def test_accessors(): fp = Fingerprint(65) with pytest.raises(ValueError): fp.get(-1) fp.get(65) for i in range(65): assert fp.get(i) == False for i in [0, 1, 31, 32, 63]: fp.touch(i) assert fp.get(i) == True fp.wipe(i) assert fp.get(i) == False
def test_copy_creation(): for n in [32, 33]: fp1 = Fingerprint(n) indices = [0, 1, n - 2, n - 1] for i in indices: fp1.touch(i) fp2 = Fingerprint(fp1) for i in indices: assert fp2.get(i) == True # Make sure that we have a deep copy for i in indices: fp2.wipe(i) for i in indices: assert fp1.get(i) == True
class Cell(object): """Common base class for all custom types.""" class Tag(object): def __init__(self, base, type_name, props): self.base = base self.type_name = type_name self.props = props self.offset = 0 if base is not None: self.offset = base.offset + len(base.props) tag = Tag(None, 'Cell', []) def __init__(self, length): self.fingerprint = Fingerprint(length) self.values = [None] * length # property values def desc(self): prop_descs = [] tag = self.type_tag() self._desc(tag, prop_descs) result = ', '.join(prop_descs) result = "{} {{ {} }}".format(tag.type_name, result) return result def _desc(self, tag, prop_descs): if tag.base is not None: self._desc(tag.base, prop_descs) if len(tag.props) == 0: return for index, prop in enumerate(tag.props): if prop.name.startswith('_'): continue value = self.values[tag.offset + index] if prop.type_index == MetaProperty.STRING: value = "'{}'".format(value.replace("'", "''")) elif prop.type_index == MetaProperty.BYTES: value = repr(value) prop_descs.append('{}:{}'.format(prop.name, value)) def deserialize(self, deserializer): self.fingerprint.deserialize(deserializer) self._deserialize(self.type_tag(), deserializer) def _deserialize(self, tag, deserializer): if tag.base is not None: self._deserialize(tag.base, deserializer) if len(tag.props) == 0: return base = tag.offset for index, prop in enumerate(tag.props): if prop.name.startswith('_'): if prop.name == '_Handle': continue if self.fingerprint.get(base + index): self.values[base + index] = deserializer.read(prop) def get_length(self, target_type=None): result = self.fingerprint.get_length() length, _ = self._get_length(self.type_tag(), target_type, True) result += length return result def _get_length(self, tag, target_type, flag): result = 0 if tag.base is not None: length, flag = self._get_length(tag.base, target_type, flag) result += length if not flag: return result, flag if len(tag.props) == 0: return result, flag base = tag.offset for index, prop in enumerate(tag.props): if prop.name.startswith('_'): if prop.name == '_Handle': continue if self.fingerprint.get(base + index): result += Serializer.get_length(prop, self.values[base + index]) if (target_type is not None) and (target_type.__name__ == tag.type_name): flag = False return result, flag def type_tag(self): return Cell.tag def equals(self, other): if self is other: return True if type(self) != type(other): return False return self._equals(self.type_tag(), other) def _equals(self, tag, other): if tag.base is not None: if not self._equals(tag.base, other): return False if len(tag.props) == 0: return True base = tag.offset for index, prop in enumerate(tag.props): if self.values[base + index] != other.values[base + index]: return False return True def equivalent(self, other): if self is other: return True if not isinstance(self, type(other)): return False return self._equivalent(self.type_tag(), other) def _equivalent(self, tag, other): if tag.base is not None: if not self._equivalent(tag.base, other): return False if len(tag.props) == 0: return True base = tag.offset for index, prop in enumerate(tag.props): if other.fingerprint.get(base + index): if self.values[base + index] != other.values[base + index]: return False return True def hash_code(self, fingerprint): h = Hash() self._hash_code(self.type_tag(), h, fingerprint) return h.code def _hash_code(self, tag, h, fingerprint): if tag.base is not None: self._hash_code(tag.base, h, fingerprint) if len(tag.props) == 0: return base = tag.offset for index, prop in enumerate(tag.props): if fingerprint.get(base + index): h.update(base + index) # property index h.update(hash(self.values[base + index])) # property value def serialize(self, serializer, target_type=None): self.fingerprint.serialize(serializer) self._serialize(self.type_tag(), serializer, target_type, True) def _serialize(self, tag, serializer, target_type, flag): if tag.base is not None: flag = self._serialize(tag.base, serializer, target_type, flag) if not flag: return flag if len(tag.props) == 0: return flag base = tag.offset for index, prop in enumerate(tag.props): if prop.name.startswith('_'): if prop.name == '_Handle': continue if self.fingerprint.get(base + index): serializer.write(prop, self.values[base + index]) if (target_type is not None) and (target_type.__name__ == tag.type_name): flag = False return flag def setattrs(self, **kwargs): """Sets multiple attributes of this cell object at once.""" for key, value in kwargs.items(): setattr(self, key, value) return self def __eq__(self, other): return other.equals(self) def __ne__(self, other): return not other.equals(self) def __hash__(self): return self.hash_code(self.fingerprint) def __str__(self): return self.desc() # Property type checkers @staticmethod def is_bool(value): if value == True or value == False: return True, value else: return False, value @staticmethod def is_byte(value): if not isinstance(value, int): try: value = int(value) except: return False, value if value < 0 or (2**8 - 1) < value: return False, value return True, value @staticmethod def is_int8(value): if not isinstance(value, int): try: value = int(value) except: return False, value if value < -(2**7) or (2**7 - 1) < value: return False, value return True, value @staticmethod def is_int16(value): if not isinstance(value, int): try: value = int(value) except: return False, value if value < -(2**15) or (2**15 - 1) < value: return False, value return True, value @staticmethod def is_int32(value): if not isinstance(value, int): try: value = int(value) except: return False, value if value < -(2**31) or (2**31 - 1) < value: return False, value return True, value @staticmethod def is_int64(value): if not isinstance(value, int): try: value = int(value) except: return False, value if value < -(2**63) or (2**63 - 1) < value: return False, value return True, value @staticmethod def is_float32(value): if not isinstance(value, float): try: value = float(value) except: return False, value return True, value @staticmethod def is_float64(value): if not isinstance(value, float): try: value = float(value) except: return False, value return True, value @staticmethod def is_string(value): if value is not None: # allow None if not isinstance(value, str): try: value = str(value) except: return False, value return True, value @staticmethod def is_datetime(value): if not isinstance(value, datetime.datetime): try: value = datetime.datetime(value) except: return False, value return True, value @staticmethod def is_bytes(value): if value is not None: # allow None if not isinstance(value, bytes): try: value = bytes(value) except: return False, value return True, value @staticmethod def is_cell(value): if value is not None: # allow None if not isinstance(value, Cell): return False, value return True, value @staticmethod def is_list(value): if value is not None: # allow None if not isinstance(value, list): return False, value return True, value @staticmethod def is_map(value): if value is not None: # allow None if not isinstance(value, dict): return False, value return True, value @staticmethod def is_object(value): return True, value # Property type checker function table checkers = [ None, is_bool, is_byte, is_int8, is_int16, is_int32, is_int64, is_float32, is_float64, is_string, is_datetime, is_bytes, is_cell, is_list, is_map, is_object ] def _set_property(self, index, value, type_index): checker = Cell.checkers[type_index] valid, value = checker.__func__(value) if not valid: raise ValueError() if value is not None: self.fingerprint.touch(index) self.values[index] = value