ObjFW  Check-in [7392685ffc]

	return true;
}

- (unsigned long)hash
{
	id const *objects = _array.items;
	size_t count = _array.count;
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (size_t i = 0; i < count; i++)
		OF_HASH_ADD_HASH(hash, [objects[i] hash]);
		OFHashAddHash(&hash, [objects[i] hash]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (int)countByEnumeratingWithState: (OFFastEnumerationState *)state
			   objects: (id *)objects
			     count: (int)count_

			return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (id object in self)
		OF_HASH_ADD_HASH(hash, [object hash]);
		OFHashAddHash(&hash, [object hash]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	void *pool;

	count = self.count;

	if (count <= 15) {
		uint8_t tmp = 0x90 | ((uint8_t)count & 0xF);
		[data addItem: &tmp];
	} else if (count <= UINT16_MAX) {
		uint8_t type = 0xDC;
		uint16_t tmp = OF_BSWAP16_IF_LE((uint16_t)count);
		uint16_t tmp = OFToBigEndian16((uint16_t)count);

		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (count <= UINT32_MAX) {
		uint8_t type = 0xDD;
		uint32_t tmp = OF_BSWAP32_IF_LE((uint32_t)count);
		uint32_t tmp = OFToBigEndian32((uint32_t)count);

		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else
		@throw [OFOutOfRangeException exception];

	pool = objc_autoreleasePoolPush();

			if (c / CHAR_BIT >= _size) {
				size_t newSize;

				if (UINT32_MAX - c < 1)
					@throw [OFOutOfRangeException
					    exception];

				newSize = OF_ROUND_UP_POW2(CHAR_BIT, c + 1) /
				newSize = OFRoundUpToPowerOf2(CHAR_BIT, c + 1) /
				    CHAR_BIT;

				_bitset = OFResizeMemory(_bitset, newSize, 1);
				memset(_bitset + _size, '\0', newSize - _size);

				_size = newSize;
			}

			of_bitset_set(_bitset, c);
			OFBitsetSet(_bitset, c);
		}

		objc_autoreleasePoolPop(pool);
	} @catch (id e) {
		[self release];
		@throw e;
	}

}

- (bool)characterIsMember: (OFUnichar)character
{
	if (character / CHAR_BIT >= _size)
		return false;

	return of_bitset_isset(_bitset, character);
	return OFBitsetIsSet(_bitset, character);
}
@end

	if ([(id)block isMemberOfClass: (Class)&_NSConcreteMallocBlock]) {
#ifdef OF_HAVE_ATOMIC_OPS
		OFAtomicIntIncrease(&block->flags);
#else
		unsigned hash = SPINLOCK_HASH(block);

		OF_ENSURE(OFSpinlockLock(&blockSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockLock(&blockSpinlocks[hash]) == 0);
		block->flags++;
		OF_ENSURE(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);
#endif
	}

	return block;
}

void

			block->descriptor->dispose_helper(block);

		free(block);
	}
#else
	unsigned hash = SPINLOCK_HASH(block);

	OF_ENSURE(OFSpinlockLock(&blockSpinlocks[hash]) == 0);
	OFEnsure(OFSpinlockLock(&blockSpinlocks[hash]) == 0);
	if ((--block->flags & OF_BLOCK_REFCOUNT_MASK) == 0) {
		OF_ENSURE(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);

		if (block->flags & OF_BLOCK_HAS_COPY_DISPOSE)
			block->descriptor->dispose_helper(block);

		free(block);

		return;
	}
	OF_ENSURE(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);
	OFEnsure(OFSpinlockUnlock(&blockSpinlocks[hash]) == 0);
#endif
}

void
_Block_object_assign(void *dst_, const void *src_, const int flags_)
{
	int flags = flags_ & (OF_BLOCK_FIELD_IS_BLOCK |

				free(*dst);

				*dst = src->forwarding;
			}
#else
			unsigned hash = SPINLOCK_HASH(src);

			OF_ENSURE(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
			OFEnsure(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
			if (src->forwarding == src)
				src->forwarding = *dst;
			else {
				src->byref_dispose(*dst);
				free(*dst);

				*dst = src->forwarding;
			}
			OF_ENSURE(
			    OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
			OFEnsure(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
#endif
		} else
			*dst = src;

#ifdef OF_HAVE_ATOMIC_OPS
		OFAtomicIntIncrease(&(*dst)->flags);
#else
		unsigned hash = SPINLOCK_HASH(*dst);

		OF_ENSURE(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
		(*dst)->flags++;
		OF_ENSURE(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
#endif
		break;
	}
}

void
_Block_object_dispose(const void *object_, const int flags_)

				object->byref_dispose(object);

			free(object);
		}
#else
		unsigned hash = SPINLOCK_HASH(object);

		OF_ENSURE(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockLock(&byrefSpinlocks[hash]) == 0);
		if ((--object->flags & OF_BLOCK_REFCOUNT_MASK) == 0) {
			OF_ENSURE(
			    OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
			OFEnsure(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);

			if (object->flags & OF_BLOCK_HAS_COPY_DISPOSE)
				object->byref_dispose(object);

			free(object);
		}
		OF_ENSURE(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
		OFEnsure(OFSpinlockUnlock(&byrefSpinlocks[hash]) == 0);
#endif
		break;
	}
}

@implementation OFBlock
+ (void)load

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;
	float tmp;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	tmp = OF_BSWAP_FLOAT_IF_LE(_red);
	tmp = OFToLittleEndianFloat(_red);
	for (uint_fast8_t i = 0; i < sizeof(float); i++)
		OF_HASH_ADD(hash, ((char *)&tmp)[i]);
		OFHashAdd(&hash, ((char *)&tmp)[i]);

	tmp = OF_BSWAP_FLOAT_IF_LE(_green);
	tmp = OFToLittleEndianFloat(_green);
	for (uint_fast8_t i = 0; i < sizeof(float); i++)
		OF_HASH_ADD(hash, ((char *)&tmp)[i]);
		OFHashAdd(&hash, ((char *)&tmp)[i]);

	tmp = OF_BSWAP_FLOAT_IF_LE(_blue);
	tmp = OFToLittleEndianFloat(_blue);
	for (uint_fast8_t i = 0; i < sizeof(float); i++)
		OF_HASH_ADD(hash, ((char *)&tmp)[i]);
		OFHashAdd(&hash, ((char *)&tmp)[i]);

	tmp = OF_BSWAP_FLOAT_IF_LE(_alpha);
	tmp = OFToLittleEndianFloat(_alpha);
	for (uint_fast8_t i = 0; i < sizeof(float); i++)
		OF_HASH_ADD(hash, ((char *)&tmp)[i]);
		OFHashAdd(&hash, ((char *)&tmp)[i]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (void)getRed: (float *)red
	 green: (float *)green
	  blue: (float *)blue

- (void)dealloc
{
	if (_conditionInitialized) {
		int error = OFPlainConditionFree(&_condition);

		if (error != 0) {
			OF_ENSURE(error == EBUSY);
			OFEnsure(error == EBUSY);

			@throw [OFConditionStillWaitingException
			    exceptionWithCondition: self];
		}
	}

	[super dealloc];

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OF_HASH_ADD_HASH(hash, _domainName.hash);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_FINALIZE(hash);
	OFHashInit(&hash);
	OFHashAddHash(&hash, _domainName.hash);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];

		_settings = [settings copy];
		_delegate = [delegate retain];

		queryData = [OFMutableData dataWithCapacity: 512];

		/* Header */

		tmp = OF_BSWAP16_IF_LE(_ID.unsignedShortValue);
		tmp = OFToBigEndian16(_ID.unsignedShortValue);
		[queryData addItems: &tmp count: 2];
		/* RD */
		tmp = OF_BSWAP16_IF_LE(1u << 8);
		tmp = OFToBigEndian16(1u << 8);
		[queryData addItems: &tmp count: 2];
		/* QDCOUNT */
		tmp = OF_BSWAP16_IF_LE(1);
		tmp = OFToBigEndian16(1);
		[queryData addItems: &tmp count: 2];
		/* ANCOUNT, NSCOUNT and ARCOUNT */
		[queryData increaseCountBy: 6];

		/* Question */

		/* QNAME */

			length8 = (uint8_t)length;
			[queryData addItem: &length8];
			[queryData addItems: component.UTF8String
				      count: length];
		}

		/* QTYPE */
		tmp = OF_BSWAP16_IF_LE(_query.recordType);
		tmp = OFToBigEndian16(_query.recordType);
		[queryData addItems: &tmp count: 2];
		/* QCLASS */
		tmp = OF_BSWAP16_IF_LE(_query.DNSClass);
		tmp = OFToBigEndian16(_query.DNSClass);
		[queryData addItems: &tmp count: 2];
		[queryData makeImmutable];

		_queryData = [queryData copy];

		objc_autoreleasePoolPop(pool);
	} @catch (id e) {

	[[OFRunLoop currentRunLoop] addTimer: context->_cancelTimer
				     forMode: runLoopMode];

	nameServer = [context->_settings->_nameServers
	    objectAtIndex: context->_nameServersIndex];

	if (context->_settings->_usesTCP) {
		OF_ENSURE(context->_TCPSocket == nil);
		OFEnsure(context->_TCPSocket == nil);

		context->_TCPSocket = [[OFTCPSocket alloc] init];
		[_TCPQueries setObject: context forKey: context->_TCPSocket];

		context->_TCPSocket.delegate = self;
		[context->_TCPSocket asyncConnectToHost: nameServer
						   port: 53

-     (void)socket: (OFTCPSocket *)sock
  didConnectToHost: (OFString *)host
	      port: (uint16_t)port
	 exception: (id)exception
{
	OFDNSResolverContext *context = [_TCPQueries objectForKey: sock];

	OF_ENSURE(context != nil);
	OFEnsure(context != nil);

	if (exception != nil) {
		/*
		 * TODO: Handle error immediately instead of waiting for the
		 *	 timer to try the next nameserver or to retry.
		 */
		[_TCPQueries removeObjectForKey: context->_TCPSocket];

		if (queryDataCount > UINT16_MAX)
			@throw [OFOutOfRangeException exception];

		context->_TCPQueryData = [[OFMutableData alloc]
		    initWithCapacity: queryDataCount + 2];

		tmp = OF_BSWAP16_IF_LE(queryDataCount);
		tmp = OFToBigEndian16(queryDataCount);
		[context->_TCPQueryData addItems: &tmp count: sizeof(tmp)];
		[context->_TCPQueryData addItems: context->_queryData.items
					   count: queryDataCount];
	}

	[sock asyncWriteData: context->_TCPQueryData];
}

- (OFData *)stream: (OFStream *)stream
      didWriteData: (OFData *)data
      bytesWritten: (size_t)bytesWritten
	 exception: (id)exception
{
	OFTCPSocket *sock = (OFTCPSocket *)stream;
	OFDNSResolverContext *context = [_TCPQueries objectForKey: sock];

	OF_ENSURE(context != nil);
	OFEnsure(context != nil);

	if (exception != nil) {
		/*
		 * TODO: Handle error immediately instead of waiting for the
		 *	 timer to try the next nameserver or to retry.
		 */
		[_TCPQueries removeObjectForKey: context->_TCPSocket];

  didReadIntoBuffer: (void *)buffer
	     length: (size_t)length
	  exception: (id)exception
{
	OFTCPSocket *sock = (OFTCPSocket *)stream;
	OFDNSResolverContext *context = [_TCPQueries objectForKey: sock];

	OF_ENSURE(context != nil);
	OFEnsure(context != nil);

	if (exception != nil) {
		/*
		 * TODO: Handle error immediately instead of waiting for the
		 *	 timer to try the next nameserver or to retry.
		 */
		goto done;
	}

	if (context->_responseLength == 0) {
		unsigned char *ucBuffer = buffer;

		OF_ENSURE(length == 2);
		OFEnsure(length == 2);

		context->_responseLength = (ucBuffer[0] << 8) | ucBuffer[1];

		if (context->_responseLength > MAX_DNS_RESPONSE_LENGTH)
			@throw [OFOutOfRangeException exception];

		if (context->_responseLength == 0)

	 * We're fine if this gets smaller in a future release (unlikely), as
	 * long as two entries still fit.
	 */
	if (optLen < sizeof(buffer.entries))
		return;

	for (uint_fast8_t i = 0; i < 2; i++) {
		uint32_t ip = OF_BSWAP32_IF_LE(buffer.entries[i].ip.s_addr);
		uint32_t ip = OFFromBigEndian32(buffer.entries[i].ip.s_addr);

		if (ip == 0)
			continue;

		[nameServers addObject: [OFString stringWithFormat:
		    @"%u.%u.%u.%u", (ip >> 24) & 0xFF, (ip >> 16) & 0xFF,
		    (ip >> 8) & 0xFF, ip & 0xFF]];

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, OFSocketAddressHash(&_address));
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, OFSocketAddressHash(&_address));

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, OFSocketAddressHash(&_address));
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, OFSocketAddressHash(&_address));

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _alias.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _alias.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _CPU.hash);
	OF_HASH_ADD_HASH(hash, _OS.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _CPU.hash);
	OFHashAddHash(&hash, _OS.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD(hash, _preference >> 8);
	OF_HASH_ADD(hash, _preference);
	OF_HASH_ADD_HASH(hash, _mailExchange.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAdd(&hash, _preference >> 8);
	OFHashAdd(&hash, _preference);
	OFHashAddHash(&hash, _mailExchange.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _authoritativeHost.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _authoritativeHost.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _domainName.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _domainName.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _mailbox.hash);
	OF_HASH_ADD_HASH(hash, _TXTDomainName.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _mailbox.hash);
	OFHashAddHash(&hash, _TXTDomainName.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _primaryNameServer.hash);
	OF_HASH_ADD_HASH(hash, _responsiblePerson.hash);
	OF_HASH_ADD(hash, _serialNumber >> 24);
	OF_HASH_ADD(hash, _serialNumber >> 16);
	OF_HASH_ADD(hash, _serialNumber >> 8);
	OF_HASH_ADD(hash, _serialNumber);
	OF_HASH_ADD(hash, _refreshInterval >> 24);
	OF_HASH_ADD(hash, _refreshInterval >> 16);
	OF_HASH_ADD(hash, _refreshInterval >> 8);
	OF_HASH_ADD(hash, _refreshInterval);
	OF_HASH_ADD(hash, _retryInterval >> 24);
	OF_HASH_ADD(hash, _retryInterval >> 16);
	OF_HASH_ADD(hash, _retryInterval >> 8);
	OF_HASH_ADD(hash, _retryInterval);
	OF_HASH_ADD(hash, _expirationInterval >> 24);
	OF_HASH_ADD(hash, _expirationInterval >> 16);
	OF_HASH_ADD(hash, _expirationInterval >> 8);
	OF_HASH_ADD(hash, _expirationInterval);
	OF_HASH_ADD(hash, _minTTL >> 24);
	OF_HASH_ADD(hash, _minTTL >> 16);
	OF_HASH_ADD(hash, _minTTL >> 8);
	OF_HASH_ADD(hash, _minTTL);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _primaryNameServer.hash);
	OFHashAddHash(&hash, _responsiblePerson.hash);
	OFHashAdd(&hash, _serialNumber >> 24);
	OFHashAdd(&hash, _serialNumber >> 16);
	OFHashAdd(&hash, _serialNumber >> 8);
	OFHashAdd(&hash, _serialNumber);
	OFHashAdd(&hash, _refreshInterval >> 24);
	OFHashAdd(&hash, _refreshInterval >> 16);
	OFHashAdd(&hash, _refreshInterval >> 8);
	OFHashAdd(&hash, _refreshInterval);
	OFHashAdd(&hash, _retryInterval >> 24);
	OFHashAdd(&hash, _retryInterval >> 16);
	OFHashAdd(&hash, _retryInterval >> 8);
	OFHashAdd(&hash, _retryInterval);
	OFHashAdd(&hash, _expirationInterval >> 24);
	OFHashAdd(&hash, _expirationInterval >> 16);
	OFHashAdd(&hash, _expirationInterval >> 8);
	OFHashAdd(&hash, _expirationInterval);
	OFHashAdd(&hash, _minTTL >> 24);
	OFHashAdd(&hash, _minTTL >> 16);
	OFHashAdd(&hash, _minTTL >> 8);
	OFHashAdd(&hash, _minTTL);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD(hash, _priority >> 8);
	OF_HASH_ADD(hash, _priority);
	OF_HASH_ADD(hash, _weight >> 8);
	OF_HASH_ADD(hash, _weight);
	OF_HASH_ADD_HASH(hash, _target.hash);
	OF_HASH_ADD(hash, _port >> 8);
	OF_HASH_ADD(hash, _port);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAdd(&hash, _priority >> 8);
	OFHashAdd(&hash, _priority);
	OFHashAdd(&hash, _weight >> 8);
	OFHashAdd(&hash, _weight);
	OFHashAddHash(&hash, _target.hash);
	OFHashAdd(&hash, _port >> 8);
	OFHashAdd(&hash, _port);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [OFString stringWithFormat:

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD(hash, _DNSClass >> 8);
	OF_HASH_ADD(hash, _DNSClass);
	OF_HASH_ADD(hash, _recordType >> 8);
	OF_HASH_ADD(hash, _recordType);
	OF_HASH_ADD_HASH(hash, _textStrings.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAdd(&hash, _DNSClass >> 8);
	OFHashAdd(&hash, _DNSClass);
	OFHashAdd(&hash, _recordType >> 8);
	OFHashAdd(&hash, _recordType);
	OFHashAddHash(&hash, _textStrings.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	void *pool = objc_autoreleasePoolPush();

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OF_HASH_ADD_HASH(hash, _domainName.hash);
	OF_HASH_ADD_HASH(hash, [_answerRecords hash]);
	OF_HASH_ADD_HASH(hash, [_authorityRecords hash]);
	OF_HASH_ADD_HASH(hash, [_additionalRecords hash]);
	OF_HASH_FINALIZE(hash);
	OFHashInit(&hash);
	OFHashAddHash(&hash, _domainName.hash);
	OFHashAddHash(&hash, [_answerRecords hash]);
	OFHashAddHash(&hash, [_authorityRecords hash]);
	OFHashAddHash(&hash, [_additionalRecords hash]);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	OFString *answerRecords = [_answerRecords.description

createDate(OFData *data)
{
	switch (data.count) {
	case 4: {
		uint32_t timestamp;

		memcpy(&timestamp, data.items, 4);
		timestamp = OF_BSWAP32_IF_LE(timestamp);
		timestamp = OFFromBigEndian32(timestamp);

		return [OFDate dateWithTimeIntervalSince1970: timestamp];
	}
	case 8: {
		uint64_t combined;

		memcpy(&combined, data.items, 8);
		combined = OF_BSWAP64_IF_LE(combined);
		combined = OFFromBigEndian64(combined);

		return [OFDate dateWithTimeIntervalSince1970:
		    (double)(combined & 0x3FFFFFFFF) +
		    (double)(combined >> 34) / 1000000000];
	}
	case 12: {
		uint32_t nanoseconds;
		int64_t seconds;

		memcpy(&nanoseconds, data.items, 4);
		memcpy(&seconds, (char *)data.items + 4, 8);

		nanoseconds = OF_BSWAP32_IF_LE(nanoseconds);
		seconds = OF_BSWAP64_IF_LE(seconds);
		nanoseconds = OFFromBigEndian32(nanoseconds);
		seconds = OFFromBigEndian64(seconds);

		return [OFDate dateWithTimeIntervalSince1970:
		    (double)seconds + (double)nanoseconds / 1000000000];
	}
	default:
		@throw [OFInvalidFormatException exception];
	}

		float f;

		if (length < 5)
			@throw [OFTruncatedDataException exception];

		memcpy(&f, buffer + 1, 4);

