typish._classes._LiteralMeta.__getattribute__() - Code Metrics - Inspection of "Merge pull request #7 from ramonhagenaars/Release/..." - ramonhagenaars/typish - Measure and Improve Code Quality continuously with Scrutinizer

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Push — master ( 781642...0cf0fb )

by Ramon

created 2020-03-30 20:11 UTC

typish._classes._LiteralMeta.getattribute() A

↳ Parent: typish._classes

Complexity

Conditions

Size

Total Lines	18
Code Lines	10

Duplication

Lines	18
Ratio	100 %

Importance

Changes

Metric	Value
cc	4
eloc	10
nop	2
dl	18
loc	18
rs	9.9
c	0
b	0
f	0

"""
PRIVATE MODULE: do not import (from) it directly.

This module contains class implementations.
"""
import types
from collections import OrderedDict
from typing import Any, Callable, Dict, Tuple, Optional, Union

from typish._functions import (
    get_type,
    subclass_of,
    instance_of,
    get_args_and_return_type,
    is_type_annotation,
)


class _SubscribedType(type):
    """
    This class is a placeholder to let the IDE know the attributes of the
    returned type after a __getitem__.
    """
    __origin__ = None
    __args__ = None


class SubscriptableType(type):

    """
    This metaclass will allow a type to become subscriptable.

    >>> class SomeType(metaclass=SubscriptableType):
    ...     pass
    >>> SomeTypeSub = SomeType['some args']
    >>> SomeTypeSub.__args__
    'some args'
    >>> SomeTypeSub.__origin__.__name__
    'SomeType'
    """
    def __init_subclass__(mcs, **kwargs):
        mcs._hash = None
        mcs.__args__ = None
        mcs.__origin__ = None

    def __getitem__(self, item) -> _SubscribedType:
        body = {
            **self.__dict__,
            '__args__': item,
            '__origin__': self,
        }
        bases = self, *self.__bases__
        result = type(self.__name__, bases, body)
        if hasattr(result, '_after_subscription'):
            # TODO check if _after_subscription is static
            result._after_subscription(item)
        return result

    def __eq__(self, other):
        self_args = getattr(self, '__args__', None)
        self_origin = getattr(self, '__origin__', None)
        other_args = getattr(other, '__args__', None)
        other_origin = getattr(other, '__origin__', None)
        return self_args == other_args and self_origin == other_origin

    def __hash__(self):
        if not getattr(self, '_hash', None):
            self._hash = hash('{}{}'.format(self.__origin__, self.__args__))
        return self._hash


class _SomethingMeta(SubscriptableType):

    """
    This metaclass is coupled to ``Interface``.
    """
    def __instancecheck__(self, instance: object) -> bool:
        # Check if all attributes from self.signature are also present in
        # instance and also check that their types correspond.
        sig = self.signature()
        for key in sig:
            attr = getattr(instance, key, None)
            if not attr or not instance_of(attr, sig[key]):
                return False
        return True

    def __subclasscheck__(self, subclass: type) -> bool:
        # If an instance of type subclass is an instance of self, then subclass
        # is a sub class of self.
        self_sig = self.signature()
        other_sig = Something.like(subclass).signature()
        for attr in self_sig:
            if attr in other_sig:
                attr_sig = other_sig[attr]
                if (not isinstance(subclass.__dict__[attr], staticmethod)
                        and not isinstance(subclass.__dict__[attr], classmethod)
                        and subclass_of(attr_sig, Callable)):
                    # The attr must be a regular method or class method, so the
                    # first parameter should be ignored.
                    args, rt = get_args_and_return_type(attr_sig)
                    attr_sig = Callable[list(args[1:]), rt]
                if not subclass_of(attr_sig, self_sig[attr]):
                    return False
        return True

    def __eq__(self, other: 'Something') -> bool:
        return (isinstance(other, _SomethingMeta)
                and self.signature() == other.signature())

    def __repr__(self):
        sig = self.signature()
        sig_ = ', '.join(["'{}': {}".format(k, self._type_repr(sig[k]))
                          for k in sig])
        return 'typish.Something[{}]'.format(sig_)

    def __hash__(self):
        # This explicit super call is required for Python 3.5 and 3.6.
        return super.__hash__(self)

    def _type_repr(self, obj):
        """Return the repr() of an object, special-casing types (internal helper).

        If obj is a type, we return a shorter version than the default
        type.__repr__, based on the module and qualified name, which is
        typically enough to uniquely identify a type.  For everything
        else, we fall back on repr(obj).
        """
        if isinstance(obj, type) and not issubclass(obj, Callable):
            if obj.__module__ == 'builtins':
                return obj.__qualname__
            return '{}.{}'.format(obj.__module__, obj.__qualname__)
        if obj is ...:
            return '...'
        if isinstance(obj, types.FunctionType):
            return obj.__name__
        return repr(obj)


class Something(type, metaclass=_SomethingMeta):

    """
    This class allows one to define an interface for something that has some
    attributes, such as objects or classes or maybe even modules.
    """
    @classmethod
    def signature(mcs) -> Dict[str, type]:
        """
        Return the signature of this ``Something`` as a dict.
        :return: a dict with attribute names as keys and types as values.
        """
        result = OrderedDict()
        args = mcs.__args__
        if isinstance(mcs.__args__, slice):
            args = (mcs.__args__,)

        arg_keys = sorted(args)
        if isinstance(mcs.__args__, dict):
            for key in arg_keys:
                result[key] = mcs.__args__[key]
        else:
            for slice_ in arg_keys:
                result[slice_.start] = slice_.stop
        return result

    def __getattr__(cls, item):
        # This method exists solely to fool the IDE into believing that
        # Something can have any attribute.
        return type.__getattr__(cls, item)

    @staticmethod
    def like(obj: Any, exclude_privates: bool = True) -> 'Something':
        """
        Return a ``Something`` for the given ``obj``.
        :param obj: the object of which a ``Something`` is to be made.
        :param exclude_privates: if ``True``, private variables are excluded.
        :return: a ``Something`` that corresponds to ``obj``.
        """
        signature = {attr: get_type(getattr(obj, attr)) for attr in dir(obj)
                     if not exclude_privates or not attr.startswith('_')}
        return Something[signature]


class ClsDict(dict):

    """
    ClsDict is a dict that accepts (only) types as keys and will return its
    values depending on instance checks rather than equality checks.
    """
    def __new__(cls, *args, **kwargs):
        """
        Construct a new instance of ``ClsDict``.
        :param args: a dict.
        :param kwargs: any kwargs that ``dict`` accepts.
        :return: a ``ClsDict``.
        """
        if len(args) > 1:
            raise TypeError('TypeDict accepts only one positional argument, '
                            'which must be a dict.')
        if args and not isinstance(args[0], dict):
            raise TypeError('TypeDict accepts only a dict as positional '
                            'argument.')
        if not all([is_type_annotation(key) for key in args[0]]):
            raise TypeError('The given dict must only hold types as keys.')
        return super().__new__(cls, args[0], **kwargs)

    def __getitem__(self, item: Any) -> Any:
        """
        Return the value of the first encounter of a key for which
        ``is_instance(item, key)`` holds ``True``.
        :param item: any item.
        :return: the value of which the type corresponds with item.
        """
        item_type = get_type(item, use_union=True)
        for key, value in self.items():
            if subclass_of(item_type, key):
                return value
        raise KeyError('No match for {}'.format(item))

    def get(self, item: Any, default: Any = None) -> Optional[Any]:
        try:
            return self.__getitem__(item)
        except KeyError:
            return default


class ClsFunction:

