max_angle = 0
slice_angle = 90
c = math.floor(sphere_radius)
center = (c + 0.5, c + 0.5)
def slice_radius(sphere_radius, z):
return math.sqrt(max(sphere_radius**2 - z**2, 0))
for z in range(-half_num_steps, half_num_steps + 1):
print('z', z)
mu = z / (max_z - min_z)
r1 = slice_radius(sphere_radius, z)
points = circle(center, r1)
r2 = slice_radius(inner_sphere_radius, z)
points -= circle(center, r2)
start_angle = interpolate(min_angle, max_angle, mu)
end_angle = start_angle + slice_angle
slice_1 = radial_slice(points, center, start_angle, end_angle)
start_angle = start_angle + 180
end_angle = start_angle + slice_angle
slice_2 = radial_slice(points, center, start_angle, end_angle)
points = slice_1 | slice_2
print('-'*c*2)
print(format_points(points, max_x=c*2, max_y=c*2, off='.'))
import math
import vec
from shape_template import interpolate, circle, format_points
sphere_radius = 5.3
num_steps = 10
c = math.floor(sphere_radius)
center = (c, c)
for step in range(num_steps + 1):
mu = step / num_steps
z = step / 2
print('z', z)
slice_radius_squared = max(sphere_radius**2 - z**2, 0)
slice_radius = math.sqrt(slice_radius_squared)
points = circle(center, slice_radius)
print('-'*c*2)
print(format_points(points, max_x=c*2, max_y=c*2, off='.'))