		*object = [OFNumber numberWithFloat: OF_BSWAP_FLOAT_IF_LE(f)];
		*object = [OFNumber numberWithFloat: OFFromBigEndianFloat(f)];
		return 5;
	case 0xCB:; /* float 64 */
		double d;

		if (length < 9)
			@throw [OFTruncatedDataException exception];

		memcpy(&d, buffer + 1, 8);

		*object = [OFNumber numberWithDouble: OF_BSWAP_DOUBLE_IF_LE(d)];
		*object = [OFNumber numberWithDouble: OFFromBigEndianDouble(d)];
		return 9;
	/* nil */
	case 0xC0:
		*object = [OFNull null];
		return 1;
	/* false */
	case 0xC2:

		return OFOrderedDescending;
	else
		return OFOrderedAscending;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (size_t i = 0; i < _count * _itemSize; i++)
		OF_HASH_ADD(hash, ((uint8_t *)_items)[i]);
		OFHashAdd(&hash, ((uint8_t *)_items)[i]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFData *)subdataWithRange: (OFRange)range
{
	OFData *ret;

		uint8_t tmp = (uint8_t)_count;

		data = [OFMutableData dataWithCapacity: _count + 2];
		[data addItem: &type];
		[data addItem: &tmp];
	} else if (_count <= UINT16_MAX) {
		uint8_t type = 0xC5;
		uint16_t tmp = OF_BSWAP16_IF_LE((uint16_t)_count);
		uint16_t tmp = OFToBigEndian16((uint16_t)_count);

		data = [OFMutableData dataWithCapacity: _count + 3];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (_count <= UINT32_MAX) {
		uint8_t type = 0xC6;
		uint32_t tmp = OF_BSWAP32_IF_LE((uint32_t)_count);
		uint32_t tmp = OFToBigEndian32((uint32_t)_count);

		data = [OFMutableData dataWithCapacity: _count + 5];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else
		@throw [OFOutOfRangeException exception];

	[data addItems: _items count: _count];
	[data makeImmutable];

	return data;
}
@end

static OFTimeInterval
now(void)
{
	struct timeval tv;
	OFTimeInterval seconds;

	OF_ENSURE(gettimeofday(&tv, NULL) == 0);
	OFEnsure(gettimeofday(&tv, NULL) == 0);

	seconds = tv.tv_sec;
	seconds += (OFTimeInterval)tv.tv_usec / 1000000;

	return seconds;
}

	if (seconds == 0) {
		static OFOnceControl once = OFOnceControlInitValue;
		OFOnce(&once, initZeroDate);
		return (id)zeroDate;
	}

#if defined(OF_OBJFW_RUNTIME) && UINTPTR_MAX == UINT64_MAX
	value = OF_BSWAP64_IF_LE(OF_DOUBLE_TO_INT_RAW(OF_BSWAP_DOUBLE_IF_LE(
	value = OFFromBigEndian64(OFDoubleToRawUInt64(OFToBigEndianDouble(
	    seconds)));

	/* Almost all dates fall into this range. */
	if (value & (UINT64_C(4) << 60)) {
		id ret = objc_createTaggedPointer(dateTag,
		    value & ~(UINT64_C(4) << 60));

@implementation OFTaggedPointerDate
- (OFTimeInterval)timeIntervalSince1970
{
	uint64_t value = (uint64_t)object_getTaggedPointerValue(self);

	value |= UINT64_C(4) << 60;

	return OF_BSWAP_DOUBLE_IF_LE(OF_INT_TO_DOUBLE_RAW(OF_BSWAP64_IF_LE(
	return OFFromBigEndianDouble(OFRawUInt64ToDouble(OFToBigEndian64(
	    value)));
}
@end
#endif

@implementation OFDate
+ (void)initialize

			@throw [OFInvalidArgumentException exception];

		value = [element unsignedLongLongValueWithBase: 16];

		if (value > UINT64_MAX)
			@throw [OFOutOfRangeException exception];

		seconds = OF_BSWAP_DOUBLE_IF_LE(OF_INT_TO_DOUBLE_RAW(
		    OF_BSWAP64_IF_LE(value)));
		seconds = OFFromBigEndianDouble(OFRawUInt64ToDouble(
		    OFToBigEndian64(value)));

		objc_autoreleasePoolPop(pool);
	} @catch (id e) {
		[self release];
		@throw e;
	}

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;
	double tmp;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	tmp = OF_BSWAP_DOUBLE_IF_BE(self.timeIntervalSince1970);
	tmp = OFToLittleEndianDouble(self.timeIntervalSince1970);

	for (size_t i = 0; i < sizeof(double); i++)
		OF_HASH_ADD(hash, ((char *)&tmp)[i]);
		OFHashAdd(&hash, ((char *)&tmp)[i]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];

	void *pool = objc_autoreleasePoolPush();
	OFXMLElement *element;

	element = [OFXMLElement elementWithName: @"OFDate"
				      namespace: OF_SERIALIZATION_NS];

	element.stringValue = [OFString stringWithFormat: @"%016" PRIx64,
	    OF_BSWAP64_IF_LE(OF_DOUBLE_TO_INT_RAW(OF_BSWAP_DOUBLE_IF_LE(
	    OFFromBigEndian64(OFDoubleToRawUInt64(OFToBigEndianDouble(
	    self.timeIntervalSince1970)))];

	[element retain];

	objc_autoreleasePoolPop(pool);

	return [element autorelease];

	OFData *ret;

	if (seconds >= 0 && seconds < 0x400000000) {
		if (seconds <= UINT32_MAX && nanoseconds == 0) {
			uint32_t seconds32 = (uint32_t)seconds;
			OFData *data;

			seconds32 = OF_BSWAP32_IF_LE(seconds32);
			seconds32 = OFToBigEndian32(seconds32);
			data = [OFData dataWithItems: &seconds32
					       count: sizeof(seconds32)];

			ret = [[OFMessagePackExtension
			    extensionWithType: -1
					 data: data] messagePackRepresentation];
		} else {
			uint64_t combined = ((uint64_t)nanoseconds << 34) |
			    (uint64_t)seconds;
			OFData *data;

			combined = OF_BSWAP64_IF_LE(combined);
			combined = OFToBigEndian64(combined);
			data = [OFData dataWithItems: &combined
					       count: sizeof(combined)];

			ret = [[OFMessagePackExtension
			    extensionWithType: -1
					 data: data] messagePackRepresentation];
		}
	} else {
		OFMutableData *data = [OFMutableData dataWithCapacity: 12];

		nanoseconds = OF_BSWAP32_IF_LE(nanoseconds);
		nanoseconds = OFToBigEndian32(nanoseconds);
		[data addItems: &nanoseconds count: sizeof(nanoseconds)];
		seconds = OF_BSWAP64_IF_LE(seconds);
		seconds = OFToBigEndian64(seconds);
		[data addItems: &seconds count: sizeof(seconds)];

		ret = [[OFMessagePackExtension
		    extensionWithType: -1
				 data: data] messagePackRepresentation];
	}

}

- (OFTimeInterval)timeIntervalSinceNow
{
	struct timeval t;
	OFTimeInterval seconds;

	OF_ENSURE(gettimeofday(&t, NULL) == 0);
	OFEnsure(gettimeofday(&t, NULL) == 0);

	seconds = t.tv_sec;
	seconds += (OFTimeInterval)t.tv_usec / 1000000;

	return self.timeIntervalSince1970 - seconds;
}

- (OFDate *)dateByAddingTimeInterval: (OFTimeInterval)seconds
{
	return [OFDate dateWithTimeIntervalSince1970:
	    self.timeIntervalSince1970 + seconds];
}
@end

- (unsigned int)retainCount
{
	return OF_RETAIN_COUNT_MAX;
}

- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '-':
	case '.':
	case '_':
	case '~':

	count = self.count;

	if (count <= 15) {
		uint8_t tmp = 0x80 | ((uint8_t)count & 0xF);
		[data addItem: &tmp];
	} else if (count <= UINT16_MAX) {
		uint8_t type = 0xDE;
		uint16_t tmp = OF_BSWAP16_IF_LE((uint16_t)count);
		uint16_t tmp = OFToBigEndian16((uint16_t)count);

		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (count <= UINT32_MAX) {
		uint8_t type = 0xDF;
		uint32_t tmp = OF_BSWAP32_IF_LE((uint32_t)count);
		uint32_t tmp = OFToBigEndian32((uint32_t)count);

		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else
		@throw [OFOutOfRangeException exception];

	pool = objc_autoreleasePoolPush();

	for (int i = 0; i < events; i++) {
		if (eventList[i].events & EPOLLIN) {
			void *pool = objc_autoreleasePoolPush();

			if (eventList[i].data.ptr == nullObject) {
				char buffer;
				OF_ENSURE(read(_cancelFD[0], &buffer, 1) == 1);
				OFEnsure(read(_cancelFD[0], &buffer, 1) == 1);
				continue;
			}

			if ([_delegate respondsToSelector:
			    @selector(objectIsReadyForReading:)])
				[_delegate objectIsReadyForReading:
				    eventList[i].data.ptr];

static OF_INLINE void
normalizeKey(char *str_)
{
	unsigned char *str = (unsigned char *)str_;
	bool firstLetter = true;

	while (*str != '\0') {
		if (!of_ascii_isalpha(*str)) {
		if (!OFASCIIIsAlpha(*str)) {
			firstLetter = true;
			str++;
			continue;
		}

		*str = (firstLetter
		    ? of_ascii_toupper(*str)
		    : of_ascii_tolower(*str));
		    ? OFASCIIToUpper(*str) : OFASCIIToLower(*str));

		firstLetter = false;
		str++;
	}
}

static bool

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD_HASH(hash, _value.hash);
	OF_HASH_ADD_HASH(hash, _domain.hash);
	OF_HASH_ADD_HASH(hash, _path.hash);
	OF_HASH_ADD_HASH(hash, _expires.hash);
	OF_HASH_ADD(hash, _secure);
	OF_HASH_ADD(hash, _HTTPOnly);
	OF_HASH_ADD_HASH(hash, _extensions.hash);
	OF_HASH_FINALIZE(hash);
	OFHashInit(&hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAddHash(&hash, _value.hash);
	OFHashAddHash(&hash, _domain.hash);
	OFHashAddHash(&hash, _path.hash);
	OFHashAddHash(&hash, _expires.hash);
	OFHashAdd(&hash, _secure);
	OFHashAdd(&hash, _HTTPOnly);
	OFHashAddHash(&hash, _extensions.hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	OFHTTPCookie *copy = [[OFHTTPCookie alloc] initWithName: _name

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD(hash, _method);
	OF_HASH_ADD(hash, _protocolVersion.major);
	OF_HASH_ADD(hash, _protocolVersion.minor);
	OF_HASH_ADD_HASH(hash, _URL.hash);
	OF_HASH_ADD_HASH(hash, _headers.hash);
	OFHashAdd(&hash, _method);
	OFHashAdd(&hash, _protocolVersion.major);
	OFHashAdd(&hash, _protocolVersion.minor);
	OFHashAddHash(&hash, _URL.hash);
	OFHashAddHash(&hash, _headers.hash);
	if (_hasRemoteAddress)
		OF_HASH_ADD_HASH(hash, OFSocketAddressHash(&_remoteAddress));
		OFHashAddHash(&hash, OFSocketAddressHash(&_remoteAddress));

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (void)setProtocolVersion: (OFHTTPRequestProtocolVersion)protocolVersion
{
	if (protocolVersion.major != 1 || protocolVersion.minor > 1)

- (void)stop;
@end
#endif

static OF_INLINE OFString *
normalizedKey(OFString *key)
{
	char *cString = of_strdup(key.UTF8String);
	char *cString = OFStrdup(key.UTF8String);
	unsigned char *tmp = (unsigned char *)cString;
	bool firstLetter = true;

	if (cString == NULL)
		@throw [OFOutOfMemoryException
		    exceptionWithRequestedSize: strlen(key.UTF8String)];

	while (*tmp != '\0') {
		if (!of_ascii_isalpha(*tmp)) {
		if (!OFASCIIIsAlpha(*tmp)) {
			firstLetter = true;
			tmp++;
			continue;
		}

		*tmp = (firstLetter
		    ? of_ascii_toupper(*tmp)
		    : of_ascii_tolower(*tmp));
		    ? OFASCIIToUpper(*tmp) : OFASCIIToLower(*tmp));

		firstLetter = false;
		tmp++;
	}

	@try {
		return [OFString stringWithUTF8StringNoCopy: cString

		default:
			return false;
		}
	} @catch (OFWriteFailedException *e) {
		return false;
	}

	OF_ENSURE(0);
	OFEnsure(0);
}

- (bool)parseProlog: (OFString *)line
{
	OFString *method;
	OFMutableString *path;
	size_t pos;

static bool
isWhitespaceLine(OFString *line)
{
	const char *cString = line.UTF8String;
	size_t length = line.UTF8StringLength;

	for (size_t i = 0; i < length; i++)
		if (!of_ascii_isspace(cString[i]))
		if (!OFASCIIIsSpace(cString[i]))
			return false;

	return true;
}

@implementation OFINIFile
@synthesize categories = _categories;

		[_socket setCanBlock: true];

#ifdef OF_HAVE_BLOCKS
	if (_block != NULL) {
		if ([_socket isKindOfClass: [OFTCPSocket class]])
			((OFTCPSocketAsyncConnectBlock)_block)(_exception);
		else
			OF_ENSURE(0);
			OFEnsure(0);
	} else {
#endif
		if ([_delegate respondsToSelector:
		    @selector(socket:didConnectToHost:port:exception:)])
			[_delegate socket: _socket
			    didConnectToHost: _host
					port: _port

		for (;;) {
			uint16_t rnd = 0;
			int ret;

			while (rnd < 1024)
				rnd = (uint16_t)rand();

			_cancelAddr.sin_port = OF_BSWAP16_IF_LE(rnd);
			_cancelAddr.sin_port = OFToBigEndian16(rnd);
			ret = bind(_cancelFD[0],
			    (struct sockaddr *)&_cancelAddr,
			    sizeof(_cancelAddr));

			if (ret == 0)
				break;

	if (_waitingTask != NULL) {
		Signal(_waitingTask, (1ul << _cancelSignal));
		_waitingTask = NULL;
	}

	Permit();
#elif defined(OF_HAVE_PIPE)
	OF_ENSURE(write(_cancelFD[1], "", 1) > 0);
	OFEnsure(write(_cancelFD[1], "", 1) > 0);
#elif defined(OF_WII)
	OF_ENSURE(sendto(_cancelFD[1], "", 1, 0,
	OFEnsure(sendto(_cancelFD[1], "", 1, 0,
	    (struct sockaddr *)&_cancelAddr, 8) > 0);
#else
	OF_ENSURE(sendto(_cancelFD[1], (void *)"", 1, 0,
	OFEnsure(sendto(_cancelFD[1], (void *)"", 1, 0,
	    (struct sockaddr *)&_cancelAddr, sizeof(_cancelAddr)) > 0);
#endif
}
@end

			    exceptionWithObserver: self
					    errNo: (int)eventList[i].data];

		if (eventList[i].ident == (uintptr_t)_cancelFD[0]) {
			char buffer;

			assert(eventList[i].filter == EVFILT_READ);
			OF_ENSURE(read(_cancelFD[0], &buffer, 1) == 1);
			OFEnsure(read(_cancelFD[0], &buffer, 1) == 1);

			continue;
		}

		pool = objc_autoreleasePoolPush();

		switch (eventList[i].filter) {

{
	uint16_t mode;

	if (extension.count != 3)
		@throw [OFInvalidFormatException exception];

	memcpy(&mode, (char *)extension.items + 1, 2);
	mode = OF_BSWAP16_IF_BE(mode);
	mode = OFFromLittleEndian16(mode);

	[entry->_mode release];
	entry->_mode = nil;

	entry->_mode = [[OFNumber alloc] initWithUnsignedShort: mode];
}

static void
parseGIDUIDExtension(OFLHAArchiveEntry *entry, OFData *extension,
    OFStringEncoding encoding)
{
	uint16_t UID, GID;

	if (extension.count != 5)
		@throw [OFInvalidFormatException exception];

	memcpy(&GID, (char *)extension.items + 1, 2);
	GID = OF_BSWAP16_IF_BE(GID);
	GID = OFFromLittleEndian16(GID);

	memcpy(&UID, (char *)extension.items + 3, 2);
	UID = OF_BSWAP16_IF_BE(UID);
	UID = OFFromLittleEndian16(UID);

	[entry->_GID release];
	entry->_GID = nil;

	[entry->_UID release];
	entry->_UID = nil;

{
	uint32_t modificationDate;

	if (extension.count != 5)
		@throw [OFInvalidFormatException exception];

	memcpy(&modificationDate, (char *)extension.items + 1, 4);
	modificationDate = OF_BSWAP32_IF_BE(modificationDate);
	modificationDate = OFFromLittleEndian32(modificationDate);

	[entry->_modificationDate release];
	entry->_modificationDate = nil;

	entry->_modificationDate = [[OFDate alloc]
	    initWithTimeIntervalSince1970: modificationDate];
}

		_compressionMethod = [[OFString alloc]
		    initWithCString: header + 2
			   encoding: OFStringEncodingASCII
			     length: 5];

		memcpy(&_compressedSize, header + 7, 4);
		_compressedSize = OF_BSWAP32_IF_BE(_compressedSize);
		_compressedSize = OFFromLittleEndian32(_compressedSize);

		memcpy(&_uncompressedSize, header + 11, 4);
		_uncompressedSize = OF_BSWAP32_IF_BE(_uncompressedSize);
		_uncompressedSize = OFFromLittleEndian32(_uncompressedSize);

		memcpy(&date, header + 15, 4);
		date = OF_BSWAP32_IF_BE(date);
		date = OFFromLittleEndian32(date);

		_headerLevel = header[20];
		_extensions = [[OFMutableArray alloc] init];

		switch (_headerLevel) {
		case 0:
		case 1:;

	/* Length. Filled in after we're done. */
	[data increaseCountBy: 2];

	[data addItems: [_compressionMethod
			    cStringWithEncoding: OFStringEncodingASCII]
		 count: 5];

	tmp32 = OF_BSWAP32_IF_BE(_compressedSize);
	tmp32 = OFToLittleEndian32(_compressedSize);
	[data addItems: &tmp32 count: sizeof(tmp32)];

	tmp32 = OF_BSWAP32_IF_BE(_uncompressedSize);
	tmp32 = OFToLittleEndian32(_uncompressedSize);
	[data addItems: &tmp32 count: sizeof(tmp32)];

	tmp32 = OF_BSWAP32_IF_BE((uint32_t)_date.timeIntervalSince1970);
	tmp32 = OFToLittleEndian32((uint32_t)_date.timeIntervalSince1970);
	[data addItems: &tmp32 count: sizeof(tmp32)];

