scripts/python-skywater-pdk/skywater_pdk/utils.py - skywater-pdk - Git at Google

 #!/usr/bin/env python3
 # -*- coding: utf-8 -*-
 #
 # Copyright 2020 SkyWater PDK Authors
 #
 # Licensed under the Apache License, Version 2.0 (the "License");
 # you may not use this file except in compliance with the License.
 # You may obtain a copy of the License at
 #
 #     https://www.apache.org/licenses/LICENSE-2.0
 #
 # Unless required by applicable law or agreed to in writing, software
 # distributed under the License is distributed on an "AS IS" BASIS,
 # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 # See the License for the specific language governing permissions and
 # limitations under the License.
 #
 # SPDX-License-Identifier: Apache-2.0

 import dataclasses
 import dataclasses_json
 import functools
 import random
 import re
 import sys

 from dataclasses import dataclass
 from dataclasses_json import dataclass_json
 from enum import Flag
 from typing import Optional, Tuple, Any


 def dataclass_json_passthru_config(*args, **kw):
     return dataclasses.field(
         *args,
         metadata=dataclasses_json.config(
             encoder=lambda x: x.to_json(),
             #decoder=lambda x: x.from_json(),
         ),
         **kw,
     )

 def dataclass_json_passthru_sequence_config(*args, **kw):
     def to_json_sequence(s):
         if s is None:
             return None
         o = []
         for i in s:
             if hasattr(i, 'to_json'):
                 o.append(i.to_json())
             else:
                 o.append(i)
         return o

     return dataclasses.field(
         *args,
         metadata=dataclasses_json.config(
             encoder=to_json_sequence,
             #decoder=lambda x: x.from_json(),
         ),
         **kw,
     )


 def comparable_to_none(cls):
     """

     Examples
     --------

     >>> @comparable_to_none
     ... @dataclass(order=True)
     ... class A:
     ...     a: int = 0
     >>> @comparable_to_none
     ... @dataclass(order=True)
     ... class B:
     ...     b: Optional[A] = None
     >>> b0 = B()
     >>> repr(b0)
     'B(b=None)'
     >>> str(b0)
     'B(b=None)'
     >>> b1 = B(A())
     >>> repr(b1)
     'B(b=A(a=0))'
     >>> str(b1)
     'B(b=A(a=0))'
     >>> b2 = B(A(2))
     >>> repr(b2)
     'B(b=A(a=2))'
     >>> str(b2)
     'B(b=A(a=2))'
     >>> l = [b0, b1, b2, None]
     >>> for i in range(0, 3):
     ...     random.shuffle(l)
     ...     l.sort()
     ...     print(l)
     [None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]
     [None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]
     [None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]

     """
     class ComparableToNoneVersion(cls):
         def __ge__(self, other):
             if other is None:
                 return True
             return super().__ge__(other)
         def __gt__(self, other):
             if other is None:
                 return True
             return super().__gt__(other)
         def __le__(self, other):
             if other is None:
                 return False
             return super().__le__(other)
         def __lt__(self, other):
             if other is None:
                 return False
             return super().__lt__(other)
         def __eq__(self, other):
             if other is None:
                 return False
             return super().__eq__(other)
         def __hash__(self):
             return super().__hash__()
         def __repr__(self):
             s = super().__repr__()
             return s.replace('comparable_to_none.<locals>.ComparableToNoneVersion', cls.__name__)

     for a in functools.WRAPPER_ASSIGNMENTS:
         if not hasattr(cls, a):
             continue
         setattr(ComparableToNoneVersion, a, getattr(cls, a))

     return ComparableToNoneVersion


 def _is_optional_type(t):
     """

     Examples
     --------

     >>> _is_optional_type(Optional[int])
     True
     >>> _is_optional_type(Optional[Tuple])
     True
     >>> _is_optional_type(Any)
     False
     """
     return hasattr(t, "__args__") and len(t.__args__) == 2 and t.__args__[-1] is type(None)


 def _get_the_optional_type(t):
     """

     Examples
     --------

     >>> _get_the_optional_type(Optional[int])
     <class 'int'>
     >>> _get_the_optional_type(Optional[Tuple])
     typing.Tuple
     >>> class A:
     ...     pass
     >>> _get_the_optional_type(Optional[A])
     <class '__main__.A'>
     >>> _get_type_name(_get_the_optional_type(Optional[A]))
     'A'
     """
     assert _is_optional_type(t), t
     return t.__args__[0]


 def _get_type_name(ot):
     """

