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challenge.py
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174 lines (146 loc) · 4.73 KB
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import math
def square_area(side):
if side < 0:
return False
return side * side
def rectangle_area(base, height):
return base * height
def triangle_area(base, height):
return (base * height)/2
def rhombus_area(diagonal_1, diagonal_2):
return diagonal_1 * diagonal_2
def trapezoid_area(base_minor, base_major, height):
return ((base_minor+ base_major)/2) * height
def regular_polygon_area(perimeter, apothem):
return (perimeter * apothem)/2
def circumference_area(radius):
return math.pi * (radius**2)
if __name__ == '__main__':
print()
import unittest
class GeometrySuite(unittest.TestCase):
def setUp(self):
self.squares = {
# Orden de los datos
# Resultado: Side
0 : 0,
1 : 1,
4: 2,
False : -1,
9 : 3,
16 : 4,
25 : 5 ,
36: 6 ,
49 : 7,
}
self.rectangles = {
# Orden de los datos
# Resultado : base , altura
1 : [1,1],
2 : [1,2],
3 : [1,3],
2 : [2,1],
4 : [2,2],
6 : [2,3],
3 : [3,1],
6 : [3,2],
9 : [3,3],
}
self.triangles = {
#Orden de los datos
# Resultado: Base, altura
0.5 : [1,1],
1 : [1,2],
1.5 : [1,3],
1 : [2,1],
2 : [2,2],
3 : [2,3],
1.5 : [3,1],
3 : [3,2],
4.5 : [3,3],
}
self.rhombus = {
#Orden de los datos
# Resultado: diagonal_1, diagonal_2
1 : [1,1],
2 : [1,2],
3 : [1,3],
2 : [2,1],
4 : [2,2],
6 : [2,3],
3 : [3,1],
6 : [3,2],
9 : [3,3],
}
self.trapezoids = {
#Orden de los datos
# Resultado: base_menor, base_mayor, altura
1 : [1,1,1],
2 : [1,1,2],
1.5 : [2,1,1],
3 : [2,1,2],
2 : [3,1,1],
4 : [3,1,2],
1.5 : [1,2,1],
3 : [1,2,2],
2 : [2,2,1],
4 : [2,2,2],
2.5 : [3,2,1],
5 : [3,2,2],
}
self.regular_polygons = {
#Orden de los datos
# Resultado: perimetro, apothem
0.5 : [1,1],
1 : [1,2],
1.5 : [1,3],
1 : [2,1],
2 : [2,2],
3 : [2,3],
1.5 : [3,1],
3 : [3,2],
4.5 : [3,3],
}
self.circunferences ={
#Orden de los datos
# Resultado: radio
0 : 0,
3.1416 : 1,
12.5664: 2,
28.2743 : 3,
50.2655 : 4,
78.5398 : 5 ,
113.0973: 6 ,
153.938 : 7,
201.0619 : 8,
}
def test_square_area(self):
for key, value in self.squares.items():
self.assertEqual(key, square_area(value),)
def test_rectangle_area(self):
for key, value in self.rectangles.items():
self.assertEqual(key, rectangle_area(value[0],value[1]))
def test_triangle_area(self):
for key, value in self.triangles.items():
self.assertEqual(key, triangle_area(value[0],value[1]))
def test_rhombus_area(self):
for key, value in self.rhombus.items():
self.assertEqual(key, rhombus_area(value[0],value[1]))
def test_trapezoid_area(self):
for key, value in self.trapezoids.items():
self.assertEqual(key, trapezoid_area(value[0],value[1],value[2]))
def test_regular_polygon_area(self):
for key, value in self.regular_polygons.items():
self.assertEqual(key, regular_polygon_area(value[0],value[1]))
def test_circumference_area(self):
for key, value in self.circunferences.items():
self.assertEqual(key, round(circumference_area(value),4))
def tearDown(self):
del(self.squares)
del(self.rectangles)
del(self.triangles)
del(self.rhombus)
del(self.trapezoids)
del(self.regular_polygons)
del(self.circunferences)
unittest.main()