	/* Reserved */
	[data increaseCountBy: 1];

	/* Header level */
	[data addItem: "\x02"];

	/* CRC16 */
	tmp16 = OF_BSWAP16_IF_BE(_CRC16);
	tmp16 = OFToLittleEndian16(_CRC16);
	[data addItems: &tmp16 count: sizeof(tmp16)];

	/* Operating system identifier */
	[data addItem: "U"];

	/* Common header. Contains CRC16, which is written at the end. */
	tmp16 = OF_BSWAP16_IF_BE(5);
	tmp16 = OFToLittleEndian16(5);
	[data addItems: &tmp16 count: sizeof(tmp16)];
	[data addItem: "\x00"];
	[data increaseCountBy: 2];

	tmp16 = OF_BSWAP16_IF_BE((uint16_t)fileNameLength + 3);
	tmp16 = OFToLittleEndian16((uint16_t)fileNameLength + 3);
	[data addItems: &tmp16 count: sizeof(tmp16)];
	[data addItem: "\x01"];
	[data addItems: fileName count: fileNameLength];

	if (directoryNameLength > 0) {
		tmp16 = OF_BSWAP16_IF_BE((uint16_t)directoryNameLength + 3);
		tmp16 = OFToLittleEndian16((uint16_t)directoryNameLength + 3);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x02"];
		[data addItems: directoryName count: directoryNameLength];
	}

	if (_fileComment != nil) {
		size_t fileCommentLength =
		    [_fileComment cStringLengthWithEncoding: encoding];

		if (fileCommentLength > UINT16_MAX - 3)
			@throw [OFOutOfRangeException exception];

		tmp16 = OF_BSWAP16_IF_BE((uint16_t)fileCommentLength + 3);
		tmp16 = OFToLittleEndian16((uint16_t)fileCommentLength + 3);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x3F"];
		[data addItems: [_fileComment cStringWithEncoding: encoding]
			 count: fileCommentLength];
	}

	if (_mode != nil) {
		tmp16 = OF_BSWAP16_IF_BE(5);
		tmp16 = OFToLittleEndian16(5);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x50"];

		tmp16 = OF_BSWAP16_IF_BE(_mode.unsignedShortValue);
		tmp16 = OFToLittleEndian16(_mode.unsignedShortValue);
		[data addItems: &tmp16 count: sizeof(tmp16)];
	}

	if (_UID != nil || _GID != nil) {
		if (_UID == nil || _GID == nil)
			@throw [OFInvalidArgumentException exception];

		tmp16 = OF_BSWAP16_IF_BE(7);
		tmp16 = OFToLittleEndian16(7);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x51"];

		tmp16 = OF_BSWAP16_IF_BE(_GID.unsignedShortValue);
		tmp16 = OFToLittleEndian16(_GID.unsignedShortValue);
		[data addItems: &tmp16 count: sizeof(tmp16)];

		tmp16 = OF_BSWAP16_IF_BE(_UID.unsignedShortValue);
		tmp16 = OFToLittleEndian16(_UID.unsignedShortValue);
		[data addItems: &tmp16 count: sizeof(tmp16)];
	}

	if (_group != nil) {
		size_t groupLength =
		    [_group cStringLengthWithEncoding: encoding];

		if (groupLength > UINT16_MAX - 3)
			@throw [OFOutOfRangeException exception];

		tmp16 = OF_BSWAP16_IF_BE((uint16_t)groupLength + 3);
		tmp16 = OFToLittleEndian16((uint16_t)groupLength + 3);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x52"];
		[data addItems: [_group cStringWithEncoding: encoding]
			 count: groupLength];
	}

	if (_owner != nil) {
		size_t ownerLength =
		    [_owner cStringLengthWithEncoding: encoding];

		if (ownerLength > UINT16_MAX - 3)
			@throw [OFOutOfRangeException exception];

		tmp16 = OF_BSWAP16_IF_BE((uint16_t)ownerLength + 3);
		tmp16 = OFToLittleEndian16((uint16_t)ownerLength + 3);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x53"];
		[data addItems: [_owner cStringWithEncoding: encoding]
			 count: ownerLength];
	}

	if (_modificationDate != nil) {
		tmp16 = OF_BSWAP16_IF_BE(7);
		tmp16 = OFToLittleEndian16(7);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItem: "\x54"];

		tmp32 = OF_BSWAP32_IF_BE(
		tmp32 = OFToLittleEndian32(
		    (uint32_t)_modificationDate.timeIntervalSince1970);
		[data addItems: &tmp32 count: sizeof(tmp32)];
	}

	for (OFData *extension in _extensions) {
		size_t extensionLength = extension.count;

		if (extension.itemSize != 1)
			@throw [OFInvalidArgumentException exception];

		if (extensionLength > UINT16_MAX - 2)
			@throw [OFOutOfRangeException exception];

		tmp16 = OF_BSWAP16_IF_BE((uint16_t)extensionLength + 2);
		tmp16 = OFToLittleEndian16((uint16_t)extensionLength + 2);
		[data addItems: &tmp16 count: sizeof(tmp16)];
		[data addItems: extension.items count: extension.count];
	}

	/* Zero-length extension to terminate */
	[data increaseCountBy: 2];

	headerSize = data.count;

	if (headerSize > UINT16_MAX)
		@throw [OFOutOfRangeException exception];

	/* Now fill in the size and CRC16 for the entire header */
	tmp16 = OF_BSWAP16_IF_BE(headerSize);
	tmp16 = OFToLittleEndian16(headerSize);
	memcpy([data mutableItemAtIndex: 0], &tmp16, sizeof(tmp16));

	tmp16 = of_crc16(0, data.items, data.count);
	tmp16 = OF_BSWAP16_IF_BE(tmp16);
	tmp16 = OFToLittleEndian16(tmp16);
	memcpy([data mutableItemAtIndex: 27], &tmp16, sizeof(tmp16));

	[stream writeData: data];

	objc_autoreleasePoolPop(pool);
}

					if OF_UNLIKELY (!tryReadBits(self,
					    &bits, 9))
						return bytesWritten;

					skipCount = bits + 20;
					break;
				default:
					OF_ENSURE(0);
					OFEnsure(0);
				}

				if OF_UNLIKELY (_codesReceived + skipCount >
				    _codesCount)
					@throw [OFInvalidFormatException
					    exception];

	copy->_lastListItem = listItem;

	return copy;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (OFListItem *iter = _firstListItem;
	for (OFListItem *iter = _firstListItem; iter != NULL; iter = iter->next)
	    iter != NULL; iter = iter->next)
		OF_HASH_ADD_HASH(hash, [iter->object hash]);
		OFHashAddHash(&hash, [iter->object hash]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	OFMutableString *ret;

static OFDictionary *operatorPrecedences = nil;

#ifndef OF_AMIGAOS
static void
parseLocale(char *locale, OFStringEncoding *encoding,
    OFString **language, OFString **territory)
{
	if ((locale = of_strdup(locale)) == NULL)
	if ((locale = OFStrdup(locale)) == NULL)
		return;

	@try {
		OFStringEncoding enc = OFStringEncodingASCII;
		char *tmp;

		/* We don't care for extras behind the @ */

			else if ([token isEqual: @"&&"])
				var = [OFNumber numberWithBool:
				    [first boolValue] && [second boolValue]];
			else if ([token isEqual: @"||"])
				var = [OFNumber numberWithBool:
				    [first boolValue] || [second boolValue]];
			else
				OF_ENSURE(0);
				OFEnsure(0);

			[stack replaceObjectAtIndex: stackSize - 2
					 withObject: var];
			[stack removeLastObject];
		} else if (precedence == 1) {
			stackSize = stack.count;
			first = stack.lastObject;

			if ([token isEqual: @"!"])
				var = [OFNumber numberWithBool:
				    ![first boolValue]];
			else if ([token isEqual: @"is_real"])
				var = [OFNumber numberWithBool:
				    ([first doubleValue] !=
				    [first longLongValue])];
			else
				OF_ENSURE(0);
				OFEnsure(0);

			[stack replaceObjectAtIndex: stackSize - 1
					 withObject: var];
		} else
			[stack addObject: token];
	}

		if ((locale = OpenLocale(NULL)) != NULL) {
			@try {
				uint32_t territory;
				size_t length;

				territory =
				    OF_BSWAP32_IF_LE(locale->loc_CountryCode);
				    OFToBigEndian32(locale->loc_CountryCode);

				for (length = 0; length < 4; length++)
					if (((char *)&territory)[length] == 0)
						break;

				_territory = [[OFString alloc]
				    initWithCString: (char *)&territory

};

static OF_INLINE void
byteSwapVectorIfBE(uint32_t *vector, uint_fast8_t length)
{
#ifdef OF_BIG_ENDIAN
	for (uint_fast8_t i = 0; i < length; i++)
		vector[i] = OF_BSWAP32(vector[i]);
		vector[i] = OFByteSwap32(vector[i]);
#endif
}

static void
processBlock(uint32_t *state, uint32_t *buffer)
{
	uint32_t new[4];

	{								      \
		uint32_t tmp = new[3];					      \
		tmp = new[3];						      \
		new[0] += f(new[1], new[2], new[3]) +			      \
		    buffer[wordOrder[i]] + table[i];			      \
		new[3] = new[2];					      \
		new[2] = new[1];					      \
		new[1] += OFRotateLeft(new[0],			\
		new[1] += OF_ROL(new[0], rotateBits[(i % 4) + (i / 16) * 4]); \
		    rotateBits[(i % 4) + (i / 16) * 4]);	\
		new[0] = tmp;\
	}

	for (; i < 16; i++)
		LOOP_BODY(F)
	for (; i < 32; i++)
		LOOP_BODY(G)

- (const unsigned char *)digest
{
	if (_calculated)
		return (const unsigned char *)_iVars->state;

	_iVars->buffer.bytes[_iVars->bufferLength] = 0x80;
	of_explicit_memset(_iVars->buffer.bytes + _iVars->bufferLength + 1, 0,
	OFZeroMemory(_iVars->buffer.bytes + _iVars->bufferLength + 1,
	    64 - _iVars->bufferLength - 1);

	if (_iVars->bufferLength >= 56) {
		processBlock(_iVars->state, _iVars->buffer.words);
		of_explicit_memset(_iVars->buffer.bytes, 0, 64);
		OFZeroMemory(_iVars->buffer.bytes, 64);
	}

	_iVars->buffer.words[14] =
	    OF_BSWAP32_IF_BE((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	    OFToLittleEndian32((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	_iVars->buffer.words[15] =
	    OF_BSWAP32_IF_BE((uint32_t)(_iVars->bits >> 32));
	    OFToLittleEndian32((uint32_t)(_iVars->bits >> 32));

	processBlock(_iVars->state, _iVars->buffer.words);
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	byteSwapVectorIfBE(_iVars->state, 4);
	_calculated = true;

	return (const unsigned char *)_iVars->state;
}

- (void)reset
{
	[self of_resetState];
	_iVars->bits = 0;
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	_iVars->bufferLength = 0;
	_calculated = false;
}
@end

{
	unsigned long i, last;
	void *old;

	if (key == NULL || object == NULL)
		@throw [OFInvalidArgumentException exception];

	hash = OF_ROL(hash, self->_rotate);
	hash = OFRotateLeft(hash, self->_rotate);
	last = self->_capacity;

	for (i = hash & (self->_capacity - 1);
	    i < last && self->_buckets[i] != NULL; i++) {
		if (self->_buckets[i] == &deleted)
			continue;

- (unsigned long)hash
{
	unsigned long hash = 0;

	for (unsigned long i = 0; i < _capacity; i++) {
		if (_buckets[i] != NULL && _buckets[i] != &deleted) {
			hash ^= OF_ROR(_buckets[i]->hash, _rotate);
			hash ^= OFRotateRight(_buckets[i]->hash, _rotate);
			hash ^= _objectFunctions.hash(_buckets[i]->object);
		}
	}

	return hash;
}

- (id)copy
{
	OFMapTable *copy = [[OFMapTable alloc]
	    initWithKeyFunctions: _keyFunctions
		 objectFunctions: _objectFunctions
			capacity: _capacity];

	@try {
		for (unsigned long i = 0; i < _capacity; i++)
			if (_buckets[i] != NULL && _buckets[i] != &deleted)
				setObject(copy, _buckets[i]->key,
				    _buckets[i]->object,
				    OF_ROR(_buckets[i]->hash, _rotate));
				    OFRotateRight(_buckets[i]->hash, _rotate));
	} @catch (id e) {
		[copy release];
		@throw e;
	}

	return copy;
}

- (size_t)count
{
	return _count;
}

- (void *)objectForKey: (void *)key
{
	unsigned long i, hash, last;

	if (key == NULL)
		@throw [OFInvalidArgumentException exception];

	hash = OF_ROL(_keyFunctions.hash(key), _rotate);
	hash = OFRotateLeft(_keyFunctions.hash(key), _rotate);
	last = _capacity;

	for (i = hash & (_capacity - 1); i < last && _buckets[i] != NULL; i++) {
		if (_buckets[i] == &deleted)
			continue;

		if (_keyFunctions.equal(_buckets[i]->key, key))

- (void)removeObjectForKey: (void *)key
{
	unsigned long i, hash, last;

	if (key == NULL)
		@throw [OFInvalidArgumentException exception];

	hash = OF_ROL(_keyFunctions.hash(key), _rotate);
	hash = OFRotateLeft(_keyFunctions.hash(key), _rotate);
	last = _capacity;

	for (i = hash & (_capacity - 1); i < last && _buckets[i] != NULL; i++) {
		if (_buckets[i] == &deleted)
			continue;

		if (_keyFunctions.equal(_buckets[i]->key, key)) {

		uint16_t length;

		ret = [OFMutableData dataWithCapacity: count + 4];

		prefix = 0xC8;
		[ret addItem: &prefix];

		length = OF_BSWAP16_IF_LE((uint16_t)count);
		length = OFToBigEndian16((uint16_t)count);
		[ret addItems: &length count: 2];

		[ret addItem: &_type];
	} else {
		uint32_t length;

		ret = [OFMutableData dataWithCapacity: count + 6];

		prefix = 0xC9;
		[ret addItem: &prefix];

		length = OF_BSWAP32_IF_LE((uint32_t)count);
		length = OFToBigEndian32((uint32_t)count);
		[ret addItems: &length count: 4];

		[ret addItem: &_type];
	}

	[ret addItems: _data.items count: _data.count];
	[ret makeImmutable];

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD(hash, (uint8_t)_type);
	OF_HASH_ADD_HASH(hash, _data.hash);
	OFHashAdd(&hash, (uint8_t)_type);
	OFHashAddHash(&hash, _data.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];
}
@end

	size_t align;

	assert(*length > 0);

	(*type)++;
	(*length)--;

	while (*length > 0 && of_ascii_isdigit(**type)) {
	while (*length > 0 && OFASCIIIsDigit(**type)) {
		(*type)++;
		(*length)--;
	}

	align = alignofEncoding(type, length, true);

	if (*length == 0 || **type != ']')

	size_t size;

	assert(*length > 0);

	(*type)++;
	(*length)--;

	while (*length > 0 && of_ascii_isdigit(**type)) {
	while (*length > 0 && OFASCIIIsDigit(**type)) {
		count = count * 10 + **type - '0';

		(*type)++;
		(*length)--;
	}

	if (count == 0)

		_typesPointers = [[OFMutableData alloc]
		    initWithItemSize: sizeof(char *)];
		_offsets = [[OFMutableData alloc]
		    initWithItemSize: sizeof(size_t)];

		last = _types;
		for (size_t i = 0; i < length; i++) {
			if (of_ascii_isdigit(_types[i])) {
			if (OFASCIIIsDigit(_types[i])) {
				size_t offset = _types[i] - '0';

				if (last == _types + i)
					@throw [OFInvalidFormatException
					    exception];

				_types[i] = '\0';
				[_typesPointers addItem: &last];

				i++;
				for (; i < length &&
				    of_ascii_isdigit(_types[i]); i++)
				    OFASCIIIsDigit(_types[i]); i++)
					offset = offset * 10 + _types[i] - '0';

				[_offsets addItem: &offset];

				last = _types + i;
				i--;
			} else if (_types[i] == '{') {

			table = middleTable;
			tableSize = middleTableSize;
		}

		if (c >> 8 < tableSize && table[c >> 8][c & 0xFF])
			[self setCharacter: table[c >> 8][c & 0xFF] atIndex: i];

		isStart = of_ascii_isspace(c);
		isStart = OFASCIIIsSpace(c);
	}

	objc_autoreleasePoolPop(pool);
}
#else
static void
convert(OFMutableString *self, char (*startFunction)(char),

		char (*function)(char) =
		    (isStart ? startFunction : middleFunction);
		OFUnichar c = characters[i];

		if (c <= 0x7F)
			[self setCharacter: (int)function(c) atIndex: i];

		isStart = of_ascii_isspace(c);
		isStart = OFASCIIIsSpace(c);
	}

	objc_autoreleasePoolPop(pool);
}
#endif

- (void)setCharacter: (OFUnichar)character atIndex: (size_t)idx

			   wordMiddleTable: of_unicode_lowercase_table
			wordStartTableSize: OF_UNICODE_TITLECASE_TABLE_SIZE
		       wordMiddleTableSize: OF_UNICODE_LOWERCASE_TABLE_SIZE];
}
#else
- (void)uppercase
{
	convert(self, of_ascii_toupper, of_ascii_toupper);
	convert(self, OFASCIIToUpper, OFASCIIToUpper);
}

- (void)lowercase
{
	convert(self, of_ascii_tolower, of_ascii_tolower);
	convert(self, OFASCIIToLower, OFASCIIToLower);
}

- (void)capitalize
{
	convert(self, of_ascii_toupper, of_ascii_tolower);
	convert(self, OFASCIIToUpper, OFASCIIToLower);
}
#endif

- (void)insertString: (OFString *)string atIndex: (size_t)idx
{
	[self replaceCharactersInRange: OFRangeMake(idx, 0) withString: string];
}

	void *pool = objc_autoreleasePoolPush();
	const OFUnichar *characters = self.characters;
	size_t i, length = self.length;

	for (i = 0; i < length; i++) {
		OFUnichar c = characters[i];

		if (!of_ascii_isspace(c))
		if (!OFASCIIIsSpace(c))
			break;
	}

	objc_autoreleasePoolPop(pool);

	[self deleteCharactersInRange: OFRangeMake(0, i)];
}

		return;

	pool = objc_autoreleasePoolPush();
	characters = self.characters;

	d = 0;
	for (p = characters + length - 1; p >= characters; p--) {
		if (!of_ascii_isspace(*p))
		if (!OFASCIIIsSpace(*p))
			break;

		d++;
	}

	objc_autoreleasePoolPop(pool);

		for (i = 0; i < _s->cStringLength; i++) {
			if (isStart)
				table = startTable;
			else
				table = middleTable;

			isStart = of_ascii_isspace(_s->cString[i]);
			isStart = OFASCIIIsSpace(_s->cString[i]);

			if ((t = table[0][(uint8_t)_s->cString[i]]) != 0)
				_s->cString[i] = t;
		}

		return;
	}

		    _s->cStringLength - i, &c);

		if (cLen <= 0 || c > 0x10FFFF) {
			OFFreeMemory(unicodeString);
			@throw [OFInvalidEncodingException exception];
		}

		isStart = of_ascii_isspace(c);
		isStart = OFASCIIIsSpace(c);

		if (c >> 8 < tableSize) {
			OFUnichar tc = table[c >> 8][c & 0xFF];

			if (tc)
				c = tc;
		}

}

- (void)deleteLeadingWhitespaces
{
	size_t i;

	for (i = 0; i < _s->cStringLength; i++)
		if (!of_ascii_isspace(_s->cString[i]))
		if (!OFASCIIIsSpace(_s->cString[i]))
			break;