     Examples
     --------

     >>> _get_type_name(int)
     'int'
     >>> _get_type_name(Tuple)
     'Tuple'
     >>> _get_type_name(Optional[Tuple])
     'typing.Union[typing.Tuple, NoneType]'
     """
     if hasattr(ot, "_name") and ot._name:
         return ot._name
     elif hasattr(ot, "__name__") and ot.__name__:
         return ot.__name__
     else:
         return str(ot)


 class OrderedFlag(Flag):
     def __ge__(self, other):
         if other is None:
             return True
         if self.__class__ is other.__class__:
             return self.value >= other.value
         return NotImplemented
     def __gt__(self, other):
         if other is None:
             return True
         if self.__class__ is other.__class__:
             return self.value > other.value
         return NotImplemented
     def __le__(self, other):
         if other is None:
             return False
         if self.__class__ is other.__class__:
             return self.value <= other.value
         return NotImplemented
     def __lt__(self, other):
         if other is None:
             return False
         if self.__class__ is other.__class__:
             return self.value < other.value
         return NotImplemented
     def __eq__(self, other):
         if other is None:
             return False
         if self.__class__ is other.__class__:
             return self.value == other.value
         return NotImplemented
     def __hash__(self):
         return hash(self._name_)


 def extract_numbers(s):
     """Create tuple with sequences of numbers converted to ints.

     >>> extract_numbers("pwr_template13x10")
     ('pwr_template', 13, 'x', 10)
     >>> extract_numbers("vio_10_10_1")
     ('vio_', 10, '_', 10, '_', 1)
     """
     bits = []
     for m in re.finditer("([^0-9]*)([0-9]*)", s):
         if m.group(1):
             bits.append(m.group(1))
         if m.group(2):
             bits.append(int(m.group(2)))
     return tuple(bits)


 def sortable_extracted_numbers(s):
     """Create output which is sortable by numeric values in string.

     >>> sortable_extracted_numbers("pwr_template13x10")
     ('pwr_template', '0000000013', 'x', '0000000010')
     >>> sortable_extracted_numbers("vio_10_10_1")
     ('vio_', '0000000010', '_', '0000000010', '_', '0000000001')

     >>> l = ['a1', 'a2b2', 'a10b10', 'b2', 'a8b50', 'a10b1']
     >>> l.sort()
     >>> print('\\n'.join(l))
     a1
     a10b1
     a10b10
     a2b2
     a8b50
     b2
     >>> l.sort(key=sortable_extracted_numbers)
     >>> print('\\n'.join(l))
     a1
     a2b2
     a8b50
     a10b1
     a10b10
     b2

     """
     zero_pad_str = '%010i'
     bits = extract_numbers(s)
     o = []

     for b in bits:
         if not isinstance(b, str):
             assert isinstance(b, int), (b, bits)
             assert len(str(b)) < len(zero_pad_str % 0)
             b = zero_pad_str % b
         o.append(b)
     return tuple(o)


 if __name__ == "__main__":
     import doctest
     doctest.testmod()
	#!/usr/bin/env python3
	# -- coding: utf-8 --
	#
	# Copyright 2020 SkyWater PDK Authors
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# https://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.
	#
	# SPDX-License-Identifier: Apache-2.0

	import dataclasses
	import dataclasses_json
	import functools
	import random
	import re
	import sys

	from dataclasses import dataclass
	from dataclasses_json import dataclass_json
	from enum import Flag
	from typing import Optional, Tuple, Any


	def dataclass_json_passthru_config(args, *kw):
	return dataclasses.field(
	*args,
	metadata=dataclasses_json.config(
	encoder=lambda x: x.to_json(),
	#decoder=lambda x: x.from_json(),
	),
	**kw,
	)

	def dataclass_json_passthru_sequence_config(args, *kw):
	def to_json_sequence(s):
	if s is None:
	return None
	o = []
	for i in s:
	if hasattr(i, 'to_json'):
	o.append(i.to_json())
	else:
	o.append(i)
	return o

	return dataclasses.field(
	*args,
	metadata=dataclasses_json.config(
	encoder=to_json_sequence,
	#decoder=lambda x: x.from_json(),
	),
	**kw,
	)



	def comparable_to_none(cls):
	"""

	Examples
	--------

	>>> @comparable_to_none
	... @dataclass(order=True)
	... class A:
	... a: int = 0
	>>> @comparable_to_none
	... @dataclass(order=True)
	... class B:
	... b: Optional[A] = None
	>>> b0 = B()
	>>> repr(b0)
	'B(b=None)'
	>>> str(b0)
	'B(b=None)'
	>>> b1 = B(A())
	>>> repr(b1)
	'B(b=A(a=0))'
	>>> str(b1)
	'B(b=A(a=0))'
	>>> b2 = B(A(2))
	>>> repr(b2)
	'B(b=A(a=2))'
	>>> str(b2)
	'B(b=A(a=2))'
	>>> l = [b0, b1, b2, None]
	>>> for i in range(0, 3):
	... random.shuffle(l)
	... l.sort()
	... print(l)
	[None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]
	[None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]
	[None, B(b=None), B(b=A(a=0)), B(b=A(a=2))]

