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Python

# Copyright (c) Microsoft Corporation. All rights reserved.
# Licensed under the MIT License. See LICENSE in the project root
# for license information.
"""Improved JSON serialization.
"""
import builtins
import json
import numbers
import operator
JsonDecoder = json.JSONDecoder
class JsonEncoder(json.JSONEncoder):
"""Customizable JSON encoder.
If the object implements __getstate__, then that method is invoked, and its
result is serialized instead of the object itself.
"""
def default(self, value):
try:
get_state = value.__getstate__
except AttributeError:
pass
else:
return get_state()
return super().default(value)
class JsonObject(object):
"""A wrapped Python object that formats itself as JSON when asked for a string
representation via str() or format().
"""
json_encoder_factory = JsonEncoder
"""Used by __format__ when format_spec is not empty."""
json_encoder = json_encoder_factory(indent=4)
"""The default encoder used by __format__ when format_spec is empty."""
def __init__(self, value):
assert not isinstance(value, JsonObject)
self.value = value
def __getstate__(self):
raise NotImplementedError
def __repr__(self):
return builtins.repr(self.value)
def __str__(self):
return format(self)
def __format__(self, format_spec):
"""If format_spec is empty, uses self.json_encoder to serialize self.value
as a string. Otherwise, format_spec is treated as an argument list to be
passed to self.json_encoder_factory - which defaults to JSONEncoder - and
then the resulting formatter is used to serialize self.value as a string.
Example::
format("{0} {0:indent=4,sort_keys=True}", json.repr(x))
"""
if format_spec:
# At this point, format_spec is a string that looks something like
# "indent=4,sort_keys=True". What we want is to build a function call
# from that which looks like:
#
# json_encoder_factory(indent=4,sort_keys=True)
#
# which we can then eval() to create our encoder instance.
make_encoder = "json_encoder_factory(" + format_spec + ")"
encoder = eval(
make_encoder, {"json_encoder_factory": self.json_encoder_factory}
)
else:
encoder = self.json_encoder
return encoder.encode(self.value)
# JSON property validators, for use with MessageDict.
#
# A validator is invoked with the actual value of the JSON property passed to it as
# the sole argument; or if the property is missing in JSON, then () is passed. Note
# that None represents an actual null in JSON, while () is a missing value.
#
# The validator must either raise TypeError or ValueError describing why the property
# value is invalid, or else return the value of the property, possibly after performing
# some substitutions - e.g. replacing () with some default value.
def _converter(value, classinfo):
"""Convert value (str) to number, otherwise return None if is not possible"""
for one_info in classinfo:
if issubclass(one_info, numbers.Number):
try:
return one_info(value)
except ValueError:
pass
def of_type(*classinfo, **kwargs):
"""Returns a validator for a JSON property that requires it to have a value of
the specified type. If optional=True, () is also allowed.
The meaning of classinfo is the same as for isinstance().
"""
assert len(classinfo)
optional = kwargs.pop("optional", False)
assert not len(kwargs)
def validate(value):
if (optional and value == ()) or isinstance(value, classinfo):
return value
else:
converted_value = _converter(value, classinfo)
if converted_value:
return converted_value
if not optional and value == ():
raise ValueError("must be specified")
raise TypeError("must be " + " or ".join(t.__name__ for t in classinfo))
return validate
def default(default):
"""Returns a validator for a JSON property with a default value.
The validator will only allow property values that have the same type as the
specified default value.
"""
def validate(value):
if value == ():
return default
elif isinstance(value, type(default)):
return value
else:
raise TypeError("must be {0}".format(type(default).__name__))
return validate
def enum(*values, **kwargs):
"""Returns a validator for a JSON enum.
The validator will only allow the property to have one of the specified values.
If optional=True, and the property is missing, the first value specified is used
as the default.
"""
assert len(values)
optional = kwargs.pop("optional", False)
assert not len(kwargs)
def validate(value):
if optional and value == ():
return values[0]
elif value in values:
return value
else:
raise ValueError("must be one of: {0!r}".format(list(values)))
return validate
def array(validate_item=False, vectorize=False, size=None):
"""Returns a validator for a JSON array.
If the property is missing, it is treated as if it were []. Otherwise, it must
be a list.
If validate_item=False, it's treated as if it were (lambda x: x) - i.e. any item
is considered valid, and is unchanged. If validate_item is a type or a tuple,
it's treated as if it were json.of_type(validate).
Every item in the list is replaced with validate_item(item) in-place, propagating
any exceptions raised by the latter. If validate_item is a type or a tuple, it is
treated as if it were json.of_type(validate_item).
If vectorize=True, and the value is neither a list nor a dict, it is treated as
if it were a single-element list containing that single value - e.g. "foo" is
then the same as ["foo"]; but {} is an error, and not [{}].
If size is not None, it can be an int, a tuple of one int, a tuple of two ints,
or a set. If it's an int, the array must have exactly that many elements. If it's
a tuple of one int, it's the minimum length. If it's a tuple of two ints, they
are the minimum and the maximum lengths. If it's a set, it's the set of sizes that
are valid - e.g. for {2, 4}, the array can be either 2 or 4 elements long.
"""
if not validate_item:
validate_item = lambda x: x
elif isinstance(validate_item, type) or isinstance(validate_item, tuple):
validate_item = of_type(validate_item)
if size is None:
validate_size = lambda _: True
elif isinstance(size, set):
size = {operator.index(n) for n in size}
validate_size = lambda value: (
len(value) in size
or "must have {0} elements".format(
" or ".join(str(n) for n in sorted(size))
)
)
elif isinstance(size, tuple):
assert 1 <= len(size) <= 2
size = tuple(operator.index(n) for n in size)
min_len, max_len = (size + (None,))[0:2]
validate_size = lambda value: (
"must have at least {0} elements".format(min_len)
if len(value) < min_len
else "must have at most {0} elements".format(max_len)
if max_len is not None and len(value) < max_len
else True
)
else:
size = operator.index(size)
validate_size = lambda value: (
len(value) == size or "must have {0} elements".format(size)
)
def validate(value):
if value == ():
value = []
elif vectorize and not isinstance(value, (list, dict)):
value = [value]
of_type(list)(value)
size_err = validate_size(value) # True if valid, str if error
if size_err is not True:
raise ValueError(size_err)
for i, item in enumerate(value):
try:
value[i] = validate_item(item)
except (TypeError, ValueError) as exc:
raise type(exc)(f"[{repr(i)}] {exc}")
return value
return validate
def object(validate_value=False):
"""Returns a validator for a JSON object.
If the property is missing, it is treated as if it were {}. Otherwise, it must
be a dict.
If validate_value=False, it's treated as if it were (lambda x: x) - i.e. any
value is considered valid, and is unchanged. If validate_value is a type or a
tuple, it's treated as if it were json.of_type(validate_value).
Every value in the dict is replaced with validate_value(value) in-place, propagating
any exceptions raised by the latter. If validate_value is a type or a tuple, it is
treated as if it were json.of_type(validate_value). Keys are not affected.
"""
if isinstance(validate_value, type) or isinstance(validate_value, tuple):
validate_value = of_type(validate_value)
def validate(value):
if value == ():
return {}
of_type(dict)(value)
if validate_value:
for k, v in value.items():
try:
value[k] = validate_value(v)
except (TypeError, ValueError) as exc:
raise type(exc)(f"[{repr(k)}] {exc}")
return value
return validate
def repr(value):
return JsonObject(value)
dumps = json.dumps
loads = json.loads