	_s->hashed = false;
	_s->cStringLength -= i;
	_s->length -= i;

	memmove(_s->cString, _s->cString + i, _s->cStringLength);

	size_t d;
	char *p;

	_s->hashed = false;

	d = 0;
	for (p = _s->cString + _s->cStringLength - 1; p >= _s->cString; p--) {
		if (!of_ascii_isspace(*p))
		if (!OFASCIIIsSpace(*p))
			break;

		*p = '\0';
		d++;
	}

	_s->cStringLength -= d;

	size_t d, i;
	char *p;

	_s->hashed = false;

	d = 0;
	for (p = _s->cString + _s->cStringLength - 1; p >= _s->cString; p--) {
		if (!of_ascii_isspace(*p))
		if (!OFASCIIIsSpace(*p))
			break;

		*p = '\0';
		d++;
	}

	_s->cStringLength -= d;
	_s->length -= d;

	for (i = 0; i < _s->cStringLength; i++)
		if (!of_ascii_isspace(_s->cString[i]))
		if (!OFASCIIIsSpace(_s->cString[i]))
			break;

	_s->cStringLength -= i;
	_s->length -= i;

	memmove(_s->cString, _s->cString + i, _s->cStringLength);
	_s->cString[_s->cStringLength] = '\0';

- (void)dealloc
{
	if (_initialized) {
		int error = OFPlainMutexFree(&_mutex);

		if (error != 0) {
			OF_ENSURE(error == EBUSY);
			OFEnsure(error == EBUSY);

			@throw [OFStillLockedException exceptionWithLock: self];
		}
	}

	[_name release];

		} else if ([typeString isEqual: @"float"]) {
			unsigned long long value =
			    [element unsignedLongLongValueWithBase: 16];

			if (value > UINT64_MAX)
				@throw [OFOutOfRangeException exception];

			self = [self initWithDouble: OF_BSWAP_DOUBLE_IF_LE(
			    OF_INT_TO_DOUBLE_RAW(OF_BSWAP64_IF_LE(value)))];
			self = [self initWithDouble: OFFromBigEndianDouble(
			    OFRawUInt64ToDouble(OFToBigEndian64(value)))];
		} else if ([typeString isEqual: @"signed"])
			self = [self initWithLongLong: element.longLongValue];
		else if ([typeString isEqual: @"unsigned"])
			self = [self initWithUnsignedLongLong:
			    element.unsignedLongLongValue];
		else
			@throw [OFInvalidArgumentException exception];

		return OFOrderedSame;
	}
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	if (isFloat(self)) {
		double d;

		if (isnan(self.doubleValue))
			return 0;

		d = OF_BSWAP_DOUBLE_IF_BE(self.doubleValue);
		d = OFToLittleEndianDouble(self.doubleValue);

		for (uint_fast8_t i = 0; i < sizeof(double); i++)
			OF_HASH_ADD(hash, ((char *)&d)[i]);
			OFHashAdd(&hash, ((char *)&d)[i]);
	} else if (isSigned(self) || isUnsigned(self)) {
		unsigned long long value = self.unsignedLongLongValue;

		while (value != 0) {
			OF_HASH_ADD(hash, value & 0xFF);
			OFHashAdd(&hash, value & 0xFF);
			value >>= 8;
		}
	} else
		@throw [OFInvalidFormatException exception];

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];

	if (*self.objCType == 'B')
		[element addAttributeWithName: @"type" stringValue: @"bool"];
	else if (isFloat(self)) {
		[element addAttributeWithName: @"type" stringValue: @"float"];
		element.stringValue = [OFString
		    stringWithFormat: @"%016" PRIx64,
		    OF_BSWAP64_IF_LE(OF_DOUBLE_TO_INT_RAW(OF_BSWAP_DOUBLE_IF_LE(
		    OFFromBigEndian64(OFDoubleToRawUInt64(OFToBigEndianDouble(
		    self.doubleValue)))];
	} else if (isSigned(self))
		[element addAttributeWithName: @"type" stringValue: @"signed"];
	else if (isUnsigned(self))
		[element addAttributeWithName: @"type"
				  stringValue: @"unsigned"];
	else

	const char *typeEncoding = self.objCType;

	if (*typeEncoding == 'B') {
		uint8_t type = (self.boolValue ? 0xC3 : 0xC2);
		data = [OFMutableData dataWithItems: &type count: 1];
	} else if (*typeEncoding == 'f') {
		uint8_t type = 0xCA;
		float tmp = OF_BSWAP_FLOAT_IF_LE(self.floatValue);
		float tmp = OFToBigEndianFloat(self.floatValue);

		data = [OFMutableData dataWithCapacity: 5];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (*typeEncoding == 'd') {
		uint8_t type = 0xCB;
		double tmp = OF_BSWAP_DOUBLE_IF_LE(self.doubleValue);
		double tmp = OFToBigEndianDouble(self.doubleValue);

		data = [OFMutableData dataWithCapacity: 9];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (isSigned(self)) {
		long long value = self.longLongValue;

		if (value >= -32 && value < 0) {
			uint8_t tmp = 0xE0 | ((uint8_t)(value - 32) & 0x1F);

			data = [OFMutableData dataWithItems: &tmp count: 1];
		} else if (value >= INT8_MIN && value <= INT8_MAX) {
			uint8_t type = 0xD0;
			int8_t tmp = (int8_t)value;

			data = [OFMutableData dataWithCapacity: 2];
			[data addItem: &type];
			[data addItem: &tmp];
		} else if (value >= INT16_MIN && value <= INT16_MAX) {
			uint8_t type = 0xD1;
			int16_t tmp = OF_BSWAP16_IF_LE((int16_t)value);
			int16_t tmp = OFToBigEndian16((int16_t)value);

			data = [OFMutableData dataWithCapacity: 3];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else if (value >= INT32_MIN && value <= INT32_MAX) {
			uint8_t type = 0xD2;
			int32_t tmp = OF_BSWAP32_IF_LE((int32_t)value);
			int32_t tmp = OFToBigEndian32((int32_t)value);

			data = [OFMutableData dataWithCapacity: 5];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else if (value >= INT64_MIN && value <= INT64_MAX) {
			uint8_t type = 0xD3;
			int64_t tmp = OF_BSWAP64_IF_LE((int64_t)value);
			int64_t tmp = OFToBigEndian64((int64_t)value);

			data = [OFMutableData dataWithCapacity: 9];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else
			@throw [OFOutOfRangeException exception];
	} else if (isUnsigned(self)) {

			uint8_t tmp = (uint8_t)value;

			data = [OFMutableData dataWithCapacity: 2];
			[data addItem: &type];
			[data addItem: &tmp];
		} else if (value <= UINT16_MAX) {
			uint8_t type = 0xCD;
			uint16_t tmp = OF_BSWAP16_IF_LE((uint16_t)value);
			uint16_t tmp = OFToBigEndian16((uint16_t)value);

			data = [OFMutableData dataWithCapacity: 3];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else if (value <= UINT32_MAX) {
			uint8_t type = 0xCE;
			uint32_t tmp = OF_BSWAP32_IF_LE((uint32_t)value);
			uint32_t tmp = OFToBigEndian32((uint32_t)value);

			data = [OFMutableData dataWithCapacity: 5];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else if (value <= UINT64_MAX) {
			uint8_t type = 0xCF;
			uint64_t tmp = OF_BSWAP64_IF_LE((uint64_t)value);
			uint64_t tmp = OFToBigEndian64((uint64_t)value);

			data = [OFMutableData dataWithCapacity: 9];
			[data addItem: &type];
			[data addItems: &tmp count: sizeof(tmp)];
		} else
			@throw [OFOutOfRangeException exception];
	} else

		name = OFAllocMemory(keyLength + 3, 1);
		@try {
			memcpy(name, "is", 2);
			memcpy(name + 2, key.UTF8String, keyLength);
			name[keyLength + 2] = '\0';

			name[2] = of_ascii_toupper(name[2]);
			name[2] = OFASCIIToUpper(name[2]);

			selector = sel_registerName(name);
		} @finally {
			OFFreeMemory(name);
		}

		methodSignature = [self methodSignatureForSelector: selector];

	name = OFAllocMemory(keyLength + 5, 1);
	@try {
		memcpy(name, "set", 3);
		memcpy(name + 3, key.UTF8String, keyLength);
		memcpy(name + keyLength + 3, ":", 2);

		name[3] = of_ascii_toupper(name[3]);
		name[3] = OFASCIIToUpper(name[3]);

		selector = sel_registerName(name);
	} @finally {
		OFFreeMemory(name);
	}

	methodSignature = [self methodSignatureForSelector: selector];

    void *_Nullable bytes);
extern void *_Nullable objc_destructInstance(id _Nullable object);
# endif
#endif
extern id OFAllocObject(Class class_, size_t extraSize, size_t extraAlignment,
    void *_Nullable *_Nullable extra);
extern void OF_NO_RETURN_FUNC OFMethodNotFound(id self, SEL _cmd);
extern uint32_t OFHashSeed;

/**
 * @brief Returns 16 bit or non-cryptographical randomness.
 *
 * @return 16 bit or non-cryptographical randomness
 */
extern uint16_t OFRandom16(void);

    (OF_BIGGEST_ALIGNMENT - 1)) & ~(OF_BIGGEST_ALIGNMENT - 1))
#define PRE_IVARS ((struct pre_ivar *)(void *)((char *)self - PRE_IVARS_ALIGN))

static struct {
	Class isa;
} allocFailedException;

uint32_t OFHashSeed;
unsigned long OFHashSeed;

void *
OFAllocMemory(size_t count, size_t size)
{
	void *pointer;

	if OF_UNLIKELY (count == 0 || size == 0)

OFRandom16(void)
{
#if defined(HAVE_ARC4RANDOM)
	return arc4random();
#elif defined(HAVE_GETRANDOM)
	uint16_t buffer;

	OF_ENSURE(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));
	OFEnsure(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));

	return buffer;
#else
	static OFOnceControl onceControl = OFOnceControlInitValue;
	OFOnce(&onceControl, initRandom);
# ifdef HAVE_RANDOM
	return random() & 0xFFFF;

OFRandom32(void)
{
#if defined(HAVE_ARC4RANDOM)
	return arc4random();
#elif defined(HAVE_GETRANDOM)
	uint32_t buffer;

	OF_ENSURE(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));
	OFEnsure(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));

	return buffer;
#else
	return ((uint32_t)OFRandom16() << 16) | OFRandom16();
#endif
}

uint64_t
OFRandom64(void)
{
#if defined(HAVE_ARC4RANDOM_BUF)
	uint64_t buffer;

	arc4random_buf(&buffer, sizeof(buffer));

	return buffer;
#elif defined(HAVE_GETRANDOM)
	uint64_t buffer;

	OF_ENSURE(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));
	OFEnsure(getrandom(&buffer, sizeof(buffer), 0) == sizeof(buffer));

	return buffer;
#else
	return ((uint64_t)OFRandom32() << 32) | OFRandom32();
#endif
}

{
	return (object == self);
}

- (unsigned long)hash
{
	uintptr_t ptr = (uintptr_t)self;
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (size_t i = 0; i < sizeof(ptr); i++) {
		OF_HASH_ADD(hash, ptr & 0xFF);
		OFHashAdd(&hash, ptr & 0xFF);
		ptr >>= 8;
	}

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	/* Classes containing data should reimplement this! */

	Forbid();
# endif
	PRE_IVARS->retainCount++;
# ifndef OF_AMIGAOS_M68K
	Permit();
# endif
#else
	OF_ENSURE(OFSpinlockLock(&PRE_IVARS->retainCountSpinlock) == 0);
	OFEnsure(OFSpinlockLock(&PRE_IVARS->retainCountSpinlock) == 0);
	PRE_IVARS->retainCount++;
	OF_ENSURE(OFSpinlockUnlock(&PRE_IVARS->retainCountSpinlock) == 0);
	OFEnsure(OFSpinlockUnlock(&PRE_IVARS->retainCountSpinlock) == 0);
#endif

	return self;
}

- (unsigned int)retainCount
{

	Permit();

	if (retainCount == 0)
		[self dealloc];
#else
	int retainCount;

	OF_ENSURE(OFSpinlockLock(&PRE_IVARS->retainCountSpinlock) == 0);
	OFEnsure(OFSpinlockLock(&PRE_IVARS->retainCountSpinlock) == 0);
	retainCount = --PRE_IVARS->retainCount;
	OF_ENSURE(OFSpinlockUnlock(&PRE_IVARS->retainCountSpinlock) == 0);
	OFEnsure(OFSpinlockUnlock(&PRE_IVARS->retainCountSpinlock) == 0);

	if (retainCount == 0)
		[self dealloc];
#endif
}

- (instancetype)autorelease

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, [_firstObject hash]);
	OF_HASH_ADD_HASH(hash, [_secondObject hash]);
	OFHashAddHash(&hash, [_firstObject hash]);
	OFHashAddHash(&hash, [_secondObject hash]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];

		if (FDs[i].revents & POLLIN) {
			void *pool2;

			if (FDs[i].fd == _cancelFD[0]) {
				char buffer;

#ifdef OF_HAVE_PIPE
				OF_ENSURE(read(_cancelFD[0], &buffer, 1) == 1);
				OFEnsure(read(_cancelFD[0], &buffer, 1) == 1);
#else
				OF_ENSURE(recvfrom(_cancelFD[0], &buffer, 1,
				    0, NULL, NULL) == 1);
				OFEnsure(recvfrom(_cancelFD[0], &buffer, 1, 0,
				    NULL, NULL) == 1);
#endif
				FDs[i].revents = 0;

				continue;
			}

			pool2 = objc_autoreleasePoolPush();

};

static OF_INLINE void
byteSwapVectorIfBE(uint32_t *vector, uint_fast8_t length)
{
#ifdef OF_BIG_ENDIAN
	for (uint_fast8_t i = 0; i < length; i++)
		vector[i] = OF_BSWAP32(vector[i]);
		vector[i] = OFByteSwap32(vector[i]);
#endif
}

static void
processBlock(uint32_t *state, uint32_t *buffer)
{
	uint32_t new[5], new2[5];

#define LOOP_BODY(f, g, k, k2)					\
	{							\
		uint32_t tmp;					\
								\
		tmp = new[0] + f(new[1], new[2], new[3]) +	\
		    buffer[wordOrder[i]] + k;			\
		tmp = OF_ROL(tmp, rotateBits[i]) + new[4];	\
		tmp = OFRotateLeft(tmp, rotateBits[i]) + new[4];	\
								\
		new[0] = new[4];				\
		new[4] = new[3];				\
		new[3] = OF_ROL(new[2], 10);			\
		new[3] = OFRotateLeft(new[2], 10);			\
		new[2] = new[1];				\
		new[1] = tmp;					\
								\
		tmp = new2[0] + g(new2[1], new2[2], new2[3]) +	\
		    buffer[wordOrder2[i]] + k2;			\
		tmp = OF_ROL(tmp, rotateBits2[i]) + new2[4];	\
		tmp = OFRotateLeft(tmp, rotateBits2[i]) + new2[4];	\
								\
		new2[0] = new2[4];				\
		new2[4] = new2[3];				\
		new2[3] = OF_ROL(new2[2], 10);			\
		new2[3] = OFRotateLeft(new2[2], 10);			\
		new2[2] = new2[1];				\
		new2[1] = tmp;					\
	}

	for (; i < 16; i++)
		LOOP_BODY(F, J, 0x00000000, 0x50A28BE6)
	for (; i < 32; i++)

- (const unsigned char *)digest
{
	if (_calculated)
		return (const unsigned char *)_iVars->state;

	_iVars->buffer.bytes[_iVars->bufferLength] = 0x80;
	of_explicit_memset(_iVars->buffer.bytes + _iVars->bufferLength + 1, 0,
	OFZeroMemory(_iVars->buffer.bytes + _iVars->bufferLength + 1,
	    64 - _iVars->bufferLength - 1);

	if (_iVars->bufferLength >= 56) {
		processBlock(_iVars->state, _iVars->buffer.words);
		of_explicit_memset(_iVars->buffer.bytes, 0, 64);
		OFZeroMemory(_iVars->buffer.bytes, 64);
	}

	_iVars->buffer.words[14] =
	    OF_BSWAP32_IF_BE((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	    OFToLittleEndian32((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	_iVars->buffer.words[15] =
	    OF_BSWAP32_IF_BE((uint32_t)(_iVars->bits >> 32));
	    OFToLittleEndian32((uint32_t)(_iVars->bits >> 32));

	processBlock(_iVars->state, _iVars->buffer.words);
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	byteSwapVectorIfBE(_iVars->state, 5);
	_calculated = true;

	return (const unsigned char *)_iVars->state;
}

- (void)reset
{
	[self of_resetState];
	_iVars->bits = 0;
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	_iVars->bufferLength = 0;
	_calculated = false;
}
@end

- (void)dealloc
{
	if (_initialized) {
		int error = OFPlainRecursiveMutexFree(&_rmutex);

		if (error != 0) {
			OF_ENSURE(error == EBUSY);
			OFEnsure(error == EBUSY);

			@throw [OFStillLockedException exceptionWithLock: self];
		}
	}

	[_name release];

			return ((OFStreamSocketAsyncAcceptBlock)_block)(
			    acceptedSocket, exception);
		else if ([object isKindOfClass:
		    [OFSequencedPacketSocket class]])
			return ((OFSequencedPacketSocketAsyncAcceptBlock)
			    _block)(acceptedSocket, exception);
		else
			OF_ENSURE(0);
			OFEnsure(0);
	} else {
# endif
		if (![_delegate respondsToSelector:
		    @selector(socket:didAcceptSocket:exception:)])
			return false;

		return [_delegate socket: object

#define I(a, b, c, d) ((b) ^ (c) ^ (d))

static OF_INLINE void
byteSwapVectorIfLE(uint32_t *vector, uint_fast8_t length)
{
#ifndef OF_BIG_ENDIAN
	for (uint_fast8_t i = 0; i < length; i++)
		vector[i] = OF_BSWAP32(vector[i]);
		vector[i] = OFByteSwap32(vector[i]);
#endif
}

static void
processBlock(uint32_t *state, uint32_t *buffer)
{
	uint32_t new[5];
	uint_fast8_t i;

	new[0] = state[0];
	new[1] = state[1];
	new[2] = state[2];
	new[3] = state[3];
	new[4] = state[4];

	byteSwapVectorIfLE(buffer, 16);

	for (i = 16; i < 80; i++) {
		uint32_t tmp = buffer[i - 3] ^ buffer[i - 8] ^
		    buffer[i - 14] ^ buffer[i - 16];
		buffer[i] = OF_ROL(tmp, 1);
		buffer[i] = OFRotateLeft(tmp, 1);
	}

#define LOOP_BODY(f, k)							\
	{								\
		uint32_t tmp = OF_ROL(new[0], 5) +			\
		uint32_t tmp = OFRotateLeft(new[0], 5) +		\
		    f(new[0], new[1], new[2], new[3]) +			\
		    new[4] + k + buffer[i];				\
		new[4] = new[3];					\
		new[3] = new[2];					\
		new[2] = OF_ROL(new[1], 30);				\
		new[2] = OFRotateLeft(new[1], 30);			\
		new[1] = new[0];					\
		new[0] = tmp;						\
	}

	for (i = 0; i < 20; i++)
		LOOP_BODY(F, 0x5A827999)
	for (; i < 40; i++)

- (const unsigned char *)digest
{
	if (_calculated)
		return (const unsigned char *)_iVars->state;

	_iVars->buffer.bytes[_iVars->bufferLength] = 0x80;
	of_explicit_memset(_iVars->buffer.bytes + _iVars->bufferLength + 1, 0,
	OFZeroMemory(_iVars->buffer.bytes + _iVars->bufferLength + 1,
	    64 - _iVars->bufferLength - 1);

	if (_iVars->bufferLength >= 56) {
		processBlock(_iVars->state, _iVars->buffer.words);
		of_explicit_memset(_iVars->buffer.bytes, 0, 64);
		OFZeroMemory(_iVars->buffer.bytes, 64);
	}

	_iVars->buffer.words[14] =
	    OF_BSWAP32_IF_LE((uint32_t)(_iVars->bits >> 32));
	    OFToBigEndian32((uint32_t)(_iVars->bits >> 32));
	_iVars->buffer.words[15] =
	    OF_BSWAP32_IF_LE((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	    OFToBigEndian32((uint32_t)(_iVars->bits & 0xFFFFFFFF));

	processBlock(_iVars->state, _iVars->buffer.words);
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	byteSwapVectorIfLE(_iVars->state, 5);
	_calculated = true;

	return (const unsigned char *)_iVars->state;
}

- (void)reset
{
	[self of_resetState];
	_iVars->bits = 0;
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	_iVars->bufferLength = 0;
	_calculated = false;
}
@end

};

static OF_INLINE void
byteSwapVectorIfLE(uint32_t *vector, uint_fast8_t length)
{
#ifndef OF_BIG_ENDIAN
	for (uint_fast8_t i = 0; i < length; i++)
		vector[i] = OF_BSWAP32(vector[i]);
		vector[i] = OFByteSwap32(vector[i]);
#endif
}

static void
processBlock(uint32_t *state, uint32_t *buffer)
{
	uint32_t new[8];

	byteSwapVectorIfLE(buffer, 16);

	for (i = 16; i < 64; i++) {
		uint32_t tmp;

		tmp = buffer[i - 2];
		buffer[i] = (OF_ROR(tmp, 17) ^ OF_ROR(tmp, 19) ^ (tmp >> 10)) +
		    buffer[i - 7];
		buffer[i] = (OFRotateRight(tmp, 17) ^ OFRotateRight(tmp, 19) ^
		    (tmp >> 10)) + buffer[i - 7];
		tmp = buffer[i - 15];
		buffer[i] += (OF_ROR(tmp, 7) ^ OF_ROR(tmp, 18) ^ (tmp >> 3)) +
		    buffer[i - 16];
		buffer[i] += (OFRotateRight(tmp, 7) ^ OFRotateRight(tmp, 18) ^
		    (tmp >> 3)) + buffer[i - 16];
	}

	for (i = 0; i < 64; i++) {
		uint32_t tmp1 = new[7] + (OF_ROR(new[4], 6) ^
		    OF_ROR(new[4], 11) ^ OF_ROR(new[4], 25)) +
		uint32_t tmp1 = new[7] + (OFRotateRight(new[4], 6) ^
		    OFRotateRight(new[4], 11) ^ OFRotateRight(new[4], 25)) +
		    ((new[4] & (new[5] ^ new[6])) ^ new[6]) +
		    table[i] + buffer[i];
		uint32_t tmp2 = (OF_ROR(new[0], 2) ^ OF_ROR(new[0], 13) ^
		    OF_ROR(new[0], 22)) +
		uint32_t tmp2 = (OFRotateRight(new[0], 2) ^
		    OFRotateRight(new[0], 13) ^ OFRotateRight(new[0], 22)) +
		    ((new[0] & (new[1] | new[2])) | (new[1] & new[2]));

		new[7] = new[6];
		new[6] = new[5];
		new[5] = new[4];
		new[4] = new[3] + tmp1;
		new[3] = new[2];

- (const unsigned char *)digest
{
	if (_calculated)
		return (const unsigned char *)_iVars->state;

	_iVars->buffer.bytes[_iVars->bufferLength] = 0x80;
	of_explicit_memset(_iVars->buffer.bytes + _iVars->bufferLength + 1, 0,
	OFZeroMemory(_iVars->buffer.bytes + _iVars->bufferLength + 1,
	    64 - _iVars->bufferLength - 1);

	if (_iVars->bufferLength >= 56) {
		processBlock(_iVars->state, _iVars->buffer.words);
		of_explicit_memset(_iVars->buffer.bytes, 0, 64);
		OFZeroMemory(_iVars->buffer.bytes, 64);
	}

	_iVars->buffer.words[14] =
	    OF_BSWAP32_IF_LE((uint32_t)(_iVars->bits >> 32));
	    OFToBigEndian32((uint32_t)(_iVars->bits >> 32));
	_iVars->buffer.words[15] =
	    OF_BSWAP32_IF_LE((uint32_t)(_iVars->bits & 0xFFFFFFFF));
	    OFToBigEndian32((uint32_t)(_iVars->bits & 0xFFFFFFFF));

	processBlock(_iVars->state, _iVars->buffer.words);
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	byteSwapVectorIfLE(_iVars->state, 8);
	_calculated = true;

	return (const unsigned char *)_iVars->state;
}

- (void)reset
{
	[self of_resetState];
	_iVars->bits = 0;
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	_iVars->bufferLength = 0;
	_calculated = false;
}

- (void)of_resetState
{
	OF_UNRECOGNIZED_SELECTOR
}
@end

};

static OF_INLINE void
byteSwapVectorIfLE(uint64_t *vector, uint_fast8_t length)
{
#ifndef OF_BIG_ENDIAN
	for (uint_fast8_t i = 0; i < length; i++)
		vector[i] = OF_BSWAP64(vector[i]);
		vector[i] = OFByteSwap64(vector[i]);
#endif
}

static void
processBlock(uint64_t *state, uint64_t *buffer)
{
	uint64_t new[8];

	byteSwapVectorIfLE(buffer, 16);

	for (i = 16; i < 80; i++) {
		uint64_t tmp;

		tmp = buffer[i - 2];
		buffer[i] = (OF_ROR(tmp, 19) ^ OF_ROR(tmp, 61) ^ (tmp >> 6)) +
		    buffer[i - 7];
		buffer[i] = (OFRotateRight(tmp, 19) ^ OFRotateRight(tmp, 61) ^
		    (tmp >> 6)) + buffer[i - 7];
		tmp = buffer[i - 15];
		buffer[i] += (OF_ROR(tmp, 1) ^ OF_ROR(tmp, 8) ^ (tmp >> 7)) +
		    buffer[i - 16];
		buffer[i] += (OFRotateRight(tmp, 1) ^ OFRotateRight(tmp, 8) ^
		    (tmp >> 7)) + buffer[i - 16];
	}

	for (i = 0; i < 80; i++) {
		uint64_t tmp1 = new[7] + (OF_ROR(new[4], 14) ^
		    OF_ROR(new[4], 18) ^ OF_ROR(new[4], 41)) +
		uint64_t tmp1 = new[7] + (OFRotateRight(new[4], 14) ^
		    OFRotateRight(new[4], 18) ^ OFRotateRight(new[4], 41)) +
		    ((new[4] & (new[5] ^ new[6])) ^ new[6]) +
		    table[i] + buffer[i];
		uint64_t tmp2 = (OF_ROR(new[0], 28) ^ OF_ROR(new[0], 34) ^
		    OF_ROR(new[0], 39)) +
		uint64_t tmp2 = (OFRotateRight(new[0], 28) ^
		    OFRotateRight(new[0], 34) ^ OFRotateRight(new[0], 39)) +
		    ((new[0] & (new[1] | new[2])) | (new[1] & new[2]));

		new[7] = new[6];
		new[6] = new[5];
		new[5] = new[4];
		new[4] = new[3] + tmp1;
		new[3] = new[2];

- (const unsigned char *)digest
{
	if (_calculated)
		return (const unsigned char *)_iVars->state;

	_iVars->buffer.bytes[_iVars->bufferLength] = 0x80;
	of_explicit_memset(_iVars->buffer.bytes + _iVars->bufferLength + 1, 0,
	OFZeroMemory(_iVars->buffer.bytes + _iVars->bufferLength + 1,
	    128 - _iVars->bufferLength - 1);

	if (_iVars->bufferLength >= 112) {
		processBlock(_iVars->state, _iVars->buffer.words);
		of_explicit_memset(_iVars->buffer.bytes, 0, 128);
		OFZeroMemory(_iVars->buffer.bytes, 128);
	}

	_iVars->buffer.words[14] = OF_BSWAP64_IF_LE(_iVars->bits[1]);
	_iVars->buffer.words[15] = OF_BSWAP64_IF_LE(_iVars->bits[0]);
	_iVars->buffer.words[14] = OFToBigEndian64(_iVars->bits[1]);
	_iVars->buffer.words[15] = OFToBigEndian64(_iVars->bits[0]);

	processBlock(_iVars->state, _iVars->buffer.words);
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	byteSwapVectorIfLE(_iVars->state, 8);
	_calculated = true;

	return (const unsigned char *)_iVars->state;
}

- (void)reset
{
	[self of_resetState];
	of_explicit_memset(_iVars->bits, 0, sizeof(_iVars->bits));
	of_explicit_memset(&_iVars->buffer, 0, sizeof(_iVars->buffer));
	OFZeroMemory(_iVars->bits, sizeof(_iVars->bits));
	OFZeroMemory(&_iVars->buffer, sizeof(_iVars->buffer));
	_iVars->bufferLength = 0;
	_calculated = false;
}

- (void)of_resetState
{
	OF_UNRECOGNIZED_SELECTOR
}
@end

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD(hash, _allowsStdIO);
	OF_HASH_ADD(hash, _allowsReadingFiles);
	OF_HASH_ADD(hash, _allowsWritingFiles);
	OF_HASH_ADD(hash, _allowsCreatingFiles);
	OF_HASH_ADD(hash, _allowsCreatingSpecialFiles);
	OF_HASH_ADD(hash, _allowsTemporaryFiles);
	OF_HASH_ADD(hash, _allowsIPSockets);
	OF_HASH_ADD(hash, _allowsMulticastSockets);
	OF_HASH_ADD(hash, _allowsChangingFileAttributes);
	OF_HASH_ADD(hash, _allowsFileOwnerChanges);
	OF_HASH_ADD(hash, _allowsFileLocks);
	OF_HASH_ADD(hash, _allowsUNIXSockets);
	OF_HASH_ADD(hash, _allowsDNS);
	OF_HASH_ADD(hash, _allowsUserDatabaseReading);
	OF_HASH_ADD(hash, _allowsFileDescriptorSending);
	OF_HASH_ADD(hash, _allowsFileDescriptorReceiving);
	OF_HASH_ADD(hash, _allowsTape);
	OF_HASH_ADD(hash, _allowsTTY);
	OF_HASH_ADD(hash, _allowsProcessOperations);
	OF_HASH_ADD(hash, _allowsExec);
	OF_HASH_ADD(hash, _allowsProtExec);
	OF_HASH_ADD(hash, _allowsSetTime);
	OF_HASH_ADD(hash, _allowsPS);
	OF_HASH_ADD(hash, _allowsVMInfo);
	OF_HASH_ADD(hash, _allowsChangingProcessRights);
	OF_HASH_ADD(hash, _allowsPF);
	OF_HASH_ADD(hash, _allowsAudio);
	OF_HASH_ADD(hash, _allowsBPF);
	OF_HASH_ADD(hash, _allowsUnveil);
	OF_HASH_ADD(hash, _returnsErrors);
	OFHashAdd(&hash, _allowsStdIO);
	OFHashAdd(&hash, _allowsReadingFiles);
	OFHashAdd(&hash, _allowsWritingFiles);
	OFHashAdd(&hash, _allowsCreatingFiles);
	OFHashAdd(&hash, _allowsCreatingSpecialFiles);
	OFHashAdd(&hash, _allowsTemporaryFiles);
	OFHashAdd(&hash, _allowsIPSockets);
	OFHashAdd(&hash, _allowsMulticastSockets);
	OFHashAdd(&hash, _allowsChangingFileAttributes);
	OFHashAdd(&hash, _allowsFileOwnerChanges);
	OFHashAdd(&hash, _allowsFileLocks);
	OFHashAdd(&hash, _allowsUNIXSockets);
	OFHashAdd(&hash, _allowsDNS);
	OFHashAdd(&hash, _allowsUserDatabaseReading);
	OFHashAdd(&hash, _allowsFileDescriptorSending);
	OFHashAdd(&hash, _allowsFileDescriptorReceiving);
	OFHashAdd(&hash, _allowsTape);
	OFHashAdd(&hash, _allowsTTY);
	OFHashAdd(&hash, _allowsProcessOperations);
	OFHashAdd(&hash, _allowsExec);
	OFHashAdd(&hash, _allowsProtExec);
	OFHashAdd(&hash, _allowsSetTime);
	OFHashAdd(&hash, _allowsPS);
	OFHashAdd(&hash, _allowsVMInfo);
	OFHashAdd(&hash, _allowsChangingProcessRights);
	OFHashAdd(&hash, _allowsPF);
	OFHashAdd(&hash, _allowsAudio);
	OFHashAdd(&hash, _allowsBPF);
	OFHashAdd(&hash, _allowsUnveil);
	OFHashAdd(&hash, _returnsErrors);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

#ifdef OF_HAVE_PLEDGE
- (OFString *)pledgeString
{

	munmap(pointer, numPages * pageSize);
}

static struct page *
addPage(bool allowPreallocated)
{
	size_t pageSize = [OFSystemInfo pageSize];
	size_t mapSize = OF_ROUND_UP_POW2(CHAR_BIT, pageSize / CHUNK_SIZE) /
	size_t mapSize = OFRoundUpToPowerOf2(CHAR_BIT, pageSize / CHUNK_SIZE) /
	    CHAR_BIT;
	struct page *page;
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
	struct page *lastPage;
# endif

	if (allowPreallocated) {
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
		uintptr_t numPreallocatedPages =
		    (uintptr_t)OFTLSKeyGet(numPreallocatedPagesKey);
# endif

		if (numPreallocatedPages > 0) {
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
			struct page **preallocatedPages =
			    OFTLSKeyGet(preallocatedPagesKey);
# endif

			numPreallocatedPages--;
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
			OF_ENSURE(OFTLSKeySet(numPreallocatedPagesKey,
			OFEnsure(OFTLSKeySet(numPreallocatedPagesKey,
			    (void *)numPreallocatedPages) == 0);
# endif

			page = preallocatedPages[numPreallocatedPages];

			if (numPreallocatedPages == 0) {
				OFFreeMemory(preallocatedPages);
				preallocatedPages = NULL;
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
				OF_ENSURE(OFTLSKeySet(preallocatedPagesKey,
				OFEnsure(OFTLSKeySet(preallocatedPagesKey,
				    preallocatedPages) == 0);
# endif
			}

			return page;
		}
	}

	@try {
		page->page = mapPages(1);
	} @catch (id e) {
		OFFreeMemory(page->map);
		OFFreeMemory(page);
		@throw e;
	}
	of_explicit_memset(page->page, 0, pageSize);
	OFZeroMemory(page->page, pageSize);

# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
	lastPage = OFTLSKeyGet(lastPageKey);
# endif

	page->previous = lastPage;
	page->next = NULL;

	if (lastPage != NULL)
		lastPage->next = page;

# if defined(OF_HAVE_COMPILER_TLS) || !defined(OF_HAVE_THREADS)
	lastPage = page;

	if (firstPage == NULL)
		firstPage = page;
# else
	OF_ENSURE(OFTLSKeySet(lastPageKey, page) == 0);
	OFEnsure(OFTLSKeySet(lastPageKey, page) == 0);

	if (OFTLSKeyGet(firstPageKey) == NULL)
		OF_ENSURE(OFTLSKeySet(firstPageKey, page) == 0);
		OFEnsure(OFTLSKeySet(firstPageKey, page) == 0);
# endif

	return page;
}

static void
removePageIfEmpty(struct page *page)
{
	unsigned char *map = page->map;
	size_t pageSize = [OFSystemInfo pageSize];
	size_t mapSize = OF_ROUND_UP_POW2(CHAR_BIT, pageSize / CHUNK_SIZE) /
	size_t mapSize = OFRoundUpToPowerOf2(CHAR_BIT, pageSize / CHUNK_SIZE) /
	    CHAR_BIT;

	for (size_t i = 0; i < mapSize; i++)
		if (map[i] != 0)
			return;

	unmapPages(page->page, 1);

# if defined(OF_HAVE_COMPILER_TLS) || !defined(OF_HAVE_THREADS)
	if (firstPage == page)
		firstPage = page->next;
	if (lastPage == page)
		lastPage = page->previous;
# else
	if (OFTLSKeyGet(firstPageKey) == page)
		OF_ENSURE(OFTLSKeySet(firstPageKey, page->next) == 0);
		OFEnsure(OFTLSKeySet(firstPageKey, page->next) == 0);
	if (OFTLSKeyGet(lastPageKey) == page)
		OF_ENSURE(OFTLSKeySet(lastPageKey, page->previous) == 0);
		OFEnsure(OFTLSKeySet(lastPageKey, page->previous) == 0);
# endif

	OFFreeMemory(page);
}

static void *
allocateMemory(struct page *page, size_t bytes)
{
	size_t chunks, chunksLeft, pageSize, i, firstChunk;

	bytes = OF_ROUND_UP_POW2(CHUNK_SIZE, bytes);
	bytes = OFRoundUpToPowerOf2(CHUNK_SIZE, bytes);
	chunks = chunksLeft = bytes / CHUNK_SIZE;
	firstChunk = 0;
	pageSize = [OFSystemInfo pageSize];

	for (i = 0; i < pageSize / CHUNK_SIZE; i++) {
		if (of_bitset_isset(page->map, i)) {
		if (OFBitsetIsSet(page->map, i)) {
			chunksLeft = chunks;
			firstChunk = i + 1;
			continue;
		}

		if (--chunksLeft == 0)
			break;
	}

	if (chunksLeft == 0) {
		for (size_t j = firstChunk; j < firstChunk + chunks; j++)
			of_bitset_set(page->map, j);
			OFBitsetSet(page->map, j);

		return page->page + (CHUNK_SIZE * firstChunk);
	}

	return NULL;
}

static void
freeMemory(struct page *page, void *pointer, size_t bytes)
{
	size_t chunks, chunkIndex;

	bytes = OF_ROUND_UP_POW2(CHUNK_SIZE, bytes);
	bytes = OFRoundUpToPowerOf2(CHUNK_SIZE, bytes);
	chunks = bytes / CHUNK_SIZE;
	chunkIndex = ((uintptr_t)pointer - (uintptr_t)page->page) / CHUNK_SIZE;

	of_explicit_memset(pointer, 0, bytes);
	OFZeroMemory(pointer, bytes);

	for (size_t i = 0; i < chunks; i++)
		of_bitset_clear(page->map, chunkIndex + i);
		OFBitsetClear(page->map, chunkIndex + i);
}
#endif

