AWDKeychainCKKSRateLimiterAggregatedScores.m [plain text]
// This file was automatically generated by protocompiler
// DO NOT EDIT!
// Compiled from stdin
#import <TargetConditionals.h>
#if !TARGET_OS_BRIDGE
#import "AWDKeychainCKKSRateLimiterAggregatedScores.h"
#import <ProtocolBuffer/PBConstants.h>
#import <ProtocolBuffer/PBHashUtil.h>
#import <ProtocolBuffer/PBDataReader.h>
#if !__has_feature(objc_arc)
# error This generated file depends on ARC but it is not enabled; turn on ARC, or use 'objc_use_arc' option to generate non-ARC code.
#endif
@implementation AWDKeychainCKKSRateLimiterAggregatedScores
- (void)dealloc
{
PBRepeatedUInt32Clear(&(self->_datas));
}
@synthesize timestamp = _timestamp;
- (void)setTimestamp:(uint64_t)v
{
_has.timestamp = YES;
_timestamp = v;
}
- (void)setHasTimestamp:(BOOL)f
{
_has.timestamp = f;
}
- (BOOL)hasTimestamp
{
return _has.timestamp;
}
- (NSUInteger)datasCount
{
return _datas.count;
}
- (uint32_t *)datas
{
return _datas.list;
}
- (void)clearDatas
{
PBRepeatedUInt32Clear(&_datas);
}
- (void)addData:(uint32_t)i
{
PBRepeatedUInt32Add(&_datas, i);
}
- (uint32_t)dataAtIndex:(NSUInteger)idx
{
if (_datas.count <= idx)
{
[[NSException exceptionWithName:NSRangeException reason:[NSString stringWithFormat:@"idx ( }
return _datas.list[idx];
}
- (void)setDatas:(uint32_t *)list count:(NSUInteger)count
{
PBRepeatedUInt32Set(&_datas, list, count);
}
- (BOOL)hasRatelimitertype
{
return _ratelimitertype != nil;
}
@synthesize ratelimitertype = _ratelimitertype;
- (NSString *)description
{
return [NSString stringWithFormat:@"}
- (NSDictionary *)dictionaryRepresentation
{
NSMutableDictionary *dict = [NSMutableDictionary dictionary];
if (self->_has.timestamp)
{
[dict setObject:[NSNumber numberWithUnsignedLongLong:self->_timestamp] forKey:@"timestamp"];
}
[dict setObject:PBRepeatedUInt32NSArray(&(self->_datas)) forKey:@"data"];
if (self->_ratelimitertype)
{
[dict setObject:self->_ratelimitertype forKey:@"ratelimitertype"];
}
return dict;
}
BOOL AWDKeychainCKKSRateLimiterAggregatedScoresReadFrom(__unsafe_unretained AWDKeychainCKKSRateLimiterAggregatedScores *self, __unsafe_unretained PBDataReader *reader) {
while (PBReaderHasMoreData(reader)) {
uint32_t tag = 0;
uint8_t aType = 0;
PBReaderReadTag32AndType(reader, &tag, &aType);
if (PBReaderHasError(reader))
break;
if (aType == TYPE_END_GROUP) {
break;
}
switch (tag) {
case 1 /* timestamp */:
{
self->_has.timestamp = YES;
self->_timestamp = PBReaderReadUint64(reader);
}
break;
case 2 /* datas */:
{
if (TYPE_LENGTH_DELIMITED == aType)
{
PBDataReaderMark mark_data;
BOOL markError = !PBReaderPlaceMark(reader, &mark_data);
if (markError)
{
return NO;
}
while (PBReaderHasMoreData(reader))
{
uint32_t new_data = PBReaderReadUint32(reader);
PBRepeatedUInt32Add(&(self->_datas), new_data);
}
PBReaderRecallMark(reader, &mark_data);
}
else
{
PBRepeatedUInt32Add(&(self->_datas), PBReaderReadUint32(reader));
}
}
break;
case 3 /* ratelimitertype */:
{
NSString *new_ratelimitertype = PBReaderReadString(reader);
self->_ratelimitertype = new_ratelimitertype;
}
break;
default:
if (!PBReaderSkipValueWithTag(reader, tag, aType))
return NO;
break;
}
}
return !PBReaderHasError(reader);
}
- (BOOL)readFrom:(PBDataReader *)reader
{
return AWDKeychainCKKSRateLimiterAggregatedScoresReadFrom(self, reader);
}
- (void)writeTo:(PBDataWriter *)writer
{
/* timestamp */
{
if (self->_has.timestamp)
{
PBDataWriterWriteUint64Field(writer, self->_timestamp, 1);
}
}
/* datas */
{
if (self->_datas.count)
{
NSUInteger i_datas;
for (i_datas = 0; i_datas < self->_datas.count; i_datas++)
{
PBDataWriterWriteUint32Field(writer, self->_datas.list[i_datas], 2);
}
}
}
/* ratelimitertype */
{
if (self->_ratelimitertype)
{
PBDataWriterWriteStringField(writer, self->_ratelimitertype, 3);
}
}
}
- (void)copyTo:(AWDKeychainCKKSRateLimiterAggregatedScores *)other
{
if (self->_has.timestamp)
{
other->_timestamp = _timestamp;
other->_has.timestamp = YES;
}
if ([self datasCount])
{
[other clearDatas];
NSUInteger datasCnt = [self datasCount];
for (NSUInteger i = 0; i < datasCnt; i++)
{
[other addData:[self dataAtIndex:i]];
}
}
if (_ratelimitertype)
{
other.ratelimitertype = _ratelimitertype;
}
}
- (id)copyWithZone:(NSZone *)zone
{
AWDKeychainCKKSRateLimiterAggregatedScores *copy = [[[self class] allocWithZone:zone] init];
if (self->_has.timestamp)
{
copy->_timestamp = _timestamp;
copy->_has.timestamp = YES;
}
PBRepeatedUInt32Copy(&(copy->_datas), &_datas);
copy->_ratelimitertype = [_ratelimitertype copyWithZone:zone];
return copy;
}
- (BOOL)isEqual:(id)object
{
AWDKeychainCKKSRateLimiterAggregatedScores *other = (AWDKeychainCKKSRateLimiterAggregatedScores *)object;
return [other isMemberOfClass:[self class]]
&&
((self->_has.timestamp && other->_has.timestamp && self->_timestamp == other->_timestamp) || (!self->_has.timestamp && !other->_has.timestamp))
&&
PBRepeatedUInt32IsEqual(&(self->_datas), &(other->_datas))
&&
((!self->_ratelimitertype && !other->_ratelimitertype) || [self->_ratelimitertype isEqual:other->_ratelimitertype])
;
}
- (NSUInteger)hash
{
return 0
^
(self->_has.timestamp ? PBHashInt((NSUInteger)self->_timestamp) : 0)
^
PBRepeatedUInt32Hash(&(self->_datas))
^
[self->_ratelimitertype hash]
;
}
- (void)mergeFrom:(AWDKeychainCKKSRateLimiterAggregatedScores *)other
{
if (other->_has.timestamp)
{
self->_timestamp = other->_timestamp;
self->_has.timestamp = YES;
}
NSUInteger datasCnt = [other datasCount];
for (NSUInteger i = 0; i < datasCnt; i++)
{
[self addData:[other dataAtIndex:i]];
}
if (other->_ratelimitertype)
{
[self setRatelimitertype:other->_ratelimitertype];
}
}
@end
#endif