""" Find the area of various geometric shapes Wikipedia reference: https://en.wikipedia.org/wiki/Area """ from math import pi, sqrt, tan def surface_area_cube(side_length: float) -> float: """ Calculate the Surface Area of a Cube. >>> surface_area_cube(1) 6 >>> surface_area_cube(1.6) 15.360000000000003 >>> surface_area_cube(0) 0 >>> surface_area_cube(3) 54 >>> surface_area_cube(-1) Traceback (most recent call last): ... ValueError: surface_area_cube() only accepts non-negative values """ if side_length < 0: raise ValueError("surface_area_cube() only accepts non-negative values") return 6 * side_length**2 def surface_area_cuboid(length: float, breadth: float, height: float) -> float: """ Calculate the Surface Area of a Cuboid. >>> surface_area_cuboid(1, 2, 3) 22 >>> surface_area_cuboid(0, 0, 0) 0 >>> surface_area_cuboid(1.6, 2.6, 3.6) 38.56 >>> surface_area_cuboid(-1, 2, 3) Traceback (most recent call last): ... ValueError: surface_area_cuboid() only accepts non-negative values >>> surface_area_cuboid(1, -2, 3) Traceback (most recent call last): ... ValueError: surface_area_cuboid() only accepts non-negative values >>> surface_area_cuboid(1, 2, -3) Traceback (most recent call last): ... ValueError: surface_area_cuboid() only accepts non-negative values """ if length < 0 or breadth < 0 or height < 0: raise ValueError("surface_area_cuboid() only accepts non-negative values") return 2 * ((length * breadth) + (breadth * height) + (length * height)) def surface_area_sphere(radius: float) -> float: """ Calculate the Surface Area of a Sphere. Wikipedia reference: https://en.wikipedia.org/wiki/Sphere Formula: 4 * pi * r^2 >>> surface_area_sphere(5) 314.1592653589793 >>> surface_area_sphere(1) 12.566370614359172 >>> surface_area_sphere(1.6) 32.169908772759484 >>> surface_area_sphere(0) 0.0 >>> surface_area_sphere(-1) Traceback (most recent call last): ... ValueError: surface_area_sphere() only accepts non-negative values """ if radius < 0: raise ValueError("surface_area_sphere() only accepts non-negative values") return 4 * pi * radius**2 def surface_area_hemisphere(radius: float) -> float: """ Calculate the Surface Area of a Hemisphere. Formula: 3 * pi * r^2 >>> surface_area_hemisphere(5) 235.61944901923448 >>> surface_area_hemisphere(1) 9.42477796076938 >>> surface_area_hemisphere(0) 0.0 >>> surface_area_hemisphere(1.1) 11.40398133253095 >>> surface_area_hemisphere(-1) Traceback (most recent call last): ... ValueError: surface_area_hemisphere() only accepts non-negative values """ if radius < 0: raise ValueError("surface_area_hemisphere() only accepts non-negative values") return 3 * pi * radius**2 def surface_area_cone(radius: float, height: float) -> float: """ Calculate the Surface Area of a Cone. Wikipedia reference: https://en.wikipedia.org/wiki/Cone Formula: pi * r * (r + (h ** 2 + r ** 2) ** 0.5) >>> surface_area_cone(10, 24) 1130.9733552923256 >>> surface_area_cone(6, 8) 301.59289474462014 >>> surface_area_cone(1.6, 2.6) 23.387862992395807 >>> surface_area_cone(0, 0) 0.0 >>> surface_area_cone(-1, -2) Traceback (most recent call last): ... ValueError: surface_area_cone() only accepts non-negative values >>> surface_area_cone(1, -2) Traceback (most recent call last): ... ValueError: surface_area_cone() only accepts non-negative values >>> surface_area_cone(-1, 2) Traceback (most recent call last): ... ValueError: surface_area_cone() only accepts non-negative values """ if radius < 0 or height < 0: raise ValueError("surface_area_cone() only accepts non-negative values") return pi * radius * (radius + (height**2 + radius**2) ** 0.5) def surface_area_conical_frustum( radius_1: float, radius_2: float, height: float ) -> float: """ Calculate the Surface Area of a Conical Frustum. >>> surface_area_conical_frustum(1, 2, 3) 45.511728065337266 >>> surface_area_conical_frustum(4, 5, 6) 300.7913575056268 >>> surface_area_conical_frustum(0, 0, 0) 0.0 >>> surface_area_conical_frustum(1.6, 2.6, 3.6) 78.57907060751548 >>> surface_area_conical_frustum(-1, 2, 3) Traceback (most recent call last): ... ValueError: surface_area_conical_frustum() only accepts non-negative values >>> surface_area_conical_frustum(1, -2, 3) Traceback (most recent call last): ... ValueError: surface_area_conical_frustum() only accepts non-negative values >>> surface_area_conical_frustum(1, 2, -3) Traceback (most recent call last): ... ValueError: surface_area_conical_frustum() only accepts non-negative values """ if radius_1 < 0 or radius_2 < 0 or height < 0: raise ValueError( "surface_area_conical_frustum() only accepts non-negative values" ) slant_height = (height**2 + (radius_1 - radius_2) ** 2) ** 0.5 return pi * ((slant_height * (radius_1 + radius_2)) + radius_1**2 + radius_2**2) def surface_area_cylinder(radius: float, height: float) -> float: """ Calculate the Surface Area of a Cylinder. Wikipedia reference: https://en.wikipedia.org/wiki/Cylinder Formula: 2 * pi * r * (h + r) >>> surface_area_cylinder(7, 10) 747.6990515543707 >>> surface_area_cylinder(1.6, 2.6) 42.22300526424682 >>> surface_area_cylinder(0, 0) 0.0 >>> surface_area_cylinder(6, 8) 527.7875658030853 >>> surface_area_cylinder(-1, -2) Traceback (most recent call last): ... ValueError: surface_area_cylinder() only accepts non-negative values >>> surface_area_cylinder(1, -2) Traceback (most recent call last): ... ValueError: surface_area_cylinder() only accepts non-negative values >>> surface_area_cylinder(-1, 2) Traceback (most recent call last): ... ValueError: surface_area_cylinder() only accepts non-negative values """ if radius < 0 or height < 0: raise ValueError("surface_area_cylinder() only accepts non-negative values") return 2 * pi * radius * (height + radius) def area_rectangle(length: float, width: float) -> float: """ Calculate the area of a rectangle. >>> area_rectangle(10, 20) 200 >>> area_rectangle(1.6, 2.6) 4.16 >>> area_rectangle(0, 0) 0 >>> area_rectangle(-1, -2) Traceback (most recent call last): ... ValueError: area_rectangle() only accepts non-negative values >>> area_rectangle(1, -2) Traceback (most recent call last): ... ValueError: area_rectangle() only accepts non-negative values >>> area_rectangle(-1, 2) Traceback (most recent call last): ... ValueError: area_rectangle() only accepts non-negative values """ if length < 0 or width < 0: raise ValueError("area_rectangle() only accepts non-negative values") return length * width def area_square(side_length: float) -> float: """ Calculate the area of a square. >>> area_square(10) 100 >>> area_square(0) 0 >>> area_square(1.6) 2.5600000000000005 >>> area_square(-1) Traceback (most recent call last): ... ValueError: area_square() only accepts non-negative values """ if side_length < 0: raise ValueError("area_square() only accepts non-negative values") return side_length**2 def area_triangle(base: float, height: float) -> float: """ Calculate the area of a triangle given the base and height. >>> area_triangle(10, 10) 50.0 >>> area_triangle(1.6, 2.6) 2.08 >>> area_triangle(0, 0) 0.0 >>> area_triangle(-1, -2) Traceback (most recent call last): ... ValueError: area_triangle() only accepts non-negative values >>> area_triangle(1, -2) Traceback (most recent call last): ... ValueError: area_triangle() only accepts non-negative values >>> area_triangle(-1, 2) Traceback (most recent call last): ... ValueError: area_triangle() only accepts non-negative values """ if base < 0 or height < 0: raise ValueError("area_triangle() only accepts non-negative values") return (base * height) / 2 def area_triangle_three_sides(side1: float, side2: float, side3: float) -> float: """ Calculate area of triangle when the length of 3 sides are known. This function uses Heron's formula: https://en.wikipedia.org/wiki/Heron%27s_formula >>> area_triangle_three_sides(5, 12, 13) 30.0 >>> area_triangle_three_sides(10, 11, 12) 51.521233486786784 >>> area_triangle_three_sides(0, 0, 0) 0.0 >>> area_triangle_three_sides(1.6, 2.6, 3.6) 1.8703742940919619 >>> area_triangle_three_sides(-1, -2, -1) Traceback (most recent call last): ... ValueError: area_triangle_three_sides() only accepts non-negative values >>> area_triangle_three_sides(1, -2, 1) Traceback (most recent call last): ... ValueError: area_triangle_three_sides() only accepts non-negative values >>> area_triangle_three_sides(2, 4, 7) Traceback (most recent call last): ... ValueError: Given three sides do not form a triangle >>> area_triangle_three_sides(2, 7, 4) Traceback (most recent call last): ... ValueError: Given three sides do not form a triangle >>> area_triangle_three_sides(7, 2, 4) Traceback (most recent call last): ... ValueError: Given three sides do not form a triangle """ if side1 < 0 or side2 < 0 or side3 < 0: raise ValueError("area_triangle_three_sides() only accepts non-negative values") elif side1 + side2 < side3 or side1 + side3 < side2 or side2 + side3 < side1: raise ValueError("Given three sides do not form a triangle") semi_perimeter = (side1 + side2 + side3) / 2 area = sqrt( semi_perimeter * (semi_perimeter - side1) * (semi_perimeter - side2) * (semi_perimeter - side3) ) return area def area_parallelogram(base: float, height: float) -> float: """ Calculate the area of a parallelogram. >>> area_parallelogram(10, 20) 200 >>> area_parallelogram(1.6, 2.6) 4.16 >>> area_parallelogram(0, 0) 0 >>> area_parallelogram(-1, -2) Traceback (most recent call last): ... ValueError: area_parallelogram() only accepts non-negative values >>> area_parallelogram(1, -2) Traceback (most recent call last): ... ValueError: area_parallelogram() only accepts non-negative values >>> area_parallelogram(-1, 2) Traceback (most recent call last): ... ValueError: area_parallelogram() only accepts non-negative values """ if base < 0 or height < 0: raise ValueError("area_parallelogram() only accepts non-negative values") return base * height def area_trapezium(base1: float, base2: float, height: float) -> float: """ Calculate the area of a trapezium. >>> area_trapezium(10, 20, 30) 450.0 >>> area_trapezium(1.6, 2.6, 3.6) 7.5600000000000005 >>> area_trapezium(0, 0, 0) 0.0 >>> area_trapezium(-1, -2, -3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(-1, 2, 3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(1, -2, 3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(1, 2, -3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(-1, -2, 3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(1, -2, -3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values >>> area_trapezium(-1, 2, -3) Traceback (most recent call last): ... ValueError: area_trapezium() only accepts non-negative values """ if base1 < 0 or base2 < 0 or height < 0: raise ValueError("area_trapezium() only accepts non-negative values") return 1 / 2 * (base1 + base2) * height def area_circle(radius: float) -> float: """ Calculate the area of a circle. >>> area_circle(20) 1256.6370614359173 >>> area_circle(1.6) 8.042477193189871 >>> area_circle(0) 0.0 >>> area_circle(-1) Traceback (most recent call last): ... ValueError: area_circle() only accepts non-negative values """ if radius < 0: raise ValueError("area_circle() only accepts non-negative values") return pi * radius**2 def area_ellipse(radius_x: float, radius_y: float) -> float: """ Calculate the area of a ellipse. >>> area_ellipse(10, 10) 314.1592653589793 >>> area_ellipse(10, 20) 628.3185307179587 >>> area_ellipse(0, 0) 0.0 >>> area_ellipse(1.6, 2.6) 