@implementation OFSecureData
@synthesize allowsSwappableMemory = _allowsSwappableMemory;

#if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON) && \

}
#endif

+ (void)preallocateUnswappableMemoryWithSize: (size_t)size
{
#if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON)
	size_t pageSize = [OFSystemInfo pageSize];
	size_t numPages = OF_ROUND_UP_POW2(pageSize, size) / pageSize;
	size_t numPages = OFRoundUpToPowerOf2(pageSize, size) / pageSize;
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
	struct page **preallocatedPages = OFTLSKeyGet(preallocatedPagesKey);
	size_t numPreallocatedPages;
# endif
	size_t i;

	if (preallocatedPages != NULL)
		@throw [OFInvalidArgumentException exception];

	preallocatedPages = OFAllocZeroedMemory(numPages, sizeof(struct page));
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
	OF_ENSURE(OFTLSKeySet(preallocatedPagesKey, preallocatedPages) == 0);
	OFEnsure(OFTLSKeySet(preallocatedPagesKey, preallocatedPages) == 0);
# endif

	@try {
		for (i = 0; i < numPages; i++)
			preallocatedPages[i] = addPage(false);
	} @catch (id e) {
		for (size_t j = 0; j < i; j++)
			removePageIfEmpty(preallocatedPages[j]);

		OFFreeMemory(preallocatedPages);
		preallocatedPages = NULL;

		@throw e;
	}

	numPreallocatedPages = numPages;
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
	OF_ENSURE(OFTLSKeySet(numPreallocatedPagesKey,
	OFEnsure(OFTLSKeySet(numPreallocatedPagesKey,
	    (void *)(uintptr_t)numPreallocatedPages) == 0);
# endif
#else
	@throw [OFNotImplementedException exceptionWithSelector: _cmd
							 object: self];
#endif
}

		if (allowsSwappableMemory) {
			_items = OFAllocMemory(count, itemSize);
			_freeWhenDone = true;
			memset(_items, 0, count * itemSize);
#if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON)
		} else if (count * itemSize >= pageSize)
			_items = mapPages(OF_ROUND_UP_POW2(pageSize,
			_items = mapPages(OFRoundUpToPowerOf2(pageSize,
			    count * itemSize) / pageSize);
		else {
# if !defined(OF_HAVE_COMPILER_TLS) && defined(OF_HAVE_THREADS)
			struct page *lastPage = OFTLSKeyGet(lastPageKey);
# endif

			for (struct page *page = lastPage; page != NULL;

#if defined(HAVE_MMAP) && defined(HAVE_MLOCK) && defined(MAP_ANON)
	if (!_allowsSwappableMemory) {
		size_t pageSize = [OFSystemInfo pageSize];

		if (_count * _itemSize > pageSize)
			unmapPages(_items,
			    OF_ROUND_UP_POW2(pageSize, _count * _itemSize) /
			    OFRoundUpToPowerOf2(pageSize, _count * _itemSize) /
			    pageSize);
		else if (_page != NULL) {
			if (_items != NULL)
				freeMemory(_page, _items, _count * _itemSize);

			removePageIfEmpty(_page);
		}

		@throw [OFOutOfRangeException exception];

	return _items + idx * _itemSize;
}

- (void)zero
{
	of_explicit_memset(_items, 0, _count * _itemSize);
	OFZeroMemory(_items, _count * _itemSize);
}

- (id)copy
{
	OFSecureData *copy = [[OFSecureData alloc]
		    initWithCount: _count
			 itemSize: _itemSize

	    [_delegate respondsToSelector: @selector(execSignalWasReceived:)])
		[_delegate execSignalWasReceived: execSignalMask];
#else
	if (FD_ISSET(_cancelFD[0], &readFDs)) {
		char buffer;

# ifdef OF_HAVE_PIPE
		OF_ENSURE(read(_cancelFD[0], &buffer, 1) == 1);
		OFEnsure(read(_cancelFD[0], &buffer, 1) == 1);
# else
		OF_ENSURE(recvfrom(_cancelFD[0], (void *)&buffer, 1, 0, NULL,
		OFEnsure(recvfrom(_cancelFD[0], (void *)&buffer, 1, 0, NULL,
		    NULL) == 1);
# endif
	}
#endif

	pool = objc_autoreleasePoolPush();

	return ret;
}

- (uint16_t)readBigEndianInt16
{
	uint16_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 2];
	return OF_BSWAP16_IF_LE(ret);
	return OFFromBigEndian16(ret);
}

- (uint32_t)readBigEndianInt32
{
	uint32_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 4];
	return OF_BSWAP32_IF_LE(ret);
	return OFFromBigEndian32(ret);
}

- (uint64_t)readBigEndianInt64
{
	uint64_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 8];
	return OF_BSWAP64_IF_LE(ret);
	return OFFromBigEndian64(ret);
}

- (float)readBigEndianFloat
{
	float ret;
	[self readIntoBuffer: (char *)&ret exactLength: 4];
	return OF_BSWAP_FLOAT_IF_LE(ret);
	return OFFromBigEndianFloat(ret);
}

- (double)readBigEndianDouble
{
	double ret;
	[self readIntoBuffer: (char *)&ret exactLength: 8];
	return OF_BSWAP_DOUBLE_IF_LE(ret);
	return OFFromBigEndianDouble(ret);
}

- (size_t)readBigEndianInt16sIntoBuffer: (uint16_t *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint16_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint16_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifndef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP16(buffer[i]);
		buffer[i] = OFByteSwap16(buffer[i]);
#endif

	return size;
}

- (size_t)readBigEndianInt32sIntoBuffer: (uint32_t *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint32_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint32_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifndef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP32(buffer[i]);
		buffer[i] = OFByteSwap32(buffer[i]);
#endif

	return size;
}

- (size_t)readBigEndianInt64sIntoBuffer: (uint64_t *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint64_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint64_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifndef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP64(buffer[i]);
		buffer[i] = OFByteSwap64(buffer[i]);
#endif

	return size;
}

- (size_t)readBigEndianFloatsIntoBuffer: (float *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(float))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(float);

	[self readIntoBuffer: buffer exactLength: size];

#ifndef OF_FLOAT_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP_FLOAT(buffer[i]);
		buffer[i] = OFByteSwapFloat(buffer[i]);
#endif

	return size;
}

- (size_t)readBigEndianDoublesIntoBuffer: (double *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(double))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(double);

	[self readIntoBuffer: buffer exactLength: size];

#ifndef OF_FLOAT_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP_DOUBLE(buffer[i]);
		buffer[i] = OFByteSwapDouble(buffer[i]);
#endif

	return size;
}

- (uint16_t)readLittleEndianInt16
{
	uint16_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 2];
	return OF_BSWAP16_IF_BE(ret);
	return OFFromLittleEndian16(ret);
}

- (uint32_t)readLittleEndianInt32
{
	uint32_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 4];
	return OF_BSWAP32_IF_BE(ret);
	return OFFromLittleEndian32(ret);
}

- (uint64_t)readLittleEndianInt64
{
	uint64_t ret;
	[self readIntoBuffer: (char *)&ret exactLength: 8];
	return OF_BSWAP64_IF_BE(ret);
	return OFFromLittleEndian64(ret);
}

- (float)readLittleEndianFloat
{
	float ret;
	[self readIntoBuffer: (char *)&ret exactLength: 4];
	return OF_BSWAP_FLOAT_IF_BE(ret);
	return OFFromLittleEndianFloat(ret);
}

- (double)readLittleEndianDouble
{
	double ret;
	[self readIntoBuffer: (char *)&ret exactLength: 8];
	return OF_BSWAP_DOUBLE_IF_BE(ret);
	return OFFromLittleEndianDouble(ret);
}

- (size_t)readLittleEndianInt16sIntoBuffer: (uint16_t *)buffer
				     count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint16_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint16_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifdef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP16(buffer[i]);
		buffer[i] = OFByteSwap16(buffer[i]);
#endif

	return size;
}

- (size_t)readLittleEndianInt32sIntoBuffer: (uint32_t *)buffer
				     count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint32_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint32_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifdef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP32(buffer[i]);
		buffer[i] = OFByteSwap32(buffer[i]);
#endif

	return size;
}

- (size_t)readLittleEndianInt64sIntoBuffer: (uint64_t *)buffer
				     count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint64_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint64_t);

	[self readIntoBuffer: buffer exactLength: size];

#ifdef OF_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP64(buffer[i]);
		buffer[i] = OFByteSwap64(buffer[i]);
#endif

	return size;
}

- (size_t)readLittleEndianFloatsIntoBuffer: (float *)buffer
				     count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(float))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(float);

	[self readIntoBuffer: buffer exactLength: size];

#ifdef OF_FLOAT_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP_FLOAT(buffer[i]);
		buffer[i] = OFByteSwapFloat(buffer[i]);
#endif

	return size;
}

- (size_t)readLittleEndianDoublesIntoBuffer: (double *)buffer
				      count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(double))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(double);

	[self readIntoBuffer: buffer exactLength: size];

#ifdef OF_FLOAT_BIG_ENDIAN
	for (size_t i = 0; i < count; i++)
		buffer[i] = OF_BSWAP_DOUBLE(buffer[i]);
		buffer[i] = OFByteSwapDouble(buffer[i]);
#endif

	return size;
}

- (OFData *)readDataWithCount: (size_t)count
{

- (void)writeInt8: (uint8_t)int8
{
	[self writeBuffer: (char *)&int8 length: 1];
}

- (void)writeBigEndianInt16: (uint16_t)int16
{
	int16 = OF_BSWAP16_IF_LE(int16);
	int16 = OFToBigEndian16(int16);
	[self writeBuffer: (char *)&int16 length: 2];
}

- (void)writeBigEndianInt32: (uint32_t)int32
{
	int32 = OF_BSWAP32_IF_LE(int32);
	int32 = OFToBigEndian32(int32);
	[self writeBuffer: (char *)&int32 length: 4];
}

- (void)writeBigEndianInt64: (uint64_t)int64
{
	int64 = OF_BSWAP64_IF_LE(int64);
	int64 = OFToBigEndian64(int64);
	[self writeBuffer: (char *)&int64 length: 8];
}

- (void)writeBigEndianFloat: (float)float_
{
	float_ = OF_BSWAP_FLOAT_IF_LE(float_);
	float_ = OFToBigEndianFloat(float_);
	[self writeBuffer: (char *)&float_ length: 4];
}

- (void)writeBigEndianDouble: (double)double_
{
	double_ = OF_BSWAP_DOUBLE_IF_LE(double_);
	double_ = OFToBigEndianDouble(double_);
	[self writeBuffer: (char *)&double_ length: 8];
}

- (size_t)writeBigEndianInt16s: (const uint16_t *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint16_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint16_t);

#ifdef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint16_t *tmp = OFAllocMemory(count, sizeof(uint16_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP16(buffer[i]);
			tmp[i] = OFByteSwap16(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifdef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint32_t *tmp = OFAllocMemory(count, sizeof(uint32_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP32(buffer[i]);
			tmp[i] = OFByteSwap32(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifdef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint64_t *tmp = OFAllocMemory(count, sizeof(uint64_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP64(buffer[i]);
			tmp[i] = OFByteSwap64(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifdef OF_FLOAT_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	float *tmp = OFAllocMemory(count, sizeof(float));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP_FLOAT(buffer[i]);
			tmp[i] = OFByteSwapFloat(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifdef OF_FLOAT_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	double *tmp = OFAllocMemory(count, sizeof(double));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP_DOUBLE(buffer[i]);
			tmp[i] = OFByteSwapDouble(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

	return size;
}

- (void)writeLittleEndianInt16: (uint16_t)int16
{
	int16 = OF_BSWAP16_IF_BE(int16);
	int16 = OFToLittleEndian16(int16);
	[self writeBuffer: (char *)&int16 length: 2];
}

- (void)writeLittleEndianInt32: (uint32_t)int32
{
	int32 = OF_BSWAP32_IF_BE(int32);
	int32 = OFToLittleEndian32(int32);
	[self writeBuffer: (char *)&int32 length: 4];
}

- (void)writeLittleEndianInt64: (uint64_t)int64
{
	int64 = OF_BSWAP64_IF_BE(int64);
	int64 = OFToLittleEndian64(int64);
	[self writeBuffer: (char *)&int64 length: 8];
}

- (void)writeLittleEndianFloat: (float)float_
{
	float_ = OF_BSWAP_FLOAT_IF_BE(float_);
	float_ = OFToLittleEndianFloat(float_);
	[self writeBuffer: (char *)&float_ length: 4];
}

- (void)writeLittleEndianDouble: (double)double_
{
	double_ = OF_BSWAP_DOUBLE_IF_BE(double_);
	double_ = OFToLittleEndianDouble(double_);
	[self writeBuffer: (char *)&double_ length: 8];
}

- (size_t)writeLittleEndianInt16s: (const uint16_t *)buffer count: (size_t)count
{
	size_t size;

	if OF_UNLIKELY (count > SIZE_MAX / sizeof(uint16_t))
		@throw [OFOutOfRangeException exception];

	size = count * sizeof(uint16_t);

#ifndef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint16_t *tmp = OFAllocMemory(count, sizeof(uint16_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP16(buffer[i]);
			tmp[i] = OFByteSwap16(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifndef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint32_t *tmp = OFAllocMemory(count, sizeof(uint32_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP32(buffer[i]);
			tmp[i] = OFByteSwap32(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifndef OF_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	uint64_t *tmp = OFAllocMemory(count, sizeof(uint64_t));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP64(buffer[i]);
			tmp[i] = OFByteSwap64(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifndef OF_FLOAT_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	float *tmp = OFAllocMemory(count, sizeof(float));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP_FLOAT(buffer[i]);
			tmp[i] = OFByteSwapFloat(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

#ifndef OF_FLOAT_BIG_ENDIAN
	[self writeBuffer: buffer length: size];
#else
	double *tmp = OFAllocMemory(count, sizeof(double));

	@try {
		for (size_t i = 0; i < count; i++)
			tmp[i] = OF_BSWAP_DOUBLE(buffer[i]);
			tmp[i] = OFByteSwapDouble(buffer[i]);

		[self writeBuffer: tmp length: size];
	} @finally {
		OFFreeMemory(tmp);
	}
#endif

			OFUnichar tc =
			    of_unicode_casefolding_table[oc >> 8][oc & 0xFF];

			if (tc)
				oc = tc;
		}
#else
		c = of_ascii_toupper(c);
		oc = of_ascii_toupper(oc);
		c = OFASCIIToUpper(c);
		oc = OFASCIIToUpper(oc);
#endif

		if (c > oc) {
			objc_autoreleasePoolPop(pool);
			return OFOrderedDescending;
		}
		if (c < oc) {

	return OFOrderedSame;
}

- (unsigned long)hash
{
	const OFUnichar *characters = self.characters;
	size_t length = self.length;
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (size_t i = 0; i < length; i++) {
		const OFUnichar c = characters[i];

		OF_HASH_ADD(hash, (c & 0xFF0000) >> 16);
		OF_HASH_ADD(hash, (c & 0x00FF00) >> 8);
		OF_HASH_ADD(hash, c & 0x0000FF);
		OFHashAdd(&hash, (c & 0xFF0000) >> 16);
		OFHashAdd(&hash, (c & 0x00FF00) >> 8);
		OFHashAdd(&hash, c & 0x0000FF);
	}

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)description
{
	return [[self copy] autorelease];

	if (options & OFJSONRepresentationOptionJSON5) {
		[JSON replaceOccurrencesOfString: @"\n" withString: @"\\\n"];

		if (options & OFJSONRepresentationOptionIsIdentifier) {
			const char *cString = self.UTF8String;

			if ((!of_ascii_isalpha(cString[0]) &&
			if ((!OFASCIIIsAlpha(cString[0]) &&
			    cString[0] != '_' && cString[0] != '$') ||
			    strpbrk(cString, " \n\r\t\b\f\\\"'") != NULL) {
				[JSON prependString: @"\""];
				[JSON appendString: @"\""];
			}
		} else {
			[JSON prependString: @"\""];

		uint8_t tmp = (uint8_t)length;

		data = [OFMutableData dataWithCapacity: length + 2];
		[data addItem: &type];
		[data addItem: &tmp];
	} else if (length <= UINT16_MAX) {
		uint8_t type = 0xDA;
		uint16_t tmp = OF_BSWAP16_IF_LE((uint16_t)length);
		uint16_t tmp = OFToBigEndian16((uint16_t)length);

		data = [OFMutableData dataWithCapacity: length + 3];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else if (length <= UINT32_MAX) {
		uint8_t type = 0xDB;
		uint32_t tmp = OF_BSWAP32_IF_LE((uint32_t)length);
		uint32_t tmp = OFToBigEndian32((uint32_t)length);

		data = [OFMutableData dataWithCapacity: length + 5];
		[data addItem: &type];
		[data addItems: &tmp count: sizeof(tmp)];
	} else
		@throw [OFOutOfRangeException exception];

- (long long)longLongValueWithBase: (int)base
{
	void *pool = objc_autoreleasePoolPush();
	const char *UTF8String = self.UTF8String;
	bool negative = false;
	long long value = 0;

	while (of_ascii_isspace(*UTF8String))
	while (OFASCIIIsSpace(*UTF8String))
		UTF8String++;

	switch (*UTF8String) {
	case '-':
		negative = true;
	case '+':
		UTF8String++;

		}
	}

	if (base == 0)
		base = 10;

	while (*UTF8String != '\0') {
		unsigned char c = of_ascii_toupper(*UTF8String++);
		unsigned char c = OFASCIIToUpper(*UTF8String++);

		if (c >= '0' && c <= '9')
			c -= '0';
		else if (c >= 'A' && c <= 'Z')
			c -= ('A' - 10);
		else if (of_ascii_isspace(c)) {
		else if (OFASCIIIsSpace(c)) {
			while (*UTF8String != '\0')
				if (!of_ascii_isspace(*UTF8String++))
				if (!OFASCIIIsSpace(*UTF8String++))
					@throw [OFInvalidFormatException
					    exception];

			break;
		} else
			@throw [OFInvalidFormatException exception];

- (unsigned long long)unsignedLongLongValueWithBase: (int)base
{
	void *pool = objc_autoreleasePoolPush();
	const char *UTF8String = self.UTF8String;
	unsigned long long value = 0;

	while (of_ascii_isspace(*UTF8String))
	while (OFASCIIIsSpace(*UTF8String))
		UTF8String++;

	switch (*UTF8String) {
	case '-':
		@throw [OFInvalidFormatException exception];
	case '+':
		UTF8String++;

