Coverage for skema/program_analysis/CAST2FN/model/cast/name.py: 86%

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1# coding: utf-8 

2 

3""" 

4 SKEMA Common Abstract Syntax Tree (CAST) 

5 

6 This document outlines the structure of the CAST that will be used as a generic representation of the semantics of a program written in any language. This will be used when creating functions networks from programs using the SKEMA Program Analysis pipeline. __Generating Class Structure__ To automatically generate Python or Java models corresponding to this document, you can use [swagger-codegen](https://swagger.io/tools/swagger-codegen/). We can use this to generate client code based off of this spec that will also generate the class structure. 1. Install via the method described for your operating system [here](https://github.com/swagger-api/swagger-codegen#Prerequisites). Make sure to install a version after 3.0 that will support openapi 3. 2. Run swagger-codegen with the options in the example below. The URL references where the yaml for this documentation is stored on github. Make sure to replace CURRENT_VERSION with the correct version. To generate Java classes rather, change the `-l python` to `-l java`. Change the value to the `-o` option to the desired output location. ``` swagger-codegen generate -l python -o ./client -i https://raw.githubusercontent.com/ml4ai/automates-v2/master/docs/source/cast_v{CURRENT_VERSION}.yaml ``` 3. Once it executes, the client code will be generated at your specified location. For python, the classes will be located in `$OUTPUT_PATH/swagger_client/models/`. For java, they will be located in `$OUTPUT_PATH/src/main/java/io/swagger/client/model/` # noqa: E501 

7 

8 OpenAPI spec version: 1.2.6 

9  

10 Generated by: https://github.com/swagger-api/swagger-codegen.git 

11""" 

12 

13import pprint 

14import re # noqa: F401 

15 

16import six 

17from skema.program_analysis.CAST2FN.model.cast.ast_node import AstNode # noqa: F401,E501 

18 

19class Name(AstNode): 

20 """NOTE: This class is auto generated by the swagger code generator program. 

21 

22 Do not edit the class manually. 

23 """ 

24 """ 

25 Attributes: 

26 swagger_types (dict): The key is attribute name 

27 and the value is attribute type. 

28 attribute_map (dict): The key is attribute name 

29 and the value is json key in definition. 

30 """ 

31 swagger_types = { 

32 'name': 'str', 

33 'id': 'str' 

34 } 

35 if hasattr(AstNode, "swagger_types"): 

36 swagger_types.update(AstNode.swagger_types) 

37 

38 attribute_map = { 

39 'name': 'name', 

40 'id': 'id' 

41 } 

42 if hasattr(AstNode, "attribute_map"): 

43 attribute_map.update(AstNode.attribute_map) 

44 

45 def __init__(self, name=None, id=None, *args, **kwargs): # noqa: E501 

46 """Name - a model defined in Swagger""" # noqa: E501 

47 self._name = None 

48 self._id = None 

49 self.discriminator = None 

50 if name is not None: 

51 self.name = name 

52 if id is not None: 

53 self.id = id 

54 AstNode.__init__(self, *args, **kwargs) 

55 

56 @property 

57 def name(self): 

58 """Gets the name of this Name. # noqa: E501 

59 

60 

61 :return: The name of this Name. # noqa: E501 

62 :rtype: str 

63 """ 

64 return self._name 

65 

66 @name.setter 

67 def name(self, name): 

68 """Sets the name of this Name. 

69 

70 

71 :param name: The name of this Name. # noqa: E501 

72 :type: str 

73 """ 

74 

75 self._name = name 

76 

77 @property 

78 def id(self): 

79 """Gets the id of this Name. # noqa: E501 

80 

81 

82 :return: The id of this Name. # noqa: E501 

83 :rtype: str 

84 """ 

85 return self._id 

86 

87 @id.setter 

88 def id(self, id): 

89 """Sets the id of this Name. 

90 

91 

92 :param id: The id of this Name. # noqa: E501 

93 :type: str 

94 """ 

95 

96 self._id = id 

97 

98 def to_dict(self): 

99 """Returns the model properties as a dict""" 

100 result = {} 

101 

102 for attr, _ in six.iteritems(self.swagger_types): 

103 value = getattr(self, attr) 

104 if isinstance(value, list): 

105 result[attr] = list(map( 

106 lambda x: x.to_dict() if hasattr(x, "to_dict") else x, 

107 value 

108 )) 

109 elif hasattr(value, "to_dict"): 

110 result[attr] = value.to_dict() 

111 elif isinstance(value, dict): 

112 result[attr] = dict(map( 

113 lambda item: (item[0], item[1].to_dict()) 

114 if hasattr(item[1], "to_dict") else item, 

115 value.items() 

116 )) 

117 else: 

118 result[attr] = value 

119 if issubclass(Name, dict): 

120 for key, value in self.items(): 

121 result[key] = value 

122 

123 return result 

124 

125 def to_str(self): 

126 """Returns the string representation of the model""" 

127 return pprint.pformat(self.to_dict()) 

128 

129 def __repr__(self): 

130 """For `print` and `pprint`""" 

131 return self.to_str() 

132 

133 def __eq__(self, other): 

134 """Returns true if both objects are equal""" 

135 if not isinstance(other, Name): 

136 return False 

137 

138 return self.__dict__ == other.__dict__ 

139 

140 def __ne__(self, other): 

141 """Returns true if both objects are not equal""" 

142 return not self == other