diff --git a/RNS/vendor/umsgpack.py b/RNS/vendor/umsgpack.py index 139ab98..c6fa1e7 100644 --- a/RNS/vendor/umsgpack.py +++ b/RNS/vendor/umsgpack.py @@ -1,4 +1,4 @@ -# u-msgpack-python v2.5.0 - v at sergeev.io +# u-msgpack-python v2.7.1 - v at sergeev.io # https://github.com/vsergeev/u-msgpack-python # # u-msgpack-python is a lightweight MessagePack serializer and deserializer @@ -10,7 +10,7 @@ # # MIT License # -# Copyright (c) 2013-2016 vsergeev / Ivan (Vanya) A. Sergeev +# Copyright (c) 2013-2020 vsergeev / Ivan (Vanya) A. Sergeev # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to deal @@ -31,7 +31,7 @@ # THE SOFTWARE. # """ -u-msgpack-python v2.5.0 - v at sergeev.io +u-msgpack-python v2.7.1 - v at sergeev.io https://github.com/vsergeev/u-msgpack-python u-msgpack-python is a lightweight MessagePack serializer and deserializer @@ -49,10 +49,15 @@ import datetime import sys import io -__version__ = "2.5.0" +if sys.version_info[0:2] >= (3, 3): + from collections.abc import Hashable +else: + from collections import Hashable + +__version__ = "2.7.1" "Module version string" -version = (2, 5, 0) +version = (2, 7, 1) "Module version tuple" @@ -61,7 +66,7 @@ version = (2, 5, 0) ############################################################################## # Extension type for application-defined types and data -class Ext: +class Ext(object): """ The Ext class facilitates creating a serializable extension object to store an application-defined type and data byte array. @@ -75,23 +80,33 @@ class Ext: type: application-defined type integer data: application-defined data byte array + TypeError: + Type is not an integer. + ValueError: + Type is out of range of -128 to 127. + TypeError:: + Data is not type 'bytes' (Python 3) or not type 'str' (Python 2). + Example: - >>> foo = umsgpack.Ext(0x05, b"\x01\x02\x03") + >>> foo = umsgpack.Ext(5, b"\x01\x02\x03") >>> umsgpack.packb({u"special stuff": foo, u"awesome": True}) '\x82\xa7awesome\xc3\xadspecial stuff\xc7\x03\x05\x01\x02\x03' >>> bar = umsgpack.unpackb(_) >>> print(bar["special stuff"]) - Ext Object (Type: 0x05, Data: 01 02 03) + Ext Object (Type: 5, Data: 01 02 03) >>> """ - # Check type is type int + # Check type is type int and in range if not isinstance(type, int): raise TypeError("ext type is not type integer") - # Check data is type bytes + elif not (-2**7 <= type <= 2**7 - 1): + raise ValueError("ext type value {:d} is out of range (-128 to 127)".format(type)) + # Check data is type bytes or str elif sys.version_info[0] == 3 and not isinstance(data, bytes): raise TypeError("ext data is not type \'bytes\'") elif sys.version_info[0] == 2 and not isinstance(data, str): raise TypeError("ext data is not type \'str\'") + self.type = type self.data = data @@ -99,9 +114,8 @@ class Ext: """ Compare this Ext object with another for equality. """ - return (isinstance(other, self.__class__) and - self.type == other.type and - self.data == other.data) + return isinstance(other, self.__class__) \ + and self.type == other.type and self.data == other.data def __ne__(self, other): """ @@ -113,8 +127,8 @@ class Ext: """ String representation of this Ext object. """ - s = "Ext Object (Type: 0x%02x, Data: " % self.type - s += " ".join(["0x%02x" % ord(self.data[i:i + 1]) + s = "Ext Object (Type: {:d}, Data: ".format(self.type) + s += " ".join(["0x{:02}".format(ord(self.data[i:i + 1])) for i in xrange(min(len(self.data), 8))]) if len(self.data) > 8: s += " ..." @@ -130,7 +144,52 @@ class Ext: class