""" Autogenerated python message buffer code. Source: clad/types/advertisementTypes.clad Full command line: victor-clad/tools/message-buffers/emitters/Python_emitter.py -C src -I clad/src lib/util/source/anki/clad robot/clad/src coretech/vision/clad_src coretech/common/clad_src -o generated/cladPython clad/types/advertisementTypes.clad """ from __future__ import absolute_import from __future__ import print_function def _modify_path(): import inspect, os, sys search_paths = [ '../..', '../../../../victor-clad/tools/message-buffers/support/python', ] currentpath = os.path.abspath(os.path.dirname(inspect.getfile(inspect.currentframe()))) for search_path in search_paths: search_path = os.path.normpath(os.path.abspath(os.path.realpath(os.path.join(currentpath, search_path)))) if search_path not in sys.path: sys.path.insert(0, search_path) _modify_path() import msgbuffers Anki = msgbuffers.Namespace() Anki.Vector = msgbuffers.Namespace() class AdvertisementRegistrationMsg(object): "Generated message-passing message." __slots__ = ( '_toEnginePort', # uint_16 '_fromEnginePort', # uint_16 '_id', # uint_8 '_enableAdvertisement', # bool '_oneShot', # bool '_ip', # string[uint_8] ) @property def toEnginePort(self): "uint_16 toEnginePort struct property." return self._toEnginePort @toEnginePort.setter def toEnginePort(self, value): self._toEnginePort = msgbuffers.validate_integer( 'AdvertisementRegistrationMsg.toEnginePort', value, 0, 65535) @property def fromEnginePort(self): "uint_16 fromEnginePort struct property." return self._fromEnginePort @fromEnginePort.setter def fromEnginePort(self, value): self._fromEnginePort = msgbuffers.validate_integer( 'AdvertisementRegistrationMsg.fromEnginePort', value, 0, 65535) @property def id(self): "uint_8 id struct property." return self._id @id.setter def id(self, value): self._id = msgbuffers.validate_integer( 'AdvertisementRegistrationMsg.id', value, 0, 255) @property def enableAdvertisement(self): "bool enableAdvertisement struct property." return self._enableAdvertisement @enableAdvertisement.setter def enableAdvertisement(self, value): self._enableAdvertisement = msgbuffers.validate_bool( 'AdvertisementRegistrationMsg.enableAdvertisement', value) @property def oneShot(self): "bool oneShot struct property." return self._oneShot @oneShot.setter def oneShot(self, value): self._oneShot = msgbuffers.validate_bool( 'AdvertisementRegistrationMsg.oneShot', value) @property def ip(self): "string[uint_8] ip struct property." return self._ip @ip.setter def ip(self, value): self._ip = msgbuffers.validate_string( 'AdvertisementRegistrationMsg.ip', value, 255) def __init__(self, toEnginePort=0, fromEnginePort=0, id=0, enableAdvertisement=False, oneShot=False, ip=''): self.toEnginePort = toEnginePort self.fromEnginePort = fromEnginePort self.id = id self.enableAdvertisement = enableAdvertisement self.oneShot = oneShot self.ip = ip @classmethod def unpack(cls, buffer): "Reads a new AdvertisementRegistrationMsg from the given buffer." reader = msgbuffers.BinaryReader(buffer) value = cls.unpack_from(reader) if reader.tell() != len(reader): raise msgbuffers.ReadError( ('AdvertisementRegistrationMsg.unpack received a buffer of length {length}, ' + 'but only {position} bytes were read.').format( length=len(reader), position=reader.tell())) return value @classmethod def unpack_from(cls, reader): "Reads a new AdvertisementRegistrationMsg from the given BinaryReader." _toEnginePort = reader.read('H') _fromEnginePort = reader.read('H') _id = reader.read('B') _enableAdvertisement = bool(reader.read('b')) _oneShot = bool(reader.read('b')) _ip = reader.read_string('B') return cls(_toEnginePort, _fromEnginePort, _id, _enableAdvertisement, _oneShot, _ip) def pack(self): "Writes the current AdvertisementRegistrationMsg, returning bytes." writer = msgbuffers.BinaryWriter() self.pack_to(writer) return writer.dumps() def pack_to(self, writer): "Writes the current AdvertisementRegistrationMsg to the given BinaryWriter." writer.write(self._toEnginePort, 'H') writer.write(self._fromEnginePort, 'H') writer.write(self._id, 'B') writer.write(int(self._enableAdvertisement), 'b') writer.write(int(self._oneShot), 'b') writer.write_string(self._ip, 'B') def __eq__(self, other): if type(self) is type(other): return (self._toEnginePort == other._toEnginePort and self._fromEnginePort == other._fromEnginePort and self._id == other._id and self._enableAdvertisement == other._enableAdvertisement and self._oneShot == other._oneShot and self._ip == other._ip) else: return NotImplemented def __ne__(self, other): if type(self) is type(other): return not self.