		}
	}

	if (base == 0)
		base = 10;

	while (*UTF8String != '\0') {
		unsigned char c = of_ascii_toupper(*UTF8String++);
		unsigned char c = OFASCIIToUpper(*UTF8String++);

		if (c >= '0' && c <= '9')
			c -= '0';
		else if (c >= 'A' && c <= 'Z')
			c -= ('A' - 10);
		else if (of_ascii_isspace(c)) {
		else if (OFASCIIIsSpace(c)) {
			while (*UTF8String != '\0')
				if (!of_ascii_isspace(*UTF8String++))
				if (!OFASCIIIsSpace(*UTF8String++))
					@throw [OFInvalidFormatException
					    exception];

			break;
		} else
			@throw [OFInvalidFormatException exception];

			OFFreeMemory(buffer);
			@throw [OFInvalidEncodingException exception];
		}

		if (swap) {
			if (c > 0xFFFF) {
				c -= 0x10000;
				buffer[j++] = OFByteSwap16(0xD800 | (c >> 10));
				buffer[j++] = OF_BSWAP16(0xD800 | (c >> 10));
				buffer[j++] = OF_BSWAP16(0xDC00 | (c & 0x3FF));
				buffer[j++] =
				    OFByteSwap16(0xDC00 | (c & 0x3FF));
			} else
				buffer[j++] = OF_BSWAP16(c);
				buffer[j++] = OFByteSwap16(c);
		} else {
			if (c > 0xFFFF) {
				c -= 0x10000;
				buffer[j++] = 0xD800 | (c >> 10);
				buffer[j++] = 0xDC00 | (c & 0x3FF);
			} else
				buffer[j++] = c;

	buffer = OFAllocMemory(length + 1, sizeof(OFChar32));
	@try {
		[self getCharacters: buffer inRange: OFRangeMake(0, length)];
		buffer[length] = 0;

		if (byteOrder != OFByteOrderNative)
			for (size_t i = 0; i < length; i++)
				buffer[i] = OF_BSWAP32(buffer[i]);
				buffer[i] = OFByteSwap32(buffer[i]);

		return [[OFData dataWithItemsNoCopy: buffer
					      count: length + 1
					   itemSize: sizeof(OFChar32)
				       freeWhenDone: true] items];
	} @catch (id e) {
		OFFreeMemory(buffer);

		@throw [OFBindFailedException exceptionWithHost: host
							   port: port
							 socket: self
							  errNo: errNo];
	}

	if (address.sockaddr.sockaddr.sa_family == AF_INET)
		return OF_BSWAP16_IF_LE(address.sockaddr.in.sin_port);
		return OFFromBigEndian16(address.sockaddr.in.sin_port);
# ifdef OF_HAVE_IPV6
	else if (address.sockaddr.sockaddr.sa_family == AF_INET6)
		return OF_BSWAP16_IF_LE(address.sockaddr.in6.sin6_port);
		return OFFromBigEndian16(address.sockaddr.in6.sin6_port);
# endif
	else {
		closesocket(_socket);
		_socket = INVALID_SOCKET;

		@throw [OFBindFailedException exceptionWithHost: host
							   port: port

+ (void)terminateWithObject: (id)object
{
	OFThread *thread = OFTLSKeyGet(threadSelfKey);

	if (thread == mainThread)
		@throw [OFInvalidArgumentException exception];

	OF_ENSURE(thread != nil);
	OFEnsure(thread != nil);

	thread->_returnValue = [object retain];
	longjmp(thread->_exitEnv, 1);

	OF_UNREACHABLE
}

	void *pool = objc_autoreleasePoolPush();
	id target = [[_target retain] autorelease];
	id object1 = [[_object1 retain] autorelease];
	id object2 = [[_object2 retain] autorelease];
	id object3 = [[_object3 retain] autorelease];
	id object4 = [[_object4 retain] autorelease];

	OF_ENSURE(_arguments <= 4);
	OFEnsure(_arguments <= 4);

	if (_repeats && _valid) {
		int64_t missedIntervals =
		    -_fireDate.timeIntervalSinceNow / _interval;
		OFTimeInterval newFireDate;
		OFRunLoop *runLoop;

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, [_firstObject hash]);
	OF_HASH_ADD_HASH(hash, [_secondObject hash]);
	OF_HASH_ADD_HASH(hash, [_thirdObject hash]);
	OFHashAddHash(&hash, [_firstObject hash]);
	OFHashAddHash(&hash, [_secondObject hash]);
	OFHashAddHash(&hash, [_thirdObject hash]);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [self retain];

		    exceptionWithHost: OFSocketAddressString(address)
				 port: OFSocketAddressPort(address)
			       socket: self
				errNo: errNo];
	}

	if (address->sockaddr.sockaddr.sa_family == AF_INET)
		return OF_BSWAP16_IF_LE(address->sockaddr.in.sin_port);
		return OFFromBigEndian16(address->sockaddr.in.sin_port);
# ifdef OF_HAVE_IPV6
	else if (address->sockaddr.sockaddr.sa_family == AF_INET6)
		return OF_BSWAP16_IF_LE(address->sockaddr.in6.sin6_port);
		return OFFromBigEndian16(address->sockaddr.in6.sin6_port);
# endif
	else {
		closesocket(_socket);
		_socket = INVALID_SOCKET;

		@throw [OFBindFailedException
		    exceptionWithHost: OFSocketAddressString(address)

bool
of_url_is_ipv6_host(OFString *host)
{
	const char *UTF8String = host.UTF8String;
	bool hasColon = false;

	while (*UTF8String != '\0') {
		if (!of_ascii_isdigit(*UTF8String) && *UTF8String != ':' &&
		if (!OFASCIIIsDigit(*UTF8String) && *UTF8String != ':' &&
		    (*UTF8String < 'a' || *UTF8String > 'f') &&
		    (*UTF8String < 'A' || *UTF8String > 'F'))
			return false;

		if (*UTF8String == ':')
			hasColon = true;

	return OF_RETAIN_COUNT_MAX;
}
@end

@implementation OFURLAllowedCharacterSet
- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '-':
	case '.':
	case '_':
	case '~':

	}
}
@end

@implementation OFURLSchemeAllowedCharacterSet
- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '+':
	case '-':
	case '.':
		return true;
	default:
		return false;
	}
}
@end

@implementation OFURLPathAllowedCharacterSet
- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '-':
	case '.':
	case '_':
	case '~':

	}
}
@end

@implementation OFURLQueryOrFragmentAllowedCharacterSet
- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '-':
	case '.':
	case '_':
	case '~':

	}
}
@end

@implementation OFURLQueryKeyValueAllowedCharacterSet
- (bool)characterIsMember: (OFUnichar)character
{
	if (character < CHAR_MAX && of_ascii_isalnum(character))
	if (character < CHAR_MAX && OFASCIIIsAlnum(character))
		return true;

	switch (character) {
	case '-':
	case '.':
	case '_':
	case '~':

	self = [super init];

	@try {
		void *pool = objc_autoreleasePoolPush();
		char *tmp, *tmp2;
		bool isIPv6Host = false;

		if ((UTF8String2 = of_strdup(string.UTF8String)) == NULL)
		if ((UTF8String2 = OFStrdup(string.UTF8String)) == NULL)
			@throw [OFOutOfMemoryException
			     exceptionWithRequestedSize:
			     string.UTF8StringLength];

		UTF8String = UTF8String2;

		if ((tmp = strchr(UTF8String, ':')) == NULL)
			@throw [OFInvalidFormatException exception];

		if (strncmp(tmp, "://", 3) != 0)
			@throw [OFInvalidFormatException exception];

		for (tmp2 = UTF8String; tmp2 < tmp; tmp2++)
			*tmp2 = of_ascii_tolower(*tmp2);
			*tmp2 = OFASCIIToLower(*tmp2);

		_URLEncodedScheme = [[OFString alloc]
		    initWithUTF8String: UTF8String
				length: tmp - UTF8String];

		of_url_verify_escaped(_URLEncodedScheme,
		    [OFCharacterSet URLSchemeAllowedCharacterSet]);

			UTF8String = tmp2;
		}

		if (UTF8String[0] == '[') {
			tmp2 = UTF8String++;

			while (of_ascii_isdigit(*UTF8String) ||
			while (OFASCIIIsDigit(*UTF8String) ||
			    *UTF8String == ':' ||
			    (*UTF8String >= 'a' && *UTF8String <= 'f') ||
			    (*UTF8String >= 'A' && *UTF8String <= 'F'))
				UTF8String++;

			if (*UTF8String != ']')
				@throw [OFInvalidFormatException exception];

			UTF8String++;

			_URLEncodedHost = [[OFString alloc]
			    initWithUTF8String: tmp2
					length: UTF8String - tmp2];

			if (*UTF8String == ':') {
				OFString *portString;

				tmp2 = ++UTF8String;

				while (*UTF8String != '\0') {
					if (!of_ascii_isdigit(*UTF8String))
					if (!OFASCIIIsDigit(*UTF8String))
						@throw [OFInvalidFormatException
						    exception];

					UTF8String++;
				}

				portString = [OFString

		_URLEncodedScheme = [URL->_URLEncodedScheme copy];
		_URLEncodedHost = [URL->_URLEncodedHost copy];
		_port = [URL->_port copy];
		_URLEncodedUser = [URL->_URLEncodedUser copy];
		_URLEncodedPassword = [URL->_URLEncodedPassword copy];

		if ((UTF8String2 = of_strdup(string.UTF8String)) == NULL)
		if ((UTF8String2 = OFStrdup(string.UTF8String)) == NULL)
			@throw [OFOutOfMemoryException
			     exceptionWithRequestedSize:
			     string.UTF8StringLength];

		UTF8String = UTF8String2;

		if ((tmp = strchr(UTF8String, '#')) != NULL) {

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _URLEncodedScheme.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedHost.hash);
	OF_HASH_ADD_HASH(hash, _port.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedUser.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedPassword.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedPath.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedQuery.hash);
	OF_HASH_ADD_HASH(hash, _URLEncodedFragment.hash);
	OFHashAddHash(&hash, _URLEncodedScheme.hash);
	OFHashAddHash(&hash, _URLEncodedHost.hash);
	OFHashAddHash(&hash, _port.hash);
	OFHashAddHash(&hash, _URLEncodedUser.hash);
	OFHashAddHash(&hash, _URLEncodedPassword.hash);
	OFHashAddHash(&hash, _URLEncodedPath.hash);
	OFHashAddHash(&hash, _URLEncodedQuery.hash);
	OFHashAddHash(&hash, _URLEncodedFragment.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)scheme
{
	return _URLEncodedScheme.stringByURLDecoding;

static inline int
memcasecmp(const char *first, const char *second, size_t length)
{
	for (size_t i = 0; i < length; i++) {
		unsigned char f = first[i];
		unsigned char s = second[i];

		f = of_ascii_toupper(f);
		s = of_ascii_toupper(s);
		f = OFASCIIToUpper(f);
		s = OFASCIIToUpper(s);

		if (f > s)
			return OFOrderedDescending;
		if (f < s)
			return OFOrderedAscending;
	}

		_s->cString = OFAllocMemory((length * 4) + 1, 1);
		_s->length = length;
		_s->freeWhenDone = true;

		j = 0;
		for (size_t i = 0; i < length; i++) {
			OFUnichar character =
			    (swap ? OF_BSWAP16(string[i]) : string[i]);
			    (swap ? OFByteSwap16(string[i]) : string[i]);
			size_t len;

			/* Missing high surrogate */
			if ((character & 0xFC00) == 0xDC00)
				@throw [OFInvalidEncodingException exception];

			if ((character & 0xFC00) == 0xD800) {
				OFChar16 nextCharacter;

				if (length <= i + 1)
					@throw [OFInvalidEncodingException
					    exception];

				nextCharacter = (swap
				    ? OF_BSWAP16(string[i + 1])
				    ? OFByteSwap16(string[i + 1])
				    : string[i + 1]);

				if ((nextCharacter & 0xFC00) != 0xDC00)
					@throw [OFInvalidEncodingException
					    exception];

				character = (((character & 0x3FF) << 10) |

		_s->cString = OFAllocMemory((length * 4) + 1, 1);
		_s->length = length;
		_s->freeWhenDone = true;

		j = 0;
		for (size_t i = 0; i < length; i++) {
			char buffer[4];
			size_t len = of_string_utf8_encode(
			    (swap ? OF_BSWAP32(characters[i]) : characters[i]),
			size_t len = of_string_utf8_encode((swap
			    ? OFByteSwap32(characters[i])
			    : characters[i]),
			    buffer);

			switch (len) {
			case 1:
				_s->cString[j++] = buffer[0];
				break;
			case 2:

#endif

	return OFOrderedSame;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	if (_s->hashed)
		return _s->hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	for (size_t i = 0; i < _s->cStringLength; i++) {
		OFUnichar c;
		ssize_t length;

		if ((length = of_string_utf8_decode(_s->cString + i,
		    _s->cStringLength - i, &c)) <= 0)
			@throw [OFInvalidEncodingException exception];

		OF_HASH_ADD(hash, (c & 0xFF0000) >> 16);
		OF_HASH_ADD(hash, (c & 0x00FF00) >> 8);
		OF_HASH_ADD(hash, c & 0x0000FF);
		OFHashAdd(&hash, (c & 0xFF0000) >> 16);
		OFHashAdd(&hash, (c & 0x00FF00) >> 8);
		OFHashAdd(&hash, c & 0x0000FF);

		i += length - 1;
	}

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	_s->hash = hash;
	_s->hashed = true;

	return hash;
}

		if (cLen <= 0 || c > 0x10FFFF) {
			OFFreeMemory(buffer);
			@throw [OFInvalidEncodingException exception];
		}

		if (byteOrder != OFByteOrderNative)
			buffer[j++] = OF_BSWAP32(c);
			buffer[j++] = OFByteSwap32(c);
		else
			buffer[j++] = c;

		i += cLen;
	}
	buffer[j] = 0;

	return ret;
}

- (unsigned long)hash
{
	size_t size = of_sizeof_type_encoding(self.objCType);
	unsigned char *value;
	uint32_t hash;
	unsigned long hash;

	value = OFAllocMemory(1, size);
	@try {
		[self getValue: value size: size];

		OF_HASH_INIT(hash);
		OFHashInit(&hash);

		for (size_t i = 0; i < size; i++)
			OF_HASH_ADD(hash, value[i]);
			OFHashAdd(&hash, value[i]);

		OF_HASH_FINALIZE(hash);
		OFHashFinalize(&hash);
	} @finally {
		OFFreeMemory(value);
	}

	return hash;
}

		ssize_t UTF8Len;
		size_t toCopy;
		DWORD UTF16Len, bytesWritten;

		UTF8Len = -of_string_utf8_decode(
		    _incompleteUTF8Surrogate, _incompleteUTF8SurrogateLen, &c);

		OF_ENSURE(UTF8Len > 0);
		OFEnsure(UTF8Len > 0);

		toCopy = UTF8Len - _incompleteUTF8SurrogateLen;
		if (toCopy > length)
			toCopy = length;

		memcpy(_incompleteUTF8Surrogate + _incompleteUTF8SurrogateLen,
		    buffer, toCopy);

			OFUnichar c;
			ssize_t UTF8Len;

			UTF8Len = of_string_utf8_decode(buffer + i, length - i,
			    &c);

			if (UTF8Len < 0 && UTF8Len >= -4) {
				OF_ENSURE(length - i < 4);
				OFEnsure(length - i < 4);

				memcpy(_incompleteUTF8Surrogate, buffer + i,
				    length - i);
				_incompleteUTF8SurrogateLen = length - i;

				break;
			}

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD_HASH(hash, _namespace.hash);
	OF_HASH_ADD_HASH(hash, _stringValue.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAddHash(&hash, _namespace.hash);
	OFHashAddHash(&hash, _stringValue.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFXMLElement *)XMLElementBySerializing
{
	void *pool = objc_autoreleasePoolPush();

		return false;

	return true;
}

- (unsigned long)hash
{
	uint32_t hash;
	unsigned long hash;

	OF_HASH_INIT(hash);
	OFHashInit(&hash);

	OF_HASH_ADD_HASH(hash, _name.hash);
	OF_HASH_ADD_HASH(hash, _namespace.hash);
	OF_HASH_ADD_HASH(hash, _defaultNamespace.hash);
	OF_HASH_ADD_HASH(hash, _attributes.hash);
	OF_HASH_ADD_HASH(hash, _namespaces.hash);
	OF_HASH_ADD_HASH(hash, _children.hash);
	OFHashAddHash(&hash, _name.hash);
	OFHashAddHash(&hash, _namespace.hash);
	OFHashAddHash(&hash, _defaultNamespace.hash);
	OFHashAddHash(&hash, _attributes.hash);
	OFHashAddHash(&hash, _namespaces.hash);
	OFHashAddHash(&hash, _children.hash);

	OF_HASH_FINALIZE(hash);
	OFHashFinalize(&hash);

	return hash;
}

- (id)copy
{
	return [[[self class] alloc] initWithElement: self];
}
@end

	return true;
}

- (unsigned long)hash
{
	unsigned long hash;

	OF_HASH_INIT(hash);
	OF_HASH_ADD_HASH(hash, _target.hash);
	OF_HASH_ADD_HASH(hash, _data.hash);
	OF_HASH_FINALIZE(hash);
	OFHashInit(&hash);
	OFHashAddHash(&hash, _target.hash);
	OFHashAddHash(&hash, _data.hash);
	OFHashFinalize(&hash);

	return hash;
}

- (OFString *)stringValue
{
	return @"";

#endif

#if !defined(HAVE_STRERROR_R) && defined(OF_HAVE_THREADS)
static OFPlainMutex mutex;

OF_CONSTRUCTOR()
{
	OF_ENSURE(OFPlainMutexNew(&mutex) == 0);
	OFEnsure(OFPlainMutexNew(&mutex) == 0);
}

