from abc import ABC, abstractmethod from dataclasses import asdict, is_dataclass import decimal import datetime from enum import Enum import io import logging import inspect import json import time from typing import Union from uuid import UUID _logger = logging.getLogger('platypush') class JSONAble(ABC): """ Generic interface for JSON-able objects. """ @abstractmethod def to_json(self) -> Union[str, list, dict]: raise NotImplementedError() class Message: """ Message generic class """ class Encoder(json.JSONEncoder): @staticmethod def parse_numpy(obj): try: import numpy as np except ImportError: return if isinstance(obj, np.floating): return float(obj) if isinstance(obj, np.integer): return int(obj) if isinstance(obj, np.ndarray): return obj.tolist() if isinstance(obj, decimal.Decimal): return float(obj) if isinstance(obj, (bytes, bytearray)): return '0x' + ''.join([f'{x:02x}' for x in obj]) if callable(obj): return ''.format(obj.__module__, obj.__name__) return @staticmethod def parse_datetime(obj): if isinstance(obj, (datetime.datetime, datetime.date, datetime.time)): return obj.isoformat() def default(self, obj): value = self.parse_datetime(obj) if value is not None: return value if isinstance(obj, set): return list(obj) if isinstance(obj, UUID): return str(obj) value = self.parse_numpy(obj) if value is not None: return value if isinstance(obj, JSONAble): return obj.to_json() if isinstance(obj, Enum): return obj.value if isinstance(obj, Exception): return f'<{obj.__class__.__name__}>' + (f' {obj}' if obj else '') if is_dataclass(obj): return asdict(obj) # Don't serialize I/O wrappers/objects if isinstance(obj, io.IOBase): return None try: return super().default(obj) except Exception as e: _logger.warning( 'Could not serialize object type %s: %s: %s', type(obj), e, obj ) def __init__(self, *_, timestamp=None, logging_level=logging.INFO, **__): self.timestamp = timestamp or time.time() self.logging_level = logging_level self._logger = _logger self._default_log_prefix = '' def log(self, prefix=''): if self.logging_level is None: return # Skip logging log_func = self._logger.info if self.logging_level == logging.DEBUG: log_func = self._logger.debug elif self.logging_level == logging.WARNING: log_func = self._logger.warning elif self.logging_level == logging.ERROR: log_func = self._logger.error elif self.logging_level == logging.FATAL: log_func = self._logger.fatal if not prefix: prefix = self._default_log_prefix log_func('%s%s', prefix, self) def __str__(self): """ Overrides the str() operator and converts the message into a UTF-8 JSON string """ return json.dumps( { attr: getattr(self, attr) for attr in self.__dir__() if (attr != '_timestamp' or not attr.startswith('_')) and not inspect.ismethod(getattr(self, attr)) }, cls=self.Encoder, ).replace('\n', ' ') def __bytes__(self): """ Overrides the bytes() operator, converts the message into its JSON-serialized UTF-8-encoded representation """ return str(self).encode('utf-8') @classmethod def parse(cls, msg): """ Parse a generic message into a key-value dictionary :param msg: Original message. It can be a dictionary, a Message, or a string/bytearray, as long as it's valid UTF-8 JSON """ if isinstance(msg, cls): msg = str(msg) if isinstance(msg, (bytes, bytearray)): msg = msg.decode('utf-8') if isinstance(msg, str): try: msg = json.loads(msg.strip()) except (ValueError, TypeError): _logger.warning('Invalid JSON message: %s', msg) assert isinstance(msg, dict) if '_timestamp' not in msg: msg['_timestamp'] = time.time() return msg @classmethod def build(cls, msg): """ Builds a Message object from a dictionary. :param msg: The message as a key-value dictionary, Message object or JSON string """ from platypush.utils import get_message_class_by_type msg = cls.parse(msg) msgtype = get_message_class_by_type(msg['type']) if msgtype != cls: return msgtype.build(msg) class Mapping(dict): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) for k, v in kwargs.items(): self.__setattr__(k, v) def __setitem__(self, key, item): self.__dict__[key] = item def __getitem__(self, key): return self.__dict__[key] def __repr__(self): return repr(self.__dict__) def __len__(self): return len(self.__dict__) def __delitem__(self, key): del self.__dict__[key] def clear(self): return self.__dict__.clear() def copy(self): return self.__dict__.copy() def has_key(self, k): return k in self.__dict__ def update(self, *args, **kwargs): return self.__dict__.update(*args, **kwargs) def keys(self): return self.__dict__.keys() def values(self): return self.__dict__.values() def items(self): return self.__dict__.items() def pop(self, *args): return self.__dict__.pop(*args) def __cmp__(self, dict_): return self.__cmp__(dict_) def __contains__(self, item): return item in self.__dict__ def __iter__(self): return iter(self.__dict__) def __str__(self): return str(self.__dict__) # vim:sw=4:ts=4:et: