hyperactive.optimizers.search_space.DictClass.__init__() - Code Metrics - Inspection of "V5 API rework" - SimonBlanke/Hyperactive - Measure and Improve Code Quality continuously with Scrutinizer

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Pull Request — master (#110)

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created 2025-05-03 22:21 UTC

DictClass.init() A

↳ Parent: hyperactive.optimizers.search_space

Complexity

Conditions

Size

Total Lines	2
Code Lines	2

Duplication

Lines	0
Ratio	0 %

Importance

Changes

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

# Author: Simon Blanke
# Email: [email protected]
# License: MIT License

import numpy as np


class DictClass:
    def __init__(self, search_space):
        self.search_space = search_space

    def __getitem__(self, key):
        return self.search_space[key]

    def keys(self):
        return self.search_space.keys()

    def values(self):
        return self.search_space.values()


class SearchSpace(DictClass):
    def __init__(self, search_space):
        super().__init__(search_space)
        self.search_space = search_space

        self.dim_keys = list(search_space.keys())
        self.values_l = list(self.search_space.values())

        positions = {}
        for key in search_space.keys():
            positions[key] = np.array(range(len(search_space[key])))
        self.positions = positions

        self.check_list()
        self.check_non_num_values()

        self.data_types = self.dim_types()
        self.func2str = self._create_num_str_ss()

    def __call__(self):
        return self.search_space

    def dim_types(self):
        data_types = {}
        for dim_key in self.dim_keys:
            dim_values = np.array(list(self.search_space[dim_key]))
            try:
                np.subtract(dim_values, dim_values)
                np.array(dim_values).searchsorted(dim_values)
            except:
                _type_ = "object"
            else:
                _type_ = "number"

            data_types[dim_key] = _type_
        return data_types

    def _create_num_str_ss(self):
        func2str = {}
        for dim_key in self.dim_keys:
            if self.data_types[dim_key] == "number":
                func2str[dim_key] = self.search_space[dim_key]
            else:
                func2str[dim_key] = []

                dim_values = self.search_space[dim_key]
                for value in dim_values:
                    try:
                        func_name = value.__name__
                    except:
                        func_name = value

                    func2str[dim_key].append(func_name)
        return func2str

    def check_list(self):
        for dim_key in self.dim_keys:
            search_dim = self.search_space[dim_key]

            err_msg = "\n Value in '{}' of search space dictionary must be of type list \n".format(
                dim_key
            )
            if not isinstance(search_dim, list):
                raise ValueError(err_msg)

    @staticmethod
    def is_function(value):
        try:
            value.__name__
        except:
            return False
        else:
            return True

    @staticmethod
    def is_number(value):
        try:
            float(value)
            value * 0.1
            value - 0.1
            value / 0.1
        except:
            return False
        else:
            return True

    def _string_or_object(self, dim_key, dim_values):
        for dim_value in dim_values:
            is_str = isinstance(dim_value, str)
            is_func = self.is_function(dim_value)
            is_number = self.is_number(dim_value)

            if not is_str and not is_func and not is_number:
                msg = "\n The value '{}' of type '{}' in the search space dimension '{}' must be number, string or function \n".format(
                    dim_value, type(dim_value), dim_key
                )
                raise ValueError(msg)

    def check_non_num_values(self):
        for dim_key in self.dim_keys:
            dim_values = np.array(list(self.search_space[dim_key]))

            try:
                np.subtract(dim_values, dim_values)
                np.array(dim_values).searchsorted(dim_values)
            except:
                self._string_or_object(dim_key, dim_values)
            else:
                if dim_values.ndim != 1:
                    msg = "Array-like object in '{}' must be one dimensional".format(
                        dim_key
                    )
                    raise ValueError(msg)


1			# Author: Simon Blanke
2			# Email: [email protected]
3			# License: MIT License
4
5			import numpy as np
6
7
8			class DictClass:
9			def __init__(self, search_space):
10			self.search_space = search_space
11
12			def __getitem__(self, key):
13			return self.search_space[key]
14
15			def keys(self):
16			return self.search_space.keys()
17
18			def values(self):
19			return self.search_space.values()
20
21
22			class SearchSpace(DictClass):
23			def __init__(self, search_space):
24			super().__init__(search_space)
25			self.search_space = search_space
26
27			self.dim_keys = list(search_space.keys())
28			self.values_l = list(self.search_space.values())
29
30			positions = {}
31			for key in search_space.keys():
32			positions[key] = np.array(range(len(search_space[key])))
33			self.positions = positions
34
35			self.check_list()
36			self.check_non_num_values()
37
38			self.data_types = self.dim_types()
39			self.func2str = self._create_num_str_ss()
40
41			def __call__(self):
42			return self.search_space
43
44			def dim_types(self):
45			data_types = {}
46			for dim_key in self.dim_keys:
47			dim_values = np.array(list(self.search_space[dim_key]))
48			try:
49			np.subtract(dim_values, dim_values)
50			np.array(dim_values).searchsorted(dim_values)
51			except:
52			_type_ = "object"
53			else:
54			_type_ = "number"
55
56			data_types[dim_key] = _type_
57			return data_types
58
59			def _create_num_str_ss(self):
60			func2str = {}
61			for dim_key in self.dim_keys:
62			if self.data_types[dim_key] == "number":
63			func2str[dim_key] = self.search_space[dim_key]
64			else:
65			func2str[dim_key] = []
66
67			dim_values = self.search_space[dim_key]
68			for value in dim_values:
69			try:
70			func_name = value.__name__
71			except:
72			func_name = value
73
74			func2str[dim_key].append(func_name)
75			return func2str
76
77			def check_list(self):
78			for dim_key in self.dim_keys:
79			search_dim = self.search_space[dim_key]
80
81			err_msg = "\n Value in '{}' of search space dictionary must be of type list \n".format(
82			dim_key
83			)
84			if not isinstance(search_dim, list):
85			raise ValueError(err_msg)
86
87			@staticmethod
88			def is_function(value):
89			try:
90			value.__name__
91			except:
92			return False
93			else:
94			return True
95
96			@staticmethod
97			def is_number(value):
98			try:
99			float(value)
100			value * 0.1
101			value - 0.1
102			value / 0.1
103			except:
104			return False
105			else:
106			return True
107
108			def _string_or_object(self, dim_key, dim_values):
109			for dim_value in dim_values:
110			is_str = isinstance(dim_value, str)
111			is_func = self.is_function(dim_value)
112			is_number = self.is_number(dim_value)
113
114			if not is_str and not is_func and not is_number:
115			msg = "\n The value '{}' of type '{}' in the search space dimension '{}' must be number, string or function \n".format(
116			dim_value, type(dim_value), dim_key
117			)
118			raise ValueError(msg)
119
120			def check_non_num_values(self):
121			for dim_key in self.dim_keys:
122			dim_values = np.array(list(self.search_space[dim_key]))
123
124			try:
125			np.subtract(dim_values, dim_values)
126			np.array(dim_values).searchsorted(dim_values)
127			except:
128			self._string_or_object(dim_key, dim_values)
129			else:
130			if dim_values.ndim != 1:
131			msg = "Array-like object in '{}' must be one dimensional".format(
132			dim_key
133			)
134			raise ValueError(msg)
135

SimonBlanke / Hyperactive

Pull Request — master (#110)

DictClass.__init__() A

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DictClass.init() A