the code below offer three ways of to display output.GUI window or Print on screen or save to text file. import random class Circle(): def __init__(self, radius=1.0): self.__radius = radius self.__area = self.find_area() def get_radius(self): return self.__radius def set_radius(self, radiu
the code below offer three ways of to display output.GUI window or Print on screen or save to text file. import random class Circle(): def __init__(self, radius=1.0): self.__radius = radius self.__area = self.find_area() def get_radius(self): return self.__radius def set_radius(self, radiu
Computer Networking: A Top-Down Approach (7th Edition)
7th Edition
ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
Section: Chapter Questions
Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Question
Make the code below offer three ways of to display output.GUI window or Print on screen or save to text file.
import random
class Circle():
def __init__(self, radius=1.0):
self.__radius = radius
self.__area = self.find_area()
def get_radius(self): return self.__radius
def set_radius(self, radius): self.__radius = radius
def find_area(self):
self.__area = 3.14159265 * self.__radius ** 2
return self.__area
def display(self):
self.find_area()
print('Circle, Area of Circle: {:.2f}'.format(self.__area))
class Square():
def __init__(self, side=1.0):
self.__side = side
self.__area = self.find_area()
def get_side(self): return self.__side
def set_side(self, side): self.__side = side
def find_area(self):
self.__area = self.__side ** 2
return self.__area
def display(self):
self.find_area()
print('Square, Area of Square: {:.2f}'.format(self.__area))
class Cube():
def __init__(self, length=1, width=2, height=3):
self.__length = length
self.__width = width
self.__height = height
self.__area = self.find_area()
def get_length(self): return self.__length
def get_width(self): return self.__width
def get_height(self): return self.__height
def set_length(self, length): self.__length = length
def set_width(self, width): self.__width = width
def set_height(self, height): self.__height = height
def find_area(self):
self.__area = self.__length * self.__height * self.__width
return self.__area
def display(self):
self.find_area()
print('Cube, Area of Cube: {:.2f}'.format(self.__area))
shapes = []
for i in range(10):
#Random number
rand = random.randint(1, 4)
if rand == 1:
shapes.append(Circle())
elif rand == 2:
shapes.append(Square())
else:
shapes.append(Cube())
for shape in shapes:
shape.display()
class Circle():
def __init__(self, radius=1.0):
self.__radius = radius
self.__area = self.find_area()
def get_radius(self): return self.__radius
def set_radius(self, radius): self.__radius = radius
def find_area(self):
self.__area = 3.14159265 * self.__radius ** 2
return self.__area
def display(self):
self.find_area()
print('Circle, Area of Circle: {:.2f}'.format(self.__area))
class Square():
def __init__(self, side=1.0):
self.__side = side
self.__area = self.find_area()
def get_side(self): return self.__side
def set_side(self, side): self.__side = side
def find_area(self):
self.__area = self.__side ** 2
return self.__area
def display(self):
self.find_area()
print('Square, Area of Square: {:.2f}'.format(self.__area))
class Cube():
def __init__(self, length=1, width=2, height=3):
self.__length = length
self.__width = width
self.__height = height
self.__area = self.find_area()
def get_length(self): return self.__length
def get_width(self): return self.__width
def get_height(self): return self.__height
def set_length(self, length): self.__length = length
def set_width(self, width): self.__width = width
def set_height(self, height): self.__height = height
def find_area(self):
self.__area = self.__length * self.__height * self.__width
return self.__area
def display(self):
self.find_area()
print('Cube, Area of Cube: {:.2f}'.format(self.__area))
shapes = []
for i in range(10):
#Random number
rand = random.randint(1, 4)
if rand == 1:
shapes.append(Circle())
elif rand == 2:
shapes.append(Square())
else:
shapes.append(Cube())
for shape in shapes:
shape.display()
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