	"""
	class ComparableToNoneVersion(cls):
	def __ge__(self, other):
	if other is None:
	return True
	return super().__ge__(other)
	def __gt__(self, other):
	if other is None:
	return True
	return super().__gt__(other)
	def __le__(self, other):
	if other is None:
	return False
	return super().__le__(other)
	def __lt__(self, other):
	if other is None:
	return False
	return super().__lt__(other)
	def __eq__(self, other):
	if other is None:
	return False
	return super().__eq__(other)
	def __hash__(self):
	return super().__hash__()
	def __repr__(self):
	s = super().__repr__()
	return s.replace('comparable_to_none.<locals>.ComparableToNoneVersion', cls.__name__)

	for a in functools.WRAPPER_ASSIGNMENTS:
	if not hasattr(cls, a):
	continue
	setattr(ComparableToNoneVersion, a, getattr(cls, a))

	return ComparableToNoneVersion


	def _is_optional_type(t):
	"""

	Examples
	--------

	>>> _is_optional_type(Optional[int])
	True
	>>> _is_optional_type(Optional[Tuple])
	True
	>>> _is_optional_type(Any)
	False
	"""
	return hasattr(t, "__args__") and len(t.__args__) == 2 and t.__args__[-1] is type(None)


	def _get_the_optional_type(t):
	"""

	Examples
	--------

	>>> _get_the_optional_type(Optional[int])
	<class 'int'>
	>>> _get_the_optional_type(Optional[Tuple])
	typing.Tuple
	>>> class A:
	... pass
	>>> _get_the_optional_type(Optional[A])
	<class '__main__.A'>
	>>> _get_type_name(_get_the_optional_type(Optional[A]))
	'A'
	"""
	assert _is_optional_type(t), t
	return t.__args__[0]


	def _get_type_name(ot):
	"""

	Examples
	--------

	>>> _get_type_name(int)
	'int'
	>>> _get_type_name(Tuple)
	'Tuple'
	>>> _get_type_name(Optional[Tuple])
	'typing.Union[typing.Tuple, NoneType]'
	"""
	if hasattr(ot, "_name") and ot._name:
	return ot._name
	elif hasattr(ot, "__name__") and ot.__name__:
	return ot.__name__
	else:
	return str(ot)


	class OrderedFlag(Flag):
	def __ge__(self, other):
	if other is None:
	return True
	if self.__class__ is other.__class__:
	return self.value >= other.value
	return NotImplemented
	def __gt__(self, other):
	if other is None:
	return True
	if self.__class__ is other.__class__:
	return self.value > other.value
	return NotImplemented
	def __le__(self, other):
	if other is None:
	return False
	if self.__class__ is other.__class__:
	return self.value <= other.value
	return NotImplemented
	def __lt__(self, other):
	if other is None:
	return False
	if self.__class__ is other.__class__:
	return self.value < other.value
	return NotImplemented
	def __eq__(self, other):
	if other is None:
	return False
	if self.__class__ is other.__class__:
	return self.value == other.value
	return NotImplemented
	def __hash__(self):
	return hash(self._name_)


	def extract_numbers(s):
	"""Create tuple with sequences of numbers converted to ints.

	>>> extract_numbers("pwr_template13x10")
	('pwr_template', 13, 'x', 10)
	>>> extract_numbers("vio_10_10_1")
	('vio_', 10, '_', 10, '_', 1)
	"""
	bits = []
	for m in re.finditer("([^0-9])([0-9])", s):
	if m.group(1):
	bits.append(m.group(1))
	if m.group(2):
	bits.append(int(m.group(2)))
	return tuple(bits)


	def sortable_extracted_numbers(s):
	"""Create output which is sortable by numeric values in string.

	>>> sortable_extracted_numbers("pwr_template13x10")
	('pwr_template', '0000000013', 'x', '0000000010')
	>>> sortable_extracted_numbers("vio_10_10_1")
	('vio_', '0000000010', '_', '0000000010', '_', '0000000001')

	>>> l = ['a1', 'a2b2', 'a10b10', 'b2', 'a8b50', 'a10b1']
	>>> l.sort()
	>>> print('\\n'.join(l))
	a1
	a10b1
	a10b10
	a2b2
	a8b50
	b2
	>>> l.sort(key=sortable_extracted_numbers)
	>>> print('\\n'.join(l))
	a1
	a2b2
	a8b50
	a10b1
	a10b10
	b2

	"""
	zero_pad_str = '%010i'
	bits = extract_numbers(s)
	o = []

	for b in bits:
	if not isinstance(b, str):
	assert isinstance(b, int), (b, bits)
	assert len(str(b)) < len(zero_pad_str % 0)
	b = zero_pad_str % b
	o.append(b)
	return tuple(o)



	if __name__ == "__main__":
	import doctest
	doctest.testmod()