)##aKey;
//% while ((aKey = [keys nextObject])) {
//% ENUM_TYPE##VHELPER(VALUE_TYPE)##a##VNAME_VAR$u = internal[aKey];
//% size_t msgSize = ComputeDict##KEY_NAME##FieldSize(UNWRAP##KEY_NAME(aKey), kMapKeyFieldNumber, keyDataType);
//% msgSize += ComputeDict##VALUE_NAME##FieldSize(UNWRAP##VALUE_NAME(a##VNAME_VAR$u), kMapValueFieldNumber, valueDataType);
//% result += GPBComputeRawVarint32SizeForInteger(msgSize) + msgSize;
//% }
//% size_t tagSize = GPBComputeWireFormatTagSize(GPBFieldNumber(field), GPBDataTypeMessage);
//% result += tagSize * count;
//% return result;
//%}
//%
//%- (void)writeToCodedOutputStream:(GPBCodedOutputStream *)outputStream
//% asField:(GPBFieldDescriptor *)field {
//% GPBDataType valueDataType = GPBGetFieldDataType(field);
//% GPBDataType keyDataType = field.mapKeyDataType;
//% uint32_t tag = GPBWireFormatMakeTag(GPBFieldNumber(field), GPBWireFormatLengthDelimited);
//% NSDictionary *internal = _dictionary;
//% NSEnumerator *keys = [internal keyEnumerator];
//% ENUM_TYPE##KHELPER(KEY_TYPE)##aKey;
//% while ((aKey = [keys nextObject])) {
//% ENUM_TYPE##VHELPER(VALUE_TYPE)##a##VNAME_VAR$u = internal[aKey];
//% [outputStream writeInt32NoTag:tag];
//% // Write the size of the message.
//% KEY_TYPE KisP##unwrappedKey = UNWRAP##KEY_NAME(aKey);
//% VALUE_TYPE unwrappedValue = UNWRAP##VALUE_NAME(a##VNAME_VAR$u);
//% size_t msgSize = ComputeDict##KEY_NAME##FieldSize(unwrappedKey, kMapKeyFieldNumber, keyDataType);
//% msgSize += ComputeDict##VALUE_NAME##FieldSize(unwrappedValue, kMapValueFieldNumber, valueDataType);
//% [outputStream writeInt32NoTag:(int32_t)msgSize];
//% // Write the fields.
//% WriteDict##KEY_NAME##Field(outputStream, unwrappedKey, kMapKeyFieldNumber, keyDataType);
//% WriteDict##VALUE_NAME##Field(outputStream, unwrappedValue, kMapValueFieldNumber, valueDataType);
//% }
//%}
//%
//%SERIAL_DATA_FOR_ENTRY_##VHELPER(KEY_NAME, VALUE_NAME)- (void)setGPBGenericValue:(GPBGenericValue *)value
//% forGPBGenericValueKey:(GPBGenericValue *)key {
//% [_dictionary setObject:WRAPPED##VHELPER(value->##GPBVALUE_##VHELPER(VALUE_NAME)##) forKey:WRAPPED##KHELPER(key->value##KEY_NAME)];
//%}
//%
//%- (void)enumerateForTextFormat:(void (NS_NOESCAPE ^)(id keyObj, id valueObj))block {
//% [self enumerateKeysAnd##ACCESSOR_NAME##VNAME##sUsingBlock:^(KEY_TYPE KisP##key, VALUE_TYPE VNAME_VAR, BOOL *stop) {
//% #pragma unused(stop)
//% block(TEXT_FORMAT_OBJ##KEY_NAME(key), TEXT_FORMAT_OBJ##VALUE_NAME(VNAME_VAR));
//% }];
//%}