OF_DESTRUCTOR()
{
	OFPlainMutexFree(&mutex);
}
#endif

#  endif
# endif
#endif

#define OF_RETAIN_COUNT_MAX UINT_MAX

#ifdef OBJC_COMPILING_RUNTIME
# define OF_ENSURE(cond)						\
# define OFEnsure(cond)							\
	do {								\
		if OF_UNLIKELY (!(cond))				\
			objc_error("ObjFWRT @ " __FILE__ ":"		\
			    OF_STRINGIFY(__LINE__),			\
			    "Failed to ensure condition:\n" #cond);	\
	} while(0)
#else
# define OF_ENSURE(cond)						\
# define OFEnsure(cond)							\
	do {								\
		if OF_UNLIKELY (!(cond)) {				\
			fprintf(stderr, "Failed to ensure condition "	\
			    "in " __FILE__ ":%d:\n" #cond "\n",		\
			    __LINE__);					\
			abort();					\
		}							\

	static void __attribute__((__constructor__(prio)))	\
	OF_PREPROCESSOR_CONCAT(constructor, __LINE__)(void)
#define OF_DESTRUCTOR(prio)					\
	static void __attribute__((__destructor__(prio)))	\
	OF_PREPROCESSOR_CONCAT(destructor, __LINE__)(void)

static OF_INLINE uint16_t OF_CONST_FUNC
OF_BSWAP16_CONST(uint16_t i)
OFByteSwap16Const(uint16_t i)
{
	return (i & 0xFF00) >> 8 | (i & 0x00FF) << 8;
}

static OF_INLINE uint32_t OF_CONST_FUNC
OF_BSWAP32_CONST(uint32_t i)
OFByteSwap32Const(uint32_t i)
{
	return (i & 0xFF000000) >> 24 | (i & 0x00FF0000) >> 8 |
	    (i & 0x0000FF00) << 8 | (i & 0x000000FF) << 24;
}

static OF_INLINE uint64_t OF_CONST_FUNC
OF_BSWAP64_CONST(uint64_t i)
OFByteSwap64Const(uint64_t i)
{
	return (i & 0xFF00000000000000) >> 56 | (i & 0x00FF000000000000) >> 40 |
	    (i & 0x0000FF0000000000) >> 24 | (i & 0x000000FF00000000) >> 8 |
	    (i & 0x00000000FF000000) << 8 | (i & 0x0000000000FF0000) << 24 |
	    (i & 0x000000000000FF00) << 40 | (i & 0x00000000000000FF) << 56;
}

static OF_INLINE uint16_t OF_CONST_FUNC
OF_BSWAP16_NONCONST(uint16_t i)
OFByteSwap16NonConst(uint16_t i)
{
#if defined(OF_HAVE_BUILTIN_BSWAP16)
	return __builtin_bswap16(i);
#elif (defined(OF_X86_64) || defined(OF_X86)) && defined(__GNUC__)
	__asm__ (
	    "xchgb	%h0, %b0"
	    : "=Q"(i)

	i = (i & UINT16_C(0xFF00)) >> 8 |
	    (i & UINT16_C(0x00FF)) << 8;
#endif
	return i;
}

static OF_INLINE uint32_t OF_CONST_FUNC
OF_BSWAP32_NONCONST(uint32_t i)
OFByteSwap32NonConst(uint32_t i)
{
#if defined(OF_HAVE_BUILTIN_BSWAP32)
	return __builtin_bswap32(i);
#elif (defined(OF_X86_64) || defined(OF_X86)) && defined(__GNUC__)
	__asm__ (
	    "bswap	%0"
	    : "=q"(i)

	    (i & UINT32_C(0x0000FF00)) <<  8 |
	    (i & UINT32_C(0x000000FF)) << 24;
#endif
	return i;
}

static OF_INLINE uint64_t OF_CONST_FUNC
OF_BSWAP64_NONCONST(uint64_t i)
OFByteSwap64NonConst(uint64_t i)
{
#if defined(OF_HAVE_BUILTIN_BSWAP64)
	return __builtin_bswap64(i);
#elif defined(OF_X86_64) && defined(__GNUC__)
	__asm__ (
	    "bswap	%0"
	    : "=r"(i)
	    : "0"(i)
	);
#elif defined(OF_X86) && defined(__GNUC__)
	__asm__ (
	    "bswap	%%eax\n\t"
	    "bswap	%%edx\n\t"
	    "xchgl	%%eax, %%edx"
	    : "=A"(i)
	    : "0"(i)
	);
#else
	i = (uint64_t)OF_BSWAP32_NONCONST((uint32_t)(i & 0xFFFFFFFF)) << 32 |
	    OF_BSWAP32_NONCONST((uint32_t)(i >> 32));
	i = (uint64_t)OFByteSwap32NonConst((uint32_t)(i & 0xFFFFFFFF)) << 32 |
	    OFByteSwap32NonConst((uint32_t)(i >> 32));
#endif
	return i;
}

#ifdef __GNUC__
# define OF_BSWAP16(i) \
    (__builtin_constant_p(i) ? OF_BSWAP16_CONST(i) : OF_BSWAP16_NONCONST(i))
# define OF_BSWAP32(i) \
    (__builtin_constant_p(i) ? OF_BSWAP32_CONST(i) : OF_BSWAP32_NONCONST(i))
# define OF_BSWAP64(i) \
    (__builtin_constant_p(i) ? OF_BSWAP64_CONST(i) : OF_BSWAP64_NONCONST(i))
# define OFByteSwap16(i) \
    (__builtin_constant_p(i) ? OFByteSwap16Const(i) : OFByteSwap16NonConst(i))
# define OFByteSwap32(i) \
    (__builtin_constant_p(i) ? OFByteSwap32Const(i) : OFByteSwap32NonConst(i))
# define OFByteSwap64(i) \
    (__builtin_constant_p(i) ? OFByteSwap64Const(i) : OFByteSwap64NonConst(i))
#else
# define OF_BSWAP16(i) OF_BSWAP16_CONST(i)
# define OF_BSWAP32(i) OF_BSWAP32_CONST(i)
# define OF_BSWAP64(i) OF_BSWAP64_CONST(i)
# define OFByteSwap16(i) OFByteSwap16Const(i)
# define OFByteSwap32(i) OFByteSwap32Const(i)
# define OFByteSwap64(i) OFByteSwap64Const(i)
#endif

static OF_INLINE uint32_t
OF_FLOAT_TO_INT_RAW(float f)
OFFloatToRawUInt32(float f)
{
	uint32_t ret;
	memcpy(&ret, &f, 4);
	return ret;
}

static OF_INLINE float
OF_INT_TO_FLOAT_RAW(uint32_t uInt32)
OFRawUInt32ToFloat(uint32_t uInt32)
{
	float ret;
	memcpy(&ret, &uInt32, 4);
	return ret;
}

static OF_INLINE uint64_t
OF_DOUBLE_TO_INT_RAW(double d)
OFDoubleToRawUInt64(double d)
{
	uint64_t ret;
	memcpy(&ret, &d, 8);
	return ret;
}

static OF_INLINE double
OF_INT_TO_DOUBLE_RAW(uint64_t uInt64)
OFRawUInt64ToDouble(uint64_t uInt64)
{
	double ret;
	memcpy(&ret, &uInt64, 8);
	return ret;
}

static OF_INLINE float OF_CONST_FUNC
OF_BSWAP_FLOAT(float f)
OFByteSwapFloat(float f)
{
	return OF_INT_TO_FLOAT_RAW(OF_BSWAP32(OF_FLOAT_TO_INT_RAW(f)));
	return OFRawUInt32ToFloat(OFByteSwap32(OFFloatToRawUInt32(f)));
}

static OF_INLINE double OF_CONST_FUNC
OF_BSWAP_DOUBLE(double d)
OFByteSwapDouble(double d)
{
	return OF_INT_TO_DOUBLE_RAW(OF_BSWAP64(OF_DOUBLE_TO_INT_RAW(d)));
	return OFRawUInt64ToDouble(OFByteSwap64(OFDoubleToRawUInt64(d)));
}

#ifdef OF_BIG_ENDIAN
# define OF_BSWAP16_IF_BE(i) OF_BSWAP16(i)
# define OF_BSWAP32_IF_BE(i) OF_BSWAP32(i)
# define OF_BSWAP64_IF_BE(i) OF_BSWAP64(i)
# define OF_BSWAP16_IF_LE(i) (i)
# define OF_BSWAP32_IF_LE(i) (i)
# define OF_BSWAP64_IF_LE(i) (i)
# define OFFromBigEndian16(i) (i)
# define OFFromBigEndian32(i) (i)
# define OFFromBigEndian64(i) (i)
# define OFFromLittleEndian16(i) OFByteSwap16(i)
# define OFFromLittleEndian32(i) OFByteSwap32(i)
# define OFFromLittleEndian64(i) OFByteSwap64(i)
# define OFToBigEndian16(i) (i)
# define OFToBigEndian32(i) (i)
# define OFToBigEndian64(i) (i)
# define OFToLittleEndian16(i) OFByteSwap16(i)
# define OFToLittleEndian32(i) OFByteSwap32(i)
# define OFToLittleEndian64(i) OFByteSwap64(i)
#else
# define OFFromBigEndian16(i) OFByteSwap16(i)
# define OFFromBigEndian32(i) OFByteSwap32(i)
# define OFFromBigEndian64(i) OFByteSwap64(i)
# define OF_BSWAP16_IF_BE(i) (i)
# define OF_BSWAP32_IF_BE(i) (i)
# define OF_BSWAP64_IF_BE(i) (i)
# define OF_BSWAP16_IF_LE(i) OF_BSWAP16(i)
# define OF_BSWAP32_IF_LE(i) OF_BSWAP32(i)
# define OF_BSWAP64_IF_LE(i) OF_BSWAP64(i)
# define OFFromLittleEndian16(i) (i)
# define OFFromLittleEndian32(i) (i)
# define OFFromLittleEndian64(i) (i)
# define OFToBigEndian16(i) OFByteSwap16(i)
# define OFToBigEndian32(i) OFByteSwap32(i)
# define OFToBigEndian64(i) OFByteSwap64(i)
# define OFToLittleEndian16(i) (i)
# define OFToLittleEndian32(i) (i)
# define OFToLittleEndian64(i) (i)
#endif

#ifdef OF_FLOAT_BIG_ENDIAN
# define OF_BSWAP_FLOAT_IF_BE(i) OF_BSWAP_FLOAT(i)
# define OF_BSWAP_DOUBLE_IF_BE(i) OF_BSWAP_DOUBLE(i)
# define OF_BSWAP_FLOAT_IF_LE(i) (i)
# define OF_BSWAP_DOUBLE_IF_LE(i) (i)
# define OFFromBigEndianFloat(f) (f)
# define OFFromBigEndianDouble(d) (d)
# define OFFromLittleEndianFloat(f) OFByteSwapFloat(f)
# define OFFromLittleEndianDouble(i) OFByteSwapDouble(d)
# define OFToBigEndianFloat(f) (f)
# define OFToBigEndianDouble(d) (d)
# define OFToLittleEndianFloat(f) OFByteSwapFloat(f)
# define OFToLittleEndianDouble(i) OFByteSwapDouble(d)
#else
# define OFFromBigEndianFloat(f) OFByteSwapFloat(f)
# define OFFromBigEndianDouble(d) OFByteSwapDouble(d)
# define OF_BSWAP_FLOAT_IF_BE(i) (i)
# define OF_BSWAP_DOUBLE_IF_BE(i) (i)
# define OF_BSWAP_FLOAT_IF_LE(i) OF_BSWAP_FLOAT(i)
# define OF_BSWAP_DOUBLE_IF_LE(i) OF_BSWAP_DOUBLE(i)
# define OFFromLittleEndianFloat(f) (f)
# define OFFromLittleEndianDouble(d) (d)
# define OFToBigEndianFloat(f) OFByteSwapFloat(f)
# define OFToBigEndianDouble(d) OFByteSwapDouble(d)
# define OFToLittleEndianFloat(f) (f)
# define OFToLittleEndianDouble(d) (d)
#endif

static OF_INLINE uint16_t
of_be16_ptr_read(void *_Nonnull ptr)
{
	uint16_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP16_IF_LE(value);
}

static OF_INLINE uint32_t
of_be32_ptr_read(void *_Nonnull ptr)
{
	uint32_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP32_IF_LE(value);
}

static OF_INLINE uint64_t
of_be64_ptr_read(void *_Nonnull ptr)
{
	uint64_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP64_IF_LE(value);
}

static OF_INLINE float
of_be_float_ptr_read(void *_Nonnull ptr)
{
	float value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP_FLOAT_IF_LE(value);
}

static OF_INLINE double
of_be_double_ptr_read(void *_Nonnull ptr)
{
	double value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP_DOUBLE_IF_LE(value);
}

static OF_INLINE uint16_t
of_le16_ptr_read(void *_Nonnull ptr)
{
	uint16_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP16_IF_BE(value);
}

static OF_INLINE uint32_t
of_le32_ptr_read(void *_Nonnull ptr)
{
	uint32_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP32_IF_BE(value);
}

static OF_INLINE uint64_t
of_le64_ptr_read(void *_Nonnull ptr)
{
	uint64_t value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP64_IF_BE(value);
}

static OF_INLINE float
of_le_float_ptr_read(void *_Nonnull ptr)
{
	float value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP_FLOAT_IF_BE(value);
}

static OF_INLINE double
of_le_double_ptr_read(void *_Nonnull ptr)
{
	double value;
	memcpy(&value, ptr, sizeof(value));
	return OF_BSWAP_DOUBLE_IF_BE(value);
}

static OF_INLINE void
of_be16_ptr_write(void *_Nonnull ptr, uint16_t value)
{
	value = OF_BSWAP16_IF_LE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_be32_ptr_write(void *_Nonnull ptr, uint32_t value)
{
	value = OF_BSWAP32_IF_LE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_be64_ptr_write(void *_Nonnull ptr, uint64_t value)
{
	value = OF_BSWAP64_IF_LE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_be_float_ptr_write(void *_Nonnull ptr, float value)
{
	value = OF_BSWAP_FLOAT_IF_LE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_be_double_ptr_write(void *_Nonnull ptr, double value)
{
	value = OF_BSWAP_DOUBLE_IF_LE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_le16_ptr_write(void *_Nonnull ptr, uint16_t value)
{
	value = OF_BSWAP16_IF_BE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_le32_ptr_write(void *_Nonnull ptr, uint32_t value)
{
	value = OF_BSWAP32_IF_BE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_le64_ptr_write(void *_Nonnull ptr, uint64_t value)
{
	value = OF_BSWAP64_IF_BE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_le_float_ptr_write(void *_Nonnull ptr, float value)
{
	value = OF_BSWAP_FLOAT_IF_BE(value);
	memcpy(ptr, &value, sizeof(value));
}

static OF_INLINE void
of_le_double_ptr_write(void *_Nonnull ptr, double value)
{
	value = OF_BSWAP_DOUBLE_IF_BE(value);
	memcpy(ptr, &value, sizeof(value));
}

#define OF_ROL(value, bits)						\
#define OFRotateLeft(value, bits)					\
    (((bits) % (sizeof(value) * 8)) > 0					\
    ? ((value) << ((bits) % (sizeof(value) * 8))) |			\
    ((value) >> (sizeof(value) * 8 - ((bits) % (sizeof(value) * 8))))	\
    : (value))
#define OF_ROR(value, bits)						\
#define OFRotateRight(value, bits)					\
    (((bits) % (sizeof(value) * 8)) > 0					\
    ? ((value) >> ((bits) % (sizeof(value) * 8))) |			\
    ((value) << (sizeof(value) * 8 - ((bits) % (sizeof(value) * 8))))	\
    : (value))

#define OFRoundUpToPowerOf2(pow2, value)	\
#define OF_ROUND_UP_POW2(pow2, value) (((value) + (pow2) - 1) & ~((pow2) - 1))
    (((value) + (pow2) - 1) & ~((pow2) - 1))

extern unsigned long OFHashSeed;

static OF_INLINE void
OFHashInit(unsigned long *_Nonnull hash)
{
#define OF_HASH_INIT(hash) hash = OFHashSeed;
#define OF_HASH_ADD(hash, byte)			\
	{					\
		hash += (uint8_t)(byte);	\
		hash += (hash << 10);		\
		hash ^= (hash >> 6);		\
	}
#define OF_HASH_FINALIZE(hash)		\
	{				\
		hash += (hash << 3);	\
		hash ^= (hash >> 11);	\
		hash += (hash << 15);	\
	*hash = OFHashSeed;
}

static OF_INLINE void
OFHashAdd(unsigned long *_Nonnull hash, unsigned char byte)
{
	uint32_t tmp = (uint32_t)*hash;

	tmp += byte;
	tmp += tmp << 10;
	tmp ^= tmp >> 6;

	*hash = tmp;
}

static OF_INLINE void
OFHashAddHash(unsigned long *_Nonnull hash, unsigned long otherHash)
{
	OFHashAdd(hash, (otherHash >> 24) & 0xFF);
	OFHashAdd(hash, (otherHash >> 16) & 0xFF);
	OFHashAdd(hash, (otherHash >>  8) & 0xFF);
	OFHashAdd(hash, otherHash & 0xFF);
	}
#define OF_HASH_ADD_HASH(hash, other)				\

	{							\
		uint32_t otherCopy = (uint32_t)other;		\
		OF_HASH_ADD(hash, (otherCopy >> 24) & 0xFF);	\
		OF_HASH_ADD(hash, (otherCopy >> 16) & 0xFF);	\
		OF_HASH_ADD(hash, (otherCopy >>  8) & 0xFF);	\
		OF_HASH_ADD(hash, otherCopy & 0xFF);		\
static OF_INLINE void
OFHashFinalize(unsigned long *_Nonnull hash)
{
	uint32_t tmp = (uint32_t)*hash;

	tmp += tmp << 3;
	tmp ^= tmp >> 11;
	tmp += tmp << 15;

	*hash = tmp;
	}

static OF_INLINE bool
of_bitset_isset(unsigned char *_Nonnull storage, size_t idx)
OFBitsetIsSet(unsigned char *_Nonnull storage, size_t idx)
{
	return storage[idx / CHAR_BIT] & (1u << (idx % CHAR_BIT));
}

static OF_INLINE void
of_bitset_set(unsigned char *_Nonnull storage, size_t idx)
OFBitsetSet(unsigned char *_Nonnull storage, size_t idx)
{
	storage[idx / CHAR_BIT] |= (1u << (idx % CHAR_BIT));
}

static OF_INLINE void
of_bitset_clear(unsigned char *_Nonnull storage, size_t idx)
OFBitsetClear(unsigned char *_Nonnull storage, size_t idx)
{
	storage[idx / CHAR_BIT] &= ~(1u << (idx % CHAR_BIT));
}

static OF_INLINE char *_Nullable
of_strdup(const char *_Nonnull string)
OFStrdup(const char *_Nonnull string)
{
	char *copy;
	size_t length = strlen(string);

	if ((copy = (char *)malloc(length + 1)) == NULL)
		return NULL;

	memcpy(copy, string, length + 1);

	return copy;
}

static OF_INLINE void
of_explicit_memset(void *_Nonnull buffer_, int character, size_t length)
OFZeroMemory(void *_Nonnull buffer_, size_t length)
{
	volatile unsigned char *buffer = (volatile unsigned char *)buffer_;

	while (buffer < (unsigned char *)buffer_ + length)
		*buffer++ = character;
		*buffer++ = '\0';
}

static OF_INLINE bool
of_ascii_isalpha(char c)
OFASCIIIsAlpha(char c)
{
	return ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z'));
}

static OF_INLINE bool
of_ascii_isdigit(char c)
OFASCIIIsDigit(char c)
{
	return (c >= '0' && c <= '9');
}

static OF_INLINE bool
of_ascii_isalnum(char c)
OFASCIIIsAlnum(char c)
{
	return (of_ascii_isalpha(c) || of_ascii_isdigit(c));
	return (OFASCIIIsAlpha(c) || OFASCIIIsDigit(c));
}

static OF_INLINE bool
of_ascii_isspace(char c)
OFASCIIIsSpace(char c)
{
	return (c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '\f' ||
	    c == '\v');
}

static OF_INLINE char
of_ascii_toupper(char c)
OFASCIIToUpper(char c)
{
	return (c >= 'a' && c <= 'z' ? 'A' + (c - 'a') : c);
}

static OF_INLINE char
of_ascii_tolower(char c)
OFASCIIToLower(char c)
{
	return (c >= 'A' && c <= 'Z' ? 'a' + (c - 'A') : c);
}
#endif