InvalidString(bytes): """Subclass of bytes to hold invalid UTF-8 strings.""" - pass + + +############################################################################## +# Ext Serializable Decorator +############################################################################## + +_ext_class_to_type = {} +_ext_type_to_class = {} + + +def ext_serializable(ext_type): + """ + Return a decorator to register a class for automatic packing and unpacking + with the specified Ext type code. The application class should implement a + `packb()` method that returns serialized bytes, and an `unpackb()` class + method or static method that accepts serialized bytes and returns an + instance of the application class. + + Args: + ext_type: application-defined Ext type code + + Raises: + TypeError: + Ext type is not an integer. + ValueError: + Ext type is out of range of -128 to 127. + ValueError: + Ext type or class already registered. + """ + def wrapper(cls): + if not isinstance(ext_type, int): + raise TypeError("Ext type is not type integer") + elif not (-2**7 <= ext_type <= 2**7 - 1): + raise ValueError("Ext type value {:d} is out of range of -128 to 127".format(ext_type)) + elif ext_type in _ext_type_to_class: + raise ValueError("Ext type {:d} already registered with class {:s}".format(ext_type, repr(_ext_type_to_class[ext_type]))) + elif cls in _ext_class_to_type: + raise ValueError("Class {:s} already registered with Ext type {:d}".format(repr(cls), ext_type)) + + _ext_type_to_class[ext_type] = cls + _ext_class_to_type[cls] = ext_type + + return cls + + return wrapper + ############################################################################## # Exceptions @@ -140,39 +199,32 @@ class InvalidString(bytes): # Base Exception classes class PackException(Exception): "Base class for exceptions encountered during packing." - pass class UnpackException(Exception): "Base class for exceptions encountered during unpacking." - pass # Packing error class UnsupportedTypeException(PackException): "Object type not supported for packing." - pass # Unpacking error class InsufficientDataException(UnpackException): "Insufficient data to unpack the serialized object." - pass class InvalidStringException(UnpackException): "Invalid UTF-8 string encountered during unpacking." - pass class UnsupportedTimestampException(UnpackException): "Unsupported timestamp format encountered during unpacking." - pass class ReservedCodeException(UnpackException): "Reserved code encountered during unpacking." - pass class UnhashableKeyException(UnpackException): @@ -180,12 +232,10 @@ class UnhashableKeyException(UnpackException): Unhashable key encountered during map unpacking. The serialized map cannot be deserialized into a Python dictionary. """ - pass class DuplicateKeyException(UnpackException): "Duplicate key encountered during map unpacking." - pass # Backwards compatibility @@ -250,15 +300,15 @@ def _pack_integer(obj, fp, options): else: raise UnsupportedTypeException("huge signed int") else: - if obj <= 127: + if obj < 128: fp.write(struct.pack("B", obj)) - elif obj <= 2**8 - 1: + elif obj < 2**8: fp.write(b"\xcc" + struct.pack("B", obj)) - elif obj <= 2**16 - 1: + elif obj < 2**16: fp.write(b"\xcd" + struct.pack(">H", obj)) - elif obj <= 2**32 - 1: + elif obj < 2**32: fp.write(b"\xce" + struct.pack(">I", obj)) - elif obj <= 2**64 - 1: + elif obj < 2**64: fp.write(b"\xcf" + struct.pack(">Q", obj)) else: raise UnsupportedTypeException("huge unsigned int") @@ -285,94 +335,99 @@ def _pack_float(obj, fp, options): def _pack_string(obj, fp, options): obj = obj.encode('utf-8') - if len(obj) <= 31: - fp.write(struct.pack("B", 0xa0 | len(obj)) + obj) - elif len(obj) <= 2**8 - 1: - fp.write(b"\xd9" + struct.pack("B", len(obj)) + obj) - elif len(obj) <= 2**16 - 1: - fp.write(b"\xda" + struct.pack(">H", len(obj)) + obj) - elif len(obj) <= 2**32 - 1: - fp.write(b"\xdb" + struct.pack(">I", len(obj)) + obj) + obj_len = len(obj) + if obj_len < 32: + fp.write(struct.pack("B", 0xa0 | obj_len) + obj) + elif obj_len < 2**8: + fp.write(b"\xd9" + struct.pack("B", obj_len) + obj) + elif obj_len < 2**16: + fp.write(b"\xda" + struct.pack(">H", obj_len) + obj) + elif obj_len < 2**32: + fp.write(b"\xdb" + struct.pack(">I", obj_len) + obj) else: raise UnsupportedTypeException("huge string") def _pack_binary(obj, fp, options): - if len(obj) <= 2**8 - 1: - fp.write(b"\xc4" + struct.pack("B", len(obj)) + obj) - elif len(obj) <= 2**16 - 1: - fp.write(b"\xc5" + struct.pack(">H", len(obj)) + obj) - elif len(obj) <= 2**32 - 1: - fp.write(b"\xc6" + struct.pack(">I", len(obj)) + obj) + obj_len = len(obj) + if obj_len < 2**8: + fp.write(b"\xc4" + struct.pack("B", obj_len) + obj) + elif obj_len < 2**16: + fp.write(b"\xc5" + struct.pack(">H", obj_len) + obj) + elif obj_len < 2**32: + fp.write(b"\xc6" + struct.pack(">I", obj_len) + obj) else: raise UnsupportedTypeException("huge binary string") def _pack_oldspec_raw(obj, fp, options): - if len(obj) <= 31: - fp.write(struct.pack("B", 0xa0 | len(obj)) + obj) - elif len(obj) <= 2**16 - 1: - fp.write(b"\xda" + struct.pack(">H", len(obj)) + obj) - elif len(obj) <= 2**32 - 1: - fp.write(b"\xdb" + struct.pack(">I", len(obj)) + obj) + obj_len = len(obj) + if obj_len < 32: + fp.write(struct.pack("B", 0xa0 | obj_len) + obj) + elif obj_len < 2**16: + fp.write(b"\xda" + struct.pack(">H", obj_len) + obj) + elif obj_len < 2**32: + fp.write(b"\xdb" + struct.pack(">I", obj_len) + obj) else: raise UnsupportedTypeException("huge raw string") def _pack_ext(obj, fp, options): - if len(obj.data) == 1: + obj_len = len(obj.data) + if obj_len == 1: fp.write(b"\xd4" + struct.pack("B", obj.type & 0xff) + obj.data) - elif len(obj.data) == 2: + elif obj_len == 2: fp.write(b"\xd5" + struct.pack("B", obj.type & 0xff) + obj.data) - elif len(obj.data) == 4: + elif obj_len == 4: fp.write(b"\xd6" + struct.pack("B", obj.type & 0xff) + obj.data) - elif len(obj.data) == 8: + elif obj_len == 8: fp.write(b"\xd7" + struct.pack("B", obj.type & 0xff) + obj.data) - elif len(obj.data) == 16: + elif obj_len == 16: fp.write(b"\xd8" + struct.pack("B", obj.type & 0xff) + obj.data) - elif len(obj.data) <= 2**8 - 1: - fp.write(b"\xc7" + - struct.pack("BB", len(obj.data), obj.type & 0xff) + obj.data) - elif len(obj.data) <= 2**16 - 1: - fp.write(b"\xc8" + - struct.pack(">HB", len(obj.data), obj.type & 0xff) + obj.data) - elif len(obj.data) <= 2**32 - 1: - fp.write(b"\xc9" + - struct.pack(">IB", len(obj.data), obj.type & 0xff) + obj.data) + elif obj_len < 2**8: + fp.write(b"\xc7" + struct.pack("BB", obj_len, obj.type & 0xff) + obj.data) + elif obj_len < 2**16: + fp.write(b"\xc8" + struct.pack(">HB", obj_len, obj.type & 0xff) + obj.data) + elif obj_len < 2**32: + fp.write(b"\xc9" + struct.pack(">IB", obj_len, obj.type & 0xff) + obj.data) else: raise UnsupportedTypeException("huge ext data") def _pack_ext_timestamp(obj, fp, options): - delta = obj - _epoch + if not obj.tzinfo: + # Object is naive datetime, convert to aware date time, + # assuming UTC timezone + delta = obj.replace(tzinfo=_utc_tzinfo) - _epoch + else: + # Object is aware datetime + delta = obj - _epoch + seconds = delta.seconds + delta.days * 86400 microseconds = delta.microseconds if microseconds == 0 and 0 <= seconds <= 2**32 - 1: # 32-bit timestamp - fp.write(b"\xd6\xff" + - struct.pack(">I", seconds)) + fp.write(b"\xd6\xff" + struct.pack(">I", seconds)) elif 0 <= seconds <= 2**34 - 1: # 64-bit timestamp value = ((microseconds * 1000) << 34) | seconds - fp.write(b"\xd7\xff" + - struct.pack(">Q", value)) + fp.write(b"\xd7\xff" + struct.pack(">Q", value)) elif -2**63 <= abs(seconds) <= 2**63 - 1: # 96-bit timestamp - fp.write(b"\xc7\x0c\xff" + - struct.pack(">I", microseconds * 1000) + - struct.pack(">q", seconds)) + fp.write(b"\xc7\x0c\xff" + struct.pack(">Iq", microseconds * 1000, seconds)) else: raise UnsupportedTypeException("huge timestamp") def _pack_array(obj, fp, options): - if len(obj) <= 15: - fp.write(struct.pack("B", 0x90 | len(obj))) - elif len(obj) <= 2**16 - 1: - fp.write(b"\xdc" + struct.pack(">H", len(obj))) - elif len(obj) <= 2**32 - 1: - fp.write(b"\xdd" + struct.pack(">I", len(obj))) + obj_len = len(obj) + if obj_len < 16: + fp.write(struct.pack("B", 0x90 | obj_len)) + elif obj_len < 2**16: + fp.write(b"\xdc" + struct.pack(">H", obj_len)) + elif obj_len < 2**32: + fp.write(b"\xdd" + struct.pack(">I", obj_len)) else: raise UnsupportedTypeException("huge array") @@ -381,12 +436,13 @@ def _pack_array(obj, fp, options): def _pack_map(obj, fp, options): - if len(obj) <= 15: - fp.write(struct.pack("B", 0x80 | len(obj))) - elif len(obj) <= 2**16 - 1: - fp.write(b"\xde" + struct.pack(">H", len(obj))) - elif len(obj) <= 2**32 - 1: - fp.write(b"\xdf" + struct.pack(">I", len(obj))) + obj_len = len(obj) + if obj_len < 16: + fp.write(struct.pack("B", 0x80 | obj_len)) + elif obj_len < 2**16: + fp.write(b"\xde" + struct.pack(">H", obj_len)) + elif obj_len < 2**32: + fp.write(b"\xdf" + struct.pack(">I", obj_len)) else: raise UnsupportedTypeException("huge array") @@ -435,9 +491,14 @@ def _pack2(obj, fp, **options): _pack_nil(obj, fp, options) elif ext_handlers and obj.__class__ in ext_handlers: _pack_ext(ext_handlers[obj.__class__](obj), fp, options) + elif obj.__class__ in _ext_class_to_type: + try: + _pack_ext(Ext(_ext_class_to_type[obj.__class__], obj.packb()), fp, options) + except AttributeError: + raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(obj.__class__))) elif isinstance(obj, bool): _pack_boolean(obj, fp, options) - elif isinstance(obj, int) or isinstance(obj, long): + elif isinstance(obj, (int, long)): _pack_integer(obj, fp, options) elif isinstance(obj, float): _pack_float(obj, fp, options) @@ -449,7 +510,7 @@ def _pack2(obj, fp, **options): _pack_string(obj, fp, options) elif isinstance(obj, str): _pack_binary(obj, fp, options) - elif isinstance(obj, list) or isinstance(obj, tuple): + elif isinstance(obj, (list, tuple)): _pack_array(obj, fp, options) elif isinstance(obj, dict): _pack_map(obj, fp, options) @@ -464,9 +525,19 @@ def _pack2(obj, fp, **options): _pack_ext(ext_handlers[t](obj), fp, options) else: raise UnsupportedTypeException( - "unsupported type: %s" % str(type(obj))) + "unsupported type: {:s}".format(str(type(obj)))) + elif _ext_class_to_type: + # Linear search for superclass + t = next((t for t in _ext_class_to_type if isinstance(obj, t)), None) + if t: + try: + _pack_ext(Ext(_ext_class_to_type[t], obj.packb()), fp, options) + except AttributeError: + raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(t))) + else: + raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj)))) else: - raise UnsupportedTypeException("unsupported type: %s" % str(type(obj))) + raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj)))) # Pack for Python 3, with unicode 'str' type, 'bytes' type, and no 'long' type @@ -507,6 +578,11 @@ def _pack3(obj, fp, **options): _pack_nil(obj, fp, options) elif ext_handlers and obj.