//%PDDM-DEFINE DICTIONARY_MUTABLE_CORE(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_VAR, ACCESSOR_NAME)
//%DICTIONARY_MUTABLE_CORE2(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME, VNAME_VAR, ACCESSOR_NAME)
//%PDDM-DEFINE DICTIONARY_MUTABLE_CORE2(KEY_NAME, KEY_TYPE, KisP, VALUE_NAME, VALUE_TYPE, KHELPER, VHELPER, VNAME, VNAME_REMOVE, VNAME_VAR, ACCESSOR_NAME)
//%- (void)add##ACCESSOR_NAME##EntriesFromDictionary:(GPB##KEY_NAME##VALUE_NAME##Dictionary *)otherDictionary {
//% if (otherDictionary) {
//% [_dictionary addEntriesFromDictionary:otherDictionary->_dictionary];
//% if (_autocreator) {
//% GPBAutocreatedDictionaryModified(_autocreator, self);
//% }
//% }
//%}
//%
//%- (void)set##ACCESSOR_NAME##VNAME##:(VALUE_TYPE)VNAME_VAR forKey:(KEY_TYPE##KisP$S##KisP)key {
//%DICTIONARY_VALIDATE_VALUE_##VHELPER(VNAME_VAR, )##DICTIONARY_VALIDATE_KEY_##KHELPER(key, ) [_dictionary setObject:WRAPPED##VHELPER(VNAME_VAR) forKey:WRAPPED##KHELPER(key)];
//% if (_autocreator) {
//% GPBAutocreatedDictionaryModified(_autocreator, self);
//% }
//%}
//%
//%- (void)remove##VNAME_REMOVE##ForKey:(KEY_TYPE##KisP$S##KisP)aKey {
//% [_dictionary removeObjectForKey:WRAPPED##KHELPER(aKey)];
//%}
//%
//%- (void)removeAll {
//% [_dictionary removeAllObjects];
//%}
//
// Custom Generation for Bool keys
//
//%PDDM-DEFINE DICTIONARY_BOOL_KEY_TO_POD_IMPL(VALUE_NAME, VALUE_TYPE)
//%DICTIONARY_BOOL_KEY_TO_VALUE_IMPL(VALUE_NAME, VALUE_TYPE, POD, VALUE_NAME, value)
//%PDDM-DEFINE DICTIONARY_BOOL_KEY_TO_OBJECT_IMPL(VALUE_NAME, VALUE_TYPE)
//%DICTIONARY_BOOL_KEY_TO_VALUE_IMPL(VALUE_NAME, VALUE_TYPE, OBJECT, Object, object)
//%PDDM-DEFINE DICTIONARY_BOOL_KEY_TO_VALUE_IMPL(VALUE_NAME, VALUE_TYPE, HELPER, VNAME, VNAME_VAR)
//%#pragma mark - Bool -> VALUE_NAME
//%
//%@implementation GPBBool##VALUE_NAME##Dictionary {
//% @package
//% VALUE_TYPE _values[2];
//%BOOL_DICT_HAS_STORAGE_##HELPER()}
//%
//%- (instancetype)init {
//% return [self initWith##VNAME##s:NULL forKeys:NULL count:0];
//%}
//%
//%BOOL_DICT_INITS_##HELPER(VALUE_NAME, VALUE_TYPE)
//%
//%- (instancetype)initWithCapacity:(NSUInteger)numItems {
//% #pragma unused(numItems)
//% return [self initWith##VNAME##s:NULL forKeys:NULL count:0];
//%}
//%
//%BOOL_DICT_DEALLOC##HELPER()
//%
//%- (instancetype)copyWithZone:(NSZone *)zone {
//% return [[GPBBool##VALUE_NAME##Dictionary allocWithZone:zone] initWithDictionary:self];
//%}
//%
//%- (BOOL)isEqual:(id)other {
//% if (self == other) {
//% return YES;
//% }
//% if (![other isKindOfClass:[GPBBool##VALUE_NAME##Dictionary class]]) {
//% return NO;
//% }
//% GPBBool##VALUE_NAME##Dictionary *otherDictionary = other;
//% if ((BOOL_DICT_W_HAS##HELPER(0, ) != BOOL_DICT_W_HAS##HELPER(0, otherDictionary->)) ||
//% (BOOL_DICT_W_HAS##HELPER(1, ) != BOOL_DICT_W_HAS##HELPER(1, otherDictionary->))) {
//% return NO;
//% }
//% if ((BOOL_DICT_W_HAS##HELPER(0, ) && (NEQ_##HELPER(_values[0], otherDictionary->_values[0]))) ||
//% (BOOL_DICT_W_HAS##HELPER(1, ) && (NEQ_##HELPER(_values[1], otherDictionary->_values[1])))) {
//% return NO;
//% }
//% return YES;
//%}
//%
//%- (NSUInteger)hash {
//% return (BOOL_DICT_W_HAS##HELPER(0, ) ? 1 : 0) + (BOOL_DICT_W_HAS##HELPER(1, ) ? 1 : 0);
//%}
//%
//%- (NSString *)description {
//% NSMutableString *result = [NSMutableString stringWithFormat:@"<%@ %p> {", [self class], self];
//% if (BOOL_DICT_W_HAS##HELPER(0, )) {
//% [result appendFormat:@"NO: STR_FORMAT_##HELPER(VALUE_NAME)", _values[0]];
//% }
//% if (BOOL_DICT_W_HAS##HELPER(1, )) {
//% [result appendFormat:@"YES: STR_FORMAT_##HELPER(VALUE_NAME)", _values[1]];
//% }
//% [result appendString:@" }"];
//% return result;
//%}
//%
//%- (NSUInteger)count {
//% return (BOOL_DICT_W_HAS##HELPER(0, ) ? 1 : 0) + (BOOL_DICT_W_HAS##HELPER(1, ) ? 1 : 0);
//%}
//%
//%BOOL_VALUE_FOR_KEY_##HELPER(VALUE_NAME, VALUE_TYPE)
//%
//%BOOL_SET_GPBVALUE_FOR_KEY_##HELPER(VALUE_NAME, VALUE_TYPE, VisP)
//%
//%- (void)enumerateForTextFormat:(void (NS_NOESCAPE ^)(id keyObj, id valueObj))block {
//% if (BOOL_DICT_HAS##HELPER(0, )) {
//% block(@"false", TEXT_FORMAT_OBJ##VALUE_NAME(_values[0]));
//% }
//% if (BOOL_DICT_W_HAS##HELPER(1, )) {
//% block(@"true", TEXT_FORMAT_OBJ##VALUE_NAME(_values[1]));
//% }
//%}
//%
//%- (void)enumerateKeysAnd##VNAME##sUsingBlock:
//% (void (NS_NOESCAPE ^)(BOOL key, VALUE_TYPE VNAME_VAR, BOOL *stop))block {
//% BOOL stop = NO;
//% if (BOOL_DICT_HAS##HELPER(0, )) {
//% block(NO, _values[0], &stop);
//% }
//% if (!stop && BOOL_DICT_W_HAS##HELPER(1, )) {
//% block(YES, _values[1], &stop);
//% }
//%}
//%
//%BOOL_EXTRA_METHODS_##HELPER(Bool, VALUE_NAME)- (size_t)computeSerializedSizeAsField:(GPBFieldDescriptor *)field {
//% GPBDataType valueDataType = GPBGetFieldDataType(field);
//% NSUInteger count = 0;
//% size_t result = 0;
//% for (int i = 0; i < 2; ++i) {
//% if (BOOL_DICT_HAS##HELPER(i, )) {
//% ++count;
//% size_t msgSize = ComputeDictBoolFieldSize((i == 1), kMapKeyFieldNumber, GPBDataTypeBool);
//% msgSize += ComputeDict##VALUE_NAME##FieldSize(_values[i], kMapValueFieldNumber, valueDataType);