    """
    ClsDict is a callable that takes a ClsDict or a dict. When called, it uses
    the first argument to check for the right function in its body, executes it
    and returns the result.
    """
    def __init__(self, body: Union[ClsDict, dict]):
        if not instance_of(body, Union[ClsDict, dict]):
            raise TypeError('ClsFunction expects a ClsDict or a dict that can '
                            'be turned to a ClsDict.')
        self.body = body
        if not isinstance(body, ClsDict):
            self.body = ClsDict(body)

    def understands(self, item: Any) -> bool:
        """
        Check to see if this ClsFunction can take item.
        :param item: the item that is checked.
        :return: True if this ClsFunction can take item.
        """
        try:
            self.body[item]
            return True
        except KeyError:
            return False

    def __call__(self, *args, **kwargs):
        if not args:
            raise TypeError('ClsFunction must be called with at least 1 '
                            'positional argument.')
        callable_ = self.body[args[0]]
        try:
            return callable_(*args, **kwargs)
        except TypeError as err:
            raise TypeError('Unable to call function for \'{}\': {}'
                            .format(args[0], err.args[0]))


class _LiteralMeta(SubscriptableType):

    """
    A Metaclass that exists to serve Literal and alter the __args__ attribute.
    """
    def __getattribute__(cls, item):
        """
        This method makes sure that __args__ is a tuple, like with
        typing.Literal.
        :param item: the name of the attribute that is obtained.
        :return: the attribute.
        """
        if item == '__args__':
            try:
                result = SubscriptableType.__getattribute__(cls, item),
            except AttributeError:
                # In case of Python 3.5
                result = tuple()
        elif item == '__origin__':
            result = 'Literal'
        else:
            result = SubscriptableType.__getattribute__(cls, item)
        return result


class Literal(metaclass=_LiteralMeta):
    """
    This is a backwards compatible variant of typing.Literal (Python 3.8+).
    """
    _name = 'Literal'


TypingType = Something['__origin__': type, '__args__': Tuple[type, ...]]