__class__ in ext_handlers: _pack_ext(ext_handlers[obj.__class__](obj), fp, options) + elif obj.__class__ in _ext_class_to_type: + try: + _pack_ext(Ext(_ext_class_to_type[obj.__class__], obj.packb()), fp, options) + except AttributeError: + raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(obj.__class__))) elif isinstance(obj, bool): _pack_boolean(obj, fp, options) elif isinstance(obj, int): @@ -521,7 +597,7 @@ def _pack3(obj, fp, **options): _pack_string(obj, fp, options) elif isinstance(obj, bytes): _pack_binary(obj, fp, options) - elif isinstance(obj, list) or isinstance(obj, tuple): + elif isinstance(obj, (list, tuple)): _pack_array(obj, fp, options) elif isinstance(obj, dict): _pack_map(obj, fp, options) @@ -536,10 +612,20 @@ def _pack3(obj, fp, **options): _pack_ext(ext_handlers[t](obj), fp, options) else: raise UnsupportedTypeException( - "unsupported type: %s" % str(type(obj))) + "unsupported type: {:s}".format(str(type(obj)))) + elif _ext_class_to_type: + # Linear search for superclass + t = next((t for t in _ext_class_to_type if isinstance(obj, t)), None) + if t: + try: + _pack_ext(Ext(_ext_class_to_type[t], obj.packb()), fp, options) + except AttributeError: + raise NotImplementedError("Ext serializable class {:s} is missing implementation of packb()".format(repr(t))) + else: + raise UnsupportedTypeException("unsupported type: {:s}".format(str(type(obj)))) else: raise UnsupportedTypeException( - "unsupported type: %s" % str(type(obj))) + "unsupported type: {:s}".format(str(type(obj)))) def _packb2(obj, **options): @@ -613,9 +699,20 @@ def _packb3(obj, **options): def _read_except(fp, n): + if n == 0: + return b"" + data = fp.read(n) - if len(data) < n: + if len(data) == 0: raise InsufficientDataException() + + while len(data) < n: + chunk = fp.read(n - len(data)) + if len(chunk) == 0: + raise InsufficientDataException() + + data += chunk + return data @@ -640,21 +737,21 @@ def _unpack_integer(code, fp, options): return struct.unpack(">I", _read_except(fp, 4))[0] elif code == b'\xcf': return struct.unpack(">Q", _read_except(fp, 8))[0] - raise Exception("logic error, not int: 0x%02x" % ord(code)) + raise Exception("logic error, not int: 0x{:02x}".format(ord(code))) def _unpack_reserved(code, fp, options): if code == b'\xc1': raise ReservedCodeException( - "encountered reserved code: 0x%02x" % ord(code)) + "encountered reserved code: 0x{:02x}".format(ord(code))) raise Exception( - "logic error, not reserved code: 0x%02x" % ord(code)) + "logic error, not reserved code: 0x{:02x}".format(ord(code))) def _unpack_nil(code, fp, options): if code == b'\xc0': return None - raise Exception("logic error, not nil: 0x%02x" % ord(code)) + raise Exception("logic error, not nil: 0x{:02x}".format(ord(code))) def _unpack_boolean(code, fp, options): @@ -662,7 +759,7 @@ def _unpack_boolean(code, fp, options): return False elif code == b'\xc3': return True - raise Exception("logic error, not boolean: 0x%02x" % ord(code)) + raise Exception("logic error, not boolean: 0x{:02x}".format(ord(code))) def _unpack_float(code, fp, options): @@ -670,7 +767,7 @@ def _unpack_float(code, fp, options): return struct.unpack(">f", _read_except(fp, 4))[0] elif code == b'\xcb': return struct.unpack(">d", _read_except(fp, 8))[0] - raise Exception("logic error, not float: 0x%02x" % ord(code)) + raise Exception("logic error, not float: 0x{:02x}".format(ord(code))) def _unpack_string(code, fp, options): @@ -683,7 +780,7 @@ def _unpack_string(code, fp, options): elif code == b'\xdb': length = struct.unpack(">I", _read_except(fp, 4))[0] else: - raise Exception("logic error, not string: 0x%02x" % ord(code)) + raise Exception("logic error, not string: 0x{:02x}".format(ord(code))) # Always return raw bytes in compatibility mode global compatibility @@ -707,7 +804,7 @@ def _unpack_binary(code, fp, options): elif code == b'\xc6': length = struct.unpack(">I", _read_except(fp, 4))[0] else: - raise Exception("logic error, not binary: 0x%02x" % ord(code)) + raise Exception("logic error, not binary: 0x{:02x}".format(ord(code))) return _read_except(fp, length) @@ -730,43 +827,48 @@ def _unpack_ext(code, fp, options): elif code == b'\xc9': length = struct.unpack(">I", _read_except(fp, 4))[0] else: - raise Exception("logic error, not ext: 0x%02x" % ord(code)) + raise Exception("logic error, not ext: 0x{:02x}".format(ord(code))) ext_type = struct.unpack("b", _read_except(fp, 1))[0] ext_data = _read_except(fp, length) - # Create extension object - ext = Ext(ext_type, ext_data) - # Unpack with ext handler, if we have one ext_handlers = options.get("ext_handlers") - if ext_handlers and ext.type in ext_handlers: - return ext_handlers[ext.type](ext) + if ext_handlers and ext_type in ext_handlers: + return ext_handlers[ext_type](Ext(ext_type, ext_data)) + + # Unpack with ext classes, if type is registered + if ext_type in _ext_type_to_class: + try: + return _ext_type_to_class[ext_type].unpackb(ext_data) + except AttributeError: + raise NotImplementedError("Ext serializable class {:s} is missing implementation of unpackb()".format(repr(_ext_type_to_class[ext_type]))) # Timestamp extension - if ext.type == -1: - return _unpack_ext_timestamp(ext, options) + if ext_type == -1: + return _unpack_ext_timestamp(ext_data, options) - return ext + return Ext(ext_type, ext_data) -def _unpack_ext_timestamp(ext, options): - if len(ext.data) == 4: +def _unpack_ext_timestamp(ext_data, options): + obj_len = len(ext_data) + if obj_len == 4: # 32-bit timestamp - seconds = struct.unpack(">I", ext.data)[0] + seconds = struct.unpack(">I", ext_data)[0] microseconds = 0 - elif len(ext.data) == 8: + elif obj_len == 8: # 64-bit timestamp - value = struct.unpack(">Q", ext.data)[0] + value = struct.unpack(">Q", ext_data)[0] seconds = value & 0x3ffffffff microseconds = (value >> 34) // 1000 - elif len(ext.data) == 12: + elif obj_len == 12: # 96-bit timestamp - seconds = struct.unpack(">q", ext.data[4:12])[0] - microseconds = struct.unpack(">I", ext.data[0:4])[0] // 1000 + seconds = struct.unpack(">q", ext_data[4:12])[0] + microseconds = struct.unpack(">I", ext_data[0:4])[0] // 1000 else: raise UnsupportedTimestampException( - "unsupported timestamp with data length %d" % len(ext.data)) + "unsupported timestamp with data length {:d}".format(len(ext_data))) return _epoch + datetime.timedelta(seconds=seconds, microseconds=microseconds) @@ -780,7 +882,10 @@ def _unpack_array(code, fp, options): elif code == b'\xdd': length = struct.unpack(">I", _read_except(fp, 4))[0] else: - raise Exception("logic error, not array: 0x%02x" % ord(code)) + raise Exception("logic error, not array: 