so_magic.utils.linear_mapping.MapOnLinearSpace.from_scale() - Code Metrics - Inspection of "feat(linear_mapping): add the ability to perform l..." - boromir674/so-magic - Measure and Improve Code Quality continuously with Scrutinizer

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Push — linear-mapping ( 52ee5f )

by Konstantinos

created 2020-09-21 09:24 UTC

MapOnLinearSpace.from_scale() A

↳ Parent: so_magic.utils.linear_mapping

Complexity

Conditions

Size

Total Lines	3
Code Lines	4

Duplication

Lines	0
Ratio	0 %

Importance

Changes

Metric	Value
cc	1
eloc	4
nop	2
dl	0
loc	3
rs	10
c	0
b	0
f	0

import attr

@attr.s
class LinearScale:
    lower_bound = attr.ib(init=True, type=int)
    upper_bound = attr.ib(init=True, type=int)

    @upper_bound.validator
    def __validate_scale(self, attribute, upper_bound):
        if upper_bound <= self.lower_bound:
            raise ValueError(
                f'The linear scale, should have lower_bound < upper_bound. Instead lower_bound={self.lower_bound}, upper_bound={upper_bound}')

    def __len__(self):
        return 2

    def __getitem__(self, item):
        if item == 0:
            return self.lower_bound
        if item == 1:
            return self.upper_bound
        raise IndexError(
            f'You can only request the 0 (lower bound) or 1 (upper bound) indexed item on the linear scale. You requested {item}')

    @classmethod
    def create(cls, two_element_list_like):
        return LinearScale(*[_ for _ in two_element_list_like])


@attr.s
class MapOnLinearSpace:
    _from_scale = attr.ib(init=True, type=LinearScale)
    _target_scale = attr.ib(init=True, type=LinearScale)
    _reverse = attr.ib(init=True, default=False, type=bool)
    _transform_callback = attr.ib(init=False,
                                  default=attr.Factory(lambda self: self._get_transform_callback(), takes_self=True))

    @classmethod
    def universal_constructor(cls, from_scale, target_scale, reverse=False):
        return MapOnLinearSpace(LinearScale.create(from_scale),
                                LinearScale.create(target_scale),
                                reverse)

    def __transform_inverted(self, number):
        # F(x) = { ( to_scale_min - to_scale_max ) * x + to_scale_max * from_scale_max - to_scale_min * from_scale_min }  / ( from_scale_max - from_scale_min )
        return ( (self._target_scale.lower_bound - self._target_scale.upper_bound) * number + self._target_scale.upper_bound * self._from_scale.upper_bound - self._target_scale.lower_bound * self._from_scale.lower_bound ) / (
               self._from_scale.upper_bound - self._from_scale.lower_bound)

    def __transform(self, number):
        return ((self._target_scale.upper_bound - self._target_scale.lower_bound) * number + self._target_scale.lower_bound * self._from_scale.upper_bound - self._target_scale.lower_bound * self._from_scale.lower_bound) / (self._from_scale.upper_bound - self._from_scale.lower_bound)

    def _get_transform_callback(self):
        if self._reverse:
            return self.__transform_inverted
        return self.__transform

    def transform(self, number):
        """Transform the input number to a different linear scale
        """
        return self._transform_callback(number)

    @property
    def from_scale(self):
        return self._from_scale

    @from_scale.setter
    def from_scale(self, from_scale):
        self._from_scale = LinearScale.create(from_scale)
        self._transform_callback = self._get_transform_callback()

    @property
    def target_scale(self):
        return self._target_scale

    @target_scale.setter
    def target_scale(self, target_scale):
        self._target_scale = LinearScale.create(target_scale)
        self._transform_callback = self._get_transform_callback()

    @property
    def reverse(self):
        return self._reverse

    @reverse.setter
    def reverse(self, reverse):
        self._reverse = reverse
        self._transform_callback = self._get_transform_callback()


1			import attr
2
3			@attr.s
4			class LinearScale:
5			lower_bound = attr.ib(init=True, type=int)
6			upper_bound = attr.ib(init=True, type=int)
7
8			@upper_bound.validator
9			def __validate_scale(self, attribute, upper_bound):
10			if upper_bound <= self.lower_bound:
11			raise ValueError(
12			f'The linear scale, should have lower_bound < upper_bound. Instead lower_bound={self.lower_bound}, upper_bound={upper_bound}')
13
14			def __len__(self):
15			return 2
16
17			def __getitem__(self, item):
18			if item == 0:
19			return self.lower_bound
20			if item == 1:
21			return self.upper_bound
22			raise IndexError(
23			f'You can only request the 0 (lower bound) or 1 (upper bound) indexed item on the linear scale. You requested {item}')
24
25			@classmethod
26			def create(cls, two_element_list_like):
27			return LinearScale(*[_ for _ in two_element_list_like])
28
29
30			@attr.s
31			class MapOnLinearSpace:
32			_from_scale = attr.ib(init=True, type=LinearScale)
33			_target_scale = attr.ib(init=True, type=LinearScale)
34			_reverse = attr.ib(init=True, default=False, type=bool)
35			_transform_callback = attr.ib(init=False,
36			default=attr.Factory(lambda self: self._get_transform_callback(), takes_self=True))
37
38			@classmethod
39			def universal_constructor(cls, from_scale, target_scale, reverse=False):
40			return MapOnLinearSpace(LinearScale.create(from_scale),
41			LinearScale.create(target_scale),
42			reverse)
43
44			def __transform_inverted(self, number):
45			# F(x) = { ( to_scale_min - to_scale_max ) * x + to_scale_max * from_scale_max - to_scale_min * from_scale_min } / ( from_scale_max - from_scale_min )
46			return ( (self._target_scale.lower_bound - self._target_scale.upper_bound) * number + self._target_scale.upper_bound * self._from_scale.upper_bound - self._target_scale.lower_bound * self._from_scale.lower_bound ) / (
47			self._from_scale.upper_bound - self._from_scale.lower_bound)
48
49			def __transform(self, number):
50			return ((self._target_scale.upper_bound - self._target_scale.lower_bound) * number + self._target_scale.lower_bound * self._from_scale.upper_bound - self._target_scale.lower_bound * self._from_scale.lower_bound) / (self._from_scale.upper_bound - self._from_scale.lower_bound)
51
52			def _get_transform_callback(self):
53			if self._reverse:
54			return self.__transform_inverted
55			return self.__transform
56
57			def transform(self, number):
58			"""Transform the input number to a different linear scale
59			"""
60			return self._transform_callback(number)
61
62			@property
63			def from_scale(self):
64			return self._from_scale
65
66			@from_scale.setter
67			def from_scale(self, from_scale):
68			self._from_scale = LinearScale.create(from_scale)
69			self._transform_callback = self._get_transform_callback()
70
71			@property
72			def target_scale(self):
73			return self._target_scale
74
75			@target_scale.setter
76			def target_scale(self, target_scale):
77			self._target_scale = LinearScale.create(target_scale)
78			self._transform_callback = self._get_transform_callback()
79
80			@property
81			def reverse(self):
82			return self._reverse
83
84			@reverse.setter
85			def reverse(self, reverse):
86			self._reverse = reverse
87			self._transform_callback = self._get_transform_callback()
88

boromir674 / so-magic

Push — linear-mapping ( 52ee5f )

MapOnLinearSpace.from_scale() A

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