1		"""
2		PRIVATE MODULE: do not import (from) it directly.
3
4		This module contains class implementations.
5		"""
6		import types
7		from collections import OrderedDict
8		from typing import Any, Callable, Dict, Tuple, Optional, Union
9
10		from typish._functions import (
11		get_type,
12		subclass_of,
13		instance_of,
14		get_args_and_return_type,
15		is_type_annotation,
16		)
17
18
19		class _SubscribedType(type):
20		"""
21		This class is a placeholder to let the IDE know the attributes of the
22		returned type after a __getitem__.
23		"""
24		__origin__ = None
25		__args__ = None
26
27
28	View Code Duplication	class SubscriptableType(type):
		0 ignored issues – show Duplication introduced 2020-02-29 20:49 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
29		"""
30		This metaclass will allow a type to become subscriptable.
31
32		>>> class SomeType(metaclass=SubscriptableType):
33		... pass
34		>>> SomeTypeSub = SomeType['some args']
35		>>> SomeTypeSub.__args__
36		'some args'
37		>>> SomeTypeSub.__origin__.__name__
38		'SomeType'
39		"""
40		def __init_subclass__(mcs, **kwargs):
41		mcs._hash = None
42		mcs.__args__ = None
43		mcs.__origin__ = None
44
45		def __getitem__(self, item) -> _SubscribedType:
46		body = {
47		**self.__dict__,
48		'__args__': item,
49		'__origin__': self,
50		}
51		bases = self, *self.__bases__
52		result = type(self.__name__, bases, body)
53		if hasattr(result, '_after_subscription'):
54		# TODO check if _after_subscription is static
55		result._after_subscription(item)
56		return result
57
58		def __eq__(self, other):
59		self_args = getattr(self, '__args__', None)
60		self_origin = getattr(self, '__origin__', None)
61		other_args = getattr(other, '__args__', None)
62		other_origin = getattr(other, '__origin__', None)
63		return self_args == other_args and self_origin == other_origin
64
65		def __hash__(self):
66		if not getattr(self, '_hash', None):
67		self._hash = hash('{}{}'.format(self.__origin__, self.__args__))
68		return self._hash
69
70
71	View Code Duplication	class _SomethingMeta(SubscriptableType):
		0 ignored issues – show Duplication introduced 2020-02-29 20:49 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
72		"""
73		This metaclass is coupled to ``Interface``.
74		"""
75		def __instancecheck__(self, instance: object) -> bool:
76		# Check if all attributes from self.signature are also present in
77		# instance and also check that their types correspond.
78		sig = self.signature()
79		for key in sig:
80		attr = getattr(instance, key, None)
81		if not attr or not instance_of(attr, sig[key]):
82		return False
83		return True
84
85		def __subclasscheck__(self, subclass: type) -> bool:
86		# If an instance of type subclass is an instance of self, then subclass
87		# is a sub class of self.
88		self_sig = self.signature()
89		other_sig = Something.like(subclass).signature()
90		for attr in self_sig:
91		if attr in other_sig:
92		attr_sig = other_sig[attr]
93		if (not isinstance(subclass.__dict__[attr], staticmethod)
94		and not isinstance(subclass.__dict__[attr], classmethod)
95		and subclass_of(attr_sig, Callable)):
96		# The attr must be a regular method or class method, so the
97		# first parameter should be ignored.
98		args, rt = get_args_and_return_type(attr_sig)
99		attr_sig = Callable[list(args[1:]), rt]
100		if not subclass_of(attr_sig, self_sig[attr]):
101		return False
102		return True
103
104		def __eq__(self, other: 'Something') -> bool:
105		return (isinstance(other, _SomethingMeta)
106		and self.signature() == other.signature())
107
108		def __repr__(self):
109		sig = self.signature()
110		sig_ = ', '.join(["'{}': {}".format(k, self._type_repr(sig[k]))
111		for k in sig])
112		return 'typish.Something[{}]'.format(sig_)
113
114		def __hash__(self):
115		# This explicit super call is required for Python 3.5 and 3.6.
116		return super.__hash__(self)
117
118		def _type_repr(self, obj):
119		"""Return the repr() of an object, special-casing types (internal helper).
120
121		If obj is a type, we return a shorter version than the default
122		type.__repr__, based on the module and qualified name, which is
123		typically enough to uniquely identify a type. For everything
124		else, we fall back on repr(obj).
125		"""
126		if isinstance(obj, type) and not issubclass(obj, Callable):
127		if obj.__module__ == 'builtins':
128		return obj.__qualname__
129		return '{}.{}'.format(obj.__module__, obj.__qualname__)
130		if obj is ...:
131		return '...'
132		if isinstance(obj, types.FunctionType):
133		return obj.__name__
134		return repr(obj)
135
136
137	View Code Duplication	class Something(type, metaclass=_SomethingMeta):
		0 ignored issues – show Duplication introduced 2020-02-29 20:49 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
138		"""
139		This class allows one to define an interface for something that has some
140		attributes, such as objects or classes or maybe even modules.
141		"""
142		@classmethod
143		def signature(mcs) -> Dict[str, type]:
144		"""
145		Return the signature of this ``Something`` as a dict.
146		:return: a dict with attribute names as keys and types as values.
147		"""
148		result = OrderedDict()
149		args = mcs.__args__
150		if isinstance(mcs.__args__, slice):
151		args = (mcs.__args__,)
152