0x{:02x}".format(ord(code))) + + if options.get('use_tuple'): + return tuple((_unpack(fp, options) for i in xrange(length))) return [_unpack(fp, options) for i in xrange(length)] @@ -799,10 +904,9 @@ def _unpack_map(code, fp, options): elif code == b'\xdf': length = struct.unpack(">I", _read_except(fp, 4))[0] else: - raise Exception("logic error, not map: 0x%02x" % ord(code)) + raise Exception("logic error, not map: 0x{:02x}".format(ord(code))) - d = {} if not options.get('use_ordered_dict') \ - else collections.OrderedDict() + d = {} if not options.get('use_ordered_dict') else collections.OrderedDict() for _ in xrange(length): # Unpack key k = _unpack(fp, options) @@ -810,12 +914,12 @@ def _unpack_map(code, fp, options): if isinstance(k, list): # Attempt to convert list into a hashable tuple k = _deep_list_to_tuple(k) - elif not isinstance(k, collections.Hashable): + elif not isinstance(k, Hashable): raise UnhashableKeyException( - "encountered unhashable key: %s, %s" % (str(k), str(type(k)))) + "encountered unhashable key: \"{:s}\" ({:s})".format(str(k), str(type(k)))) elif k in d: raise DuplicateKeyException( - "encountered duplicate key: %s, %s" % (str(k), str(type(k)))) + "encountered duplicate key: \"{:s}\" ({:s})".format(str(k), str(type(k)))) # Unpack value v = _unpack(fp, options) @@ -824,7 +928,7 @@ def _unpack_map(code, fp, options): d[k] = v except TypeError: raise UnhashableKeyException( - "encountered unhashable key: %s" % str(k)) + "encountered unhashable key: \"{:s}\"".format(str(k))) return d @@ -848,6 +952,8 @@ def _unpack2(fp, **options): Ext into an object use_ordered_dict (bool): unpack maps into OrderedDict, instead of unordered dict (default False) + use_tuple (bool): unpacks arrays into tuples, instead of lists (default + False) allow_invalid_utf8 (bool): unpack invalid strings into instances of InvalidString, for access to the bytes (default False) @@ -892,6 +998,8 @@ def _unpack3(fp, **options): Ext into an object use_ordered_dict (bool): unpack maps into OrderedDict, instead of unordered dict (default False) + use_tuple (bool): unpacks arrays into tuples, instead of lists (default + False) allow_invalid_utf8 (bool): unpack invalid strings into instances of InvalidString, for access to the bytes (default False) @@ -937,6 +1045,8 @@ def _unpackb2(s, **options): Ext into an object use_ordered_dict (bool): unpack maps into OrderedDict, instead of unordered dict (default False) + use_tuple (bool): unpacks arrays into tuples, instead of lists (default + False) allow_invalid_utf8 (bool): unpack invalid strings into instances of InvalidString, for access to the bytes (default False) @@ -985,6 +1095,8 @@ def _unpackb3(s, **options): Ext into an object use_ordered_dict (bool): unpack maps into OrderedDict, instead of unordered dict (default False) + use_tuple (bool): unpacks arrays into tuples, instead of lists (default + False) allow_invalid_utf8 (bool): unpack invalid strings into instances of InvalidString, for access to the bytes (default False) @@ -1045,9 +1157,21 @@ def __init(): if sys.version_info[0] == 3: _utc_tzinfo = datetime.timezone.utc else: - _utc_tzinfo = None + class UTC(datetime.tzinfo): + ZERO = datetime.timedelta(0) - # Calculate epoch datetime + def utcoffset(self, dt): + return UTC.ZERO + + def tzname(self, dt): + return "UTC" + + def dst(self, dt): + return UTC.ZERO + + _utc_tzinfo = UTC() + + # Calculate an aware epoch datetime _epoch = datetime.datetime(1970, 1, 1, tzinfo=_utc_tzinfo) # Auto-detect system float precision