__eq__(other) else: return NotImplemented def __len__(self): return (msgbuffers.size(self._toEnginePort, 'H') + msgbuffers.size(self._fromEnginePort, 'H') + msgbuffers.size(self._id, 'B') + msgbuffers.size(self._enableAdvertisement, 'b') + msgbuffers.size(self._oneShot, 'b') + msgbuffers.size_string(self._ip, 'B')) def __str__(self): return '{type}(toEnginePort={toEnginePort}, fromEnginePort={fromEnginePort}, id={id}, enableAdvertisement={enableAdvertisement}, oneShot={oneShot}, ip={ip})'.format( type=type(self).__name__, toEnginePort=self._toEnginePort, fromEnginePort=self._fromEnginePort, id=self._id, enableAdvertisement=self._enableAdvertisement, oneShot=self._oneShot, ip=msgbuffers.shorten_string(self._ip)) def __repr__(self): return '{type}(toEnginePort={toEnginePort}, fromEnginePort={fromEnginePort}, id={id}, enableAdvertisement={enableAdvertisement}, oneShot={oneShot}, ip={ip})'.format( type=type(self).__name__, toEnginePort=repr(self._toEnginePort), fromEnginePort=repr(self._fromEnginePort), id=repr(self._id), enableAdvertisement=repr(self._enableAdvertisement), oneShot=repr(self._oneShot), ip=repr(self._ip)) Anki.Vector.AdvertisementRegistrationMsg = AdvertisementRegistrationMsg del AdvertisementRegistrationMsg class AdvertisementMsg(object): "Generated message-passing message." __slots__ = ( '_toEnginePort', # uint_16 '_fromEnginePort', # uint_16 '_id', # uint_8 '_ip', # string[uint_8] ) @property def toEnginePort(self): "uint_16 toEnginePort struct property." return self._toEnginePort @toEnginePort.setter def toEnginePort(self, value): self._toEnginePort = msgbuffers.validate_integer( 'AdvertisementMsg.toEnginePort', value, 0, 65535) @property def fromEnginePort(self): "uint_16 fromEnginePort struct property." return self._fromEnginePort @fromEnginePort.setter def fromEnginePort(self, value): self._fromEnginePort = msgbuffers.validate_integer( 'AdvertisementMsg.fromEnginePort', value, 0, 65535) @property def id(self): "uint_8 id struct property." return self._id @id.setter def id(self, value): self._id = msgbuffers.validate_integer( 'AdvertisementMsg.id', value, 0, 255) @property def ip(self): "string[uint_8] ip struct property." return self._ip @ip.setter def ip(self, value): self._ip = msgbuffers.validate_string( 'AdvertisementMsg.ip', value, 255) def __init__(self, toEnginePort=0, fromEnginePort=0, id=0, ip=''): self.toEnginePort = toEnginePort self.fromEnginePort = fromEnginePort self.id = id self.ip = ip @classmethod def unpack(cls, buffer): "Reads a new AdvertisementMsg from the given buffer." reader = msgbuffers.BinaryReader(buffer) value = cls.unpack_from(reader) if reader.tell() != len(reader): raise msgbuffers.ReadError( ('AdvertisementMsg.unpack received a buffer of length {length}, ' + 'but only {position} bytes were read.').format( length=len(reader), position=reader.tell())) return value @classmethod def unpack_from(cls, reader): "Reads a new AdvertisementMsg from the given BinaryReader." _toEnginePort = reader.read('H') _fromEnginePort = reader.read('H') _id = reader.read('B') _ip = reader.read_string('B') return cls(_toEnginePort, _fromEnginePort, _id, _ip) def pack(self): "Writes the current AdvertisementMsg, returning bytes." writer = msgbuffers.BinaryWriter() self.pack_to(writer) return writer.dumps() def pack_to(self, writer): "Writes the current AdvertisementMsg to the given BinaryWriter." writer.write(self._toEnginePort, 'H') writer.write(self._fromEnginePort, 'H') writer.write(self._id, 'B') writer.write_string(self._ip, 'B') def __eq__(self, other): if type(self) is type(other): return (self._toEnginePort == other._toEnginePort and self._fromEnginePort == other._fromEnginePort and self._id == other._id and self._ip == other._ip) else: return NotImplemented def __ne__(self, other): if type(self) is type(other): return not self.__eq__(other) else: return NotImplemented def __len__(self): return (msgbuffers.size(self._toEnginePort, 'H') + msgbuffers.size(self._fromEnginePort, 'H') + msgbuffers.size(self._id, 'B') + msgbuffers.size_string(self._ip, 'B')) def __str__(self): return '{type}(toEnginePort={toEnginePort}, fromEnginePort={fromEnginePort}, id={id}, ip={ip})'.format( type=type(self).__name__, toEnginePort=self._toEnginePort, fromEnginePort=self._fromEnginePort, id=self._id, ip=msgbuffers.shorten_string(self._ip)) def __repr__(self): return '{type}(toEnginePort={toEnginePort}, fromEnginePort={fromEnginePort}, id={id}, ip={ip})'.format( type=type(self).__name__, toEnginePort=repr(self._toEnginePort), fromEnginePort=repr(self._fromEnginePort), id=repr(self._id), ip=repr(self._ip)) Anki.Vector.AdvertisementMsg = AdvertisementMsg del AdvertisementMsg