13.06902543893354 >>> area_ellipse(-10, 20) Traceback (most recent call last): ... ValueError: area_ellipse() only accepts non-negative values >>> area_ellipse(10, -20) Traceback (most recent call last): ... ValueError: area_ellipse() only accepts non-negative values >>> area_ellipse(-10, -20) Traceback (most recent call last): ... ValueError: area_ellipse() only accepts non-negative values """ if radius_x < 0 or radius_y < 0: raise ValueError("area_ellipse() only accepts non-negative values") return pi * radius_x * radius_y def area_rhombus(diagonal_1: float, diagonal_2: float) -> float: """ Calculate the area of a rhombus. >>> area_rhombus(10, 20) 100.0 >>> area_rhombus(1.6, 2.6) 2.08 >>> area_rhombus(0, 0) 0.0 >>> area_rhombus(-1, -2) Traceback (most recent call last): ... ValueError: area_rhombus() only accepts non-negative values >>> area_rhombus(1, -2) Traceback (most recent call last): ... ValueError: area_rhombus() only accepts non-negative values >>> area_rhombus(-1, 2) Traceback (most recent call last): ... ValueError: area_rhombus() only accepts non-negative values """ if diagonal_1 < 0 or diagonal_2 < 0: raise ValueError("area_rhombus() only accepts non-negative values") return 1 / 2 * diagonal_1 * diagonal_2 def area_reg_polygon(sides: int, length: float) -> float: """ Calculate the area of a regular polygon. Wikipedia reference: https://en.wikipedia.org/wiki/Polygon#Regular_polygons Formula: (n*s^2*cot(pi/n))/4 >>> area_reg_polygon(3, 10) 43.301270189221945 >>> area_reg_polygon(4, 10) 100.00000000000001 >>> area_reg_polygon(0, 0) Traceback (most recent call last): ... ValueError: area_reg_polygon() only accepts integers greater than or equal to \ three as number of sides >>> area_reg_polygon(-1, -2) Traceback (most recent call last): ... ValueError: area_reg_polygon() only accepts integers greater than or equal to \ three as number of sides >>> area_reg_polygon(5, -2) Traceback (most recent call last): ... ValueError: area_reg_polygon() only accepts non-negative values as \ length of a side >>> area_reg_polygon(-1, 2) Traceback (most recent call last): ... ValueError: area_reg_polygon() only accepts integers greater than or equal to \ three as number of sides """ if not isinstance(sides, int) or sides < 3: raise ValueError( "area_reg_polygon() only accepts integers greater than or \ equal to three as number of sides" ) elif length < 0: raise ValueError( "area_reg_polygon() only accepts non-negative values as \ length of a side" ) return (sides * length**2) / (4 * tan(pi / sides)) return (sides * length**2) / (4 * tan(pi / sides)) if __name__ == "__main__": import doctest doctest.testmod(verbose=True) # verbose so we can see methods missing tests print("[DEMO] Areas of various geometric shapes: \n") print(f"Rectangle: {area_rectangle(10, 20) = }") print(f"Square: {area_square(10) = }") print(f"Triangle: {area_triangle(10, 10) = }") print(f"Triangle: {area_triangle_three_sides(5, 12, 13) = }") print(f"Parallelogram: {area_parallelogram(10, 20) = }") print(f"Rhombus: {area_rhombus(10, 20) = }") print(f"Trapezium: {area_trapezium(10, 20, 30) = }") print(f"Circle: {area_circle(20) = }") print(f"Ellipse: {area_ellipse(10, 20) = }") print("\nSurface Areas of various geometric shapes: \n") print(f"Cube: {surface_area_cube(20) = }") print(f"Cuboid: {surface_area_cuboid(10, 20, 30) = }") print(f"Sphere: {surface_area_sphere(20) = }") print(f"Hemisphere: {surface_area_hemisphere(20) = }") print(f"Cone: {surface_area_cone(10, 20) = }") print(f"Conical Frustum: {surface_area_conical_frustum(10, 20, 30) = }") print(f"Cylinder: {surface_area_cylinder(10, 20) = }") print(f"Equilateral Triangle: {area_reg_polygon(3, 10) = }") print(f"Square: {area_reg_polygon(4, 10) = }") print(f"Reqular Pentagon: {area_reg_polygon(5, 10) = }")