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Test Result a = Box ('shoes', 6, 5) b = Box ('lunch', 10, 7) False 35 ****** print(a.is_bigger(b)) *shoe* *S sa = str(a) print (len(sa)) ****** print(a) print (b) ********** *lunch * * * * * ********** a = Box('bits and pieces', 2, 2) print(a) ** ** a = Box('bits and pieces', 3, 3) print(a) *** *b* *** a = Box('bits and pieces', 4, 4) print(a) **** *bi* a = Box('bits and pieces', 5, 5) *ts* print(a) **** a = Box ( 'bits and pieces', 20, 5) ***** print(a) *bit* *s a* *nd * *****

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Define a class called Box. Objects of this class type will represent boxes (that can store things). For example, a lunch box or a shoe box. The Box class should define the following three methods: def _init_(self, label, width, height): The initialiser method takes three inputs: the label for the box (which is a string), and the size of the box (specified as a width and a height which are both integers) def is_bigger(self, other): The is_bigger() method returns True if the box (on which the method is called) is larger than the box that is passed as input to the method, and False otherwise. The size of a box can be calculated as the product of width and height. If the input to the method is not a Box object, then the method should return False. def _str_(self): The string method should return a string representation of a Box object. This string should represent a rectangle using the character around the border, with the width and height determined by the size of the Box object. The label for the box should appear inside the border, and it should wrap-around if it is too long to fit on a single line. If the label is too long to appear in its entirety, then it should be truncated. Note: the length of the string returned by the _str_() method should be exactly (width + 1) * height. This is because there is a single new line character appearing at the end of each line (including the last line).