2022.10.9 - Enumerable & List (#105) #106
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@ -1,47 +0,0 @@
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from abc import abstractmethod, ABC
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from typing import Union
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from cpl_query.base.sequence_values import SequenceValues
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class SequenceABC(ABC):
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@abstractmethod
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def __init__(self, t: type = None, values: Union[list, iter] = None):
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ABC.__init__(self)
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if t == any:
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t = None
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elif t is None and values is not None:
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t = type(values[0])
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self._type = t
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self._values = SequenceValues(values, t)
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def __len__(self):
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return len(self._values)
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def __iter__(self):
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return iter(self._values)
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def next(self):
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return next(self._values)
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def __next__(self):
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return self.next()
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def __repr__(self):
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return f'<{type(self).__name__} {list(self).__repr__()}>'
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@property
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def type(self) -> type:
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return self._type
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def to_list(self) -> list:
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r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
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Returns
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-------
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:class: `list`
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"""
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return [x for x in self]
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@ -4,16 +4,6 @@ import itertools
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from cpl_query.exceptions import IndexOutOfRangeException
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class SequenceEnd:
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def __init__(self):
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self.is_ended = False
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def set_end(self, value: bool) -> 'SequenceEnd':
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self.is_ended = value
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return self
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class SequenceValues:
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def __init__(self, data, _t: type):
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if data is None:
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@ -2,18 +2,38 @@ from abc import abstractmethod
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from typing import Iterable
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from cpl_query.base.queryable_abc import QueryableABC
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from cpl_query.base.sequence_abc import SequenceABC
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from cpl_query.base.sequence_values import SequenceValues
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class EnumerableABC(SequenceABC, QueryableABC):
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class EnumerableABC(QueryableABC):
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r"""ABC to define functions on list
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"""
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@abstractmethod
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def __init__(self, t: type = None, values: Iterable = None):
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SequenceABC.__init__(self, t, values)
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self._remove_error_check = True
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def __init__(self, t: type = None, values: list = None):
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if t == any or t is None and values is not None:
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t = type(values[0])
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self._type, self._values, self._remove_error_check = t, SequenceValues(values, t), True
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def __len__(self):
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return len(self._values)
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def __iter__(self):
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return iter(self._values)
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def next(self):
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return next(self._values)
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def __next__(self):
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return self.next()
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def __repr__(self):
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return f'<{type(self).__name__} {list(self).__repr__()}>'
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@property
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def type(self) -> type:
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return self._type
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def set_remove_error_check(self, _value: bool):
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r"""Set flag to check if element exists before removing
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@ -75,3 +95,12 @@ class EnumerableABC(SequenceABC, QueryableABC):
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"""
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from cpl_query.iterable.iterable import Iterable
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return Iterable(self._type, self.to_list())
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def to_list(self) -> list:
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r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
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Returns
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-------
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:class: `list`
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"""
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return [x for x in self]
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@ -3,13 +3,12 @@ from typing import Iterable as IterableType
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from cpl_query.iterable.iterable import Iterable
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class List(Iterable, list):
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class List(Iterable):
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r"""Implementation of :class: `cpl_query.extension.iterable.Iterable`
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"""
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def __init__(self, t: type = None, values: IterableType = None):
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Iterable.__init__(self, t, values)
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list.__init__(self)
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def to_enumerable(self) -> 'EnumerableABC':
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r"""Converts :class: `cpl_query.iterable.iterable_abc.IterableABC` to :class: `cpl_query.enumerable.enumerable_abc.EnumerableABC`
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@ -2,31 +2,32 @@ from abc import abstractmethod
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from typing import Iterable
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from cpl_query.base.queryable_abc import QueryableABC