153		arg_keys = sorted(args)
154		if isinstance(mcs.__args__, dict):
155		for key in arg_keys:
156		result[key] = mcs.__args__[key]
157		else:
158		for slice_ in arg_keys:
159		result[slice_.start] = slice_.stop
160		return result
161
162		def __getattr__(cls, item):
163		# This method exists solely to fool the IDE into believing that
164		# Something can have any attribute.
165		return type.__getattr__(cls, item)
166
167		@staticmethod
168		def like(obj: Any, exclude_privates: bool = True) -> 'Something':
169		"""
170		Return a ``Something`` for the given ``obj``.
171		:param obj: the object of which a ``Something`` is to be made.
172		:param exclude_privates: if ``True``, private variables are excluded.
173		:return: a ``Something`` that corresponds to ``obj``.
174		"""
175		signature = {attr: get_type(getattr(obj, attr)) for attr in dir(obj)
176		if not exclude_privates or not attr.startswith('_')}
177		return Something[signature]
178
179
180	View Code Duplication	class ClsDict(dict):
		0 ignored issues – show Duplication introduced 2020-03-15 14:41 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
181		"""
182		ClsDict is a dict that accepts (only) types as keys and will return its
183		values depending on instance checks rather than equality checks.
184		"""
185		def __new__(cls, args, *kwargs):
186		"""
187		Construct a new instance of ``ClsDict``.
188		:param args: a dict.
189		:param kwargs: any kwargs that ``dict`` accepts.
190		:return: a ``ClsDict``.
191		"""
192		if len(args) > 1:
193		raise TypeError('TypeDict accepts only one positional argument, '
194		'which must be a dict.')
195		if args and not isinstance(args[0], dict):
196		raise TypeError('TypeDict accepts only a dict as positional '
197		'argument.')
198		if not all([is_type_annotation(key) for key in args[0]]):
199		raise TypeError('The given dict must only hold types as keys.')
200		return super().__new__(cls, args[0], **kwargs)
201
202		def __getitem__(self, item: Any) -> Any:
203		"""
204		Return the value of the first encounter of a key for which
205		``is_instance(item, key)`` holds ``True``.
206		:param item: any item.
207		:return: the value of which the type corresponds with item.
208		"""
209		item_type = get_type(item, use_union=True)
210		for key, value in self.items():
211		if subclass_of(item_type, key):
212		return value
213		raise KeyError('No match for {}'.format(item))
214
215		def get(self, item: Any, default: Any = None) -> Optional[Any]:
216		try:
217		return self.__getitem__(item)
218		except KeyError:
219		return default
220
221
222	View Code Duplication	class ClsFunction:
		0 ignored issues – show Duplication introduced 2020-03-29 15:29 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
223		"""
224		ClsDict is a callable that takes a ClsDict or a dict. When called, it uses
225		the first argument to check for the right function in its body, executes it
226		and returns the result.
227		"""
228		def __init__(self, body: Union[ClsDict, dict]):
229		if not instance_of(body, Union[ClsDict, dict]):
230		raise TypeError('ClsFunction expects a ClsDict or a dict that can '
231		'be turned to a ClsDict.')
232		self.body = body
233		if not isinstance(body, ClsDict):
234		self.body = ClsDict(body)
235
236		def understands(self, item: Any) -> bool:
237		"""
238		Check to see if this ClsFunction can take item.
239		:param item: the item that is checked.
240		:return: True if this ClsFunction can take item.
241		"""
242		try:
243		self.body[item]
244		return True
245		except KeyError:
246		return False
247
248		def __call__(self, args, *kwargs):
249		if not args:
250		raise TypeError('ClsFunction must be called with at least 1 '
251		'positional argument.')
252		callable_ = self.body[args[0]]
253		try:
254		return callable_(args, *kwargs)
255		except TypeError as err:
256		raise TypeError('Unable to call function for \'{}\': {}'
257		.format(args[0], err.args[0]))
258
259
260	View Code Duplication	class _LiteralMeta(SubscriptableType):
		0 ignored issues – show Duplication introduced 2020-03-30 20:09 UTC by Report Bug Copy Issue Report This code seems to be duplicated in your project. Loading history...
261		"""
262		A Metaclass that exists to serve Literal and alter the __args__ attribute.
263		"""
264		def __getattribute__(cls, item):
265		"""
266		This method makes sure that __args__ is a tuple, like with
267		typing.Literal.
268		:param item: the name of the attribute that is obtained.
269		:return: the attribute.
270		"""
271		if item == '__args__':
272		try:
273		result = SubscriptableType.__getattribute__(cls, item),
274		except AttributeError:
275		# In case of Python 3.5
276		result = tuple()
277		elif item == '__origin__':
278		result = 'Literal'
279		else:
280		result = SubscriptableType.__getattribute__(cls, item)
281		return result
282
283
284		class Literal(metaclass=_LiteralMeta):
285		"""
286		This is a backwards compatible variant of typing.Literal (Python 3.8+).
287		"""
288		_name = 'Literal'
289
290
291		TypingType = Something['__origin__': type, '__args__': Tuple[type, ...]]
292

ramonhagenaars / typish

Push — master ( 781642...0cf0fb )

typish._classes._LiteralMeta.__getattribute__() A

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typish._classes._LiteralMeta.getattribute() A