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from cpl_query.base.sequence_abc import SequenceABC
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from cpl_query.base.sequence_values import SequenceValues
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class IterableABC(SequenceABC, QueryableABC):
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class IterableABC(list, QueryableABC):
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r"""ABC to define functions on list
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"""
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@abstractmethod
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def __init__(self, t: type = None, values: Iterable = None):
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SequenceABC.__init__(self, t, values)
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self._type = t
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list.__init__(self, [] if values is None else values)
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def __getitem__(self, n) -> object:
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return self.to_list().__getitem__(n)
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def __repr__(self):
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return f'<{type(self).__name__} {list(self).__repr__()}>'
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def __delitem__(self, i: int):
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"""Delete an item"""
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_l = self.to_list()
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del _l[i]
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self._values = SequenceValues(_l, self._type)
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@property
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def type(self) -> type:
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return self._type
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def __setitem__(self, i: int, value):
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_l = self.to_list()
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_l.__setitem__(i, value)
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self._values = SequenceValues(_l, self._type)
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def to_list(self) -> list:
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r"""Converts :class: `cpl_query.base.sequence_abc.SequenceABC` to :class: `list`
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Returns
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-------
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:class: `list`
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"""
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return [x for x in self]
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def __str__(self):
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return str(self.to_list())
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@ -44,7 +45,8 @@ class IterableABC(SequenceABC, QueryableABC):
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if len(self) == 0 and self._type is None:
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self._type = type(__object)
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self._values = SequenceValues([*self._values, __object], self._type)
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# self._values = SequenceValues([*self._values, __object], self._type)
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super().append(__object)
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def extend(self, __iterable: Iterable) -> 'IterableABC':
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r"""Adds elements of given list to list
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@ -3,11 +3,10 @@ import timeit
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import unittest
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from cpl_query.enumerable import Enumerable
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from cpl_query.extension.list import List
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from cpl_query.iterable import Iterable
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VALUES = 1000
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COUNT = 100
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COUNT = 50
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class PerformanceTestCase(unittest.TestCase):
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@ -19,27 +18,26 @@ class PerformanceTestCase(unittest.TestCase):
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self.values.append(i)
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i += 1
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# def test_range(self):
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# default = timeit.timeit(lambda: list(self.values), number=COUNT)
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# enumerable = timeit.timeit(lambda: Enumerable(int, self.values), number=COUNT)
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# iterable = timeit.timeit(lambda: Iterable(int, self.values), number=COUNT)
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#
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# print(f'd: {default}')
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# print(f'e: {enumerable}')
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# print(f'i: {iterable}')
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#
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# self.assertLess(default, enumerable)
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# self.assertLess(default, iterable)
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def test_range(self):
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default = timeit.timeit(lambda: list(self.values), number=COUNT)
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enumerable = timeit.timeit(lambda: Enumerable(int, self.values), number=COUNT)
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iterable = timeit.timeit(lambda: Iterable(int, self.values), number=COUNT)
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print(f'd: {default}')
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print(f'i: {iterable}')
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print(f'e: {enumerable}')
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self.assertLess(default, enumerable)
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self.assertLess(default, iterable)
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def test_where_single(self):
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print(Enumerable(int, self.values).where(lambda x: x == COUNT).single_or_default())
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# default = timeit.timeit(lambda: [x for x in list(self.values) if x == 50], number=COUNT)
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# enumerable = timeit.timeit(lambda: Enumerable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
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# iterable = timeit.timeit(lambda: Iterable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
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#
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# print(f'd: {default}')
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# print(f'e: {enumerable}')
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# print(f'i: {iterable}')
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#
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# self.assertLess(default, enumerable)
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# self.assertLess(default, iterable)
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default = timeit.timeit(lambda: [x for x in list(self.values) if x == 50], number=COUNT)
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iterable = timeit.timeit(lambda: Iterable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
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enumerable = timeit.timeit(lambda: Enumerable(int, self.values).where(lambda x: x == 50).single(), number=COUNT)
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print(f'd: {default}')
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print(f'i: {iterable}')
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print(f'e: {enumerable}')
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self.assertLess(default, enumerable)
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self.assertLess(default, iterable)
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