def test_computing_normal_on_scaled_sphere(self):
s = Sphere()
s.set_transform(scaling(1, 0.5, 1))
n = s.normal_at(point(0, math.sqrt(2) / 2, -math.sqrt(2) / 2))
self.assert_tuple_equals(vector(0, 0.97014, -0.24254), n, 0.001)
def test_default_world(self):
light = PointLight(point(-10, 10, -10), color(1, 1, 1))
s1 = Sphere()
s2 = Sphere()
s1.material.color = color(0.8, 1.0, 0.6)
s1.material.diffuse = 0.7
s1.material.specular = 0.2
s2.set_transform(scaling(0.5, 0.5, 0.5))
world = default_world()
self.assertEqual(light.position, world.light.position)
self.assertEqual(light.intensity, world.light.intensity)
self.assertEqual(s1.material.color, world.objects[0].material.color)
self.assertEqual(s1.material.diffuse,
world.objects[0].material.diffuse)
self.assertEqual(s1.material.specular,
world.objects[0].material.specular)
self.assertEqual(s2.material.color, world.objects[1].material.color)
self.assertEqual(s2.material.diffuse,
world.objects[1].material.diffuse)
self.assertEqual(s2.material.specular,
world.objects[1].material.specular)
def test_computing_normal_on_translated_sphere(self):
s = Sphere()
s.set_transform(translation(0, 1, 0))
n = s.normal_at(point(0, 1.70711, -0.70711))
self.assert_tuple_equals(vector(0, 0.70711, -0.70711), n, 0.001)
def test_intersecting_translated_sphere_with_ray(self):
r = Ray(point(0, 0, -5), vector(0, 0, 1))
s = Sphere()
s.set_transform(translation(5, 0, 0))
xs = s.intersect(r)
self.assertEqual(0, len(xs))
def test_intersecting_scaled_sphere_with_ray(self):
r = Ray(point(0, 0, -5), vector(0, 0, 1))
s = Sphere()
s.set_transform(scaling(2, 2, 2))
xs = s.intersect(r)
self.assertEqual(2, len(xs))
self.assertEqual(3, xs[0].t)
self.assertEqual(7, xs[1].t)
def default_world():
light = PointLight(point(-10, 10, -10), color(1, 1, 1))
s1 = Sphere()
s2 = Sphere()
s1.material.color = color(0.8, 1.0, 0.6)
s1.material.diffuse = 0.7
s1.material.specular = 0.2
s2.set_transform(scaling(0.5, 0.5, 0.5))
return World(light=light, objects=[s1, s2])
import time
from renderer.canvas import Canvas
from renderer.intersections import hit
from renderer.lights import PointLight
from renderer.rays import Ray
from renderer.sphere import Sphere
from renderer.transformations import scaling
from renderer.tuples import point, color
s = Sphere()
s.set_transform(scaling(0.5, 1, 1))
s.material.color = color(1, 0.2, 1)
light_position = point(-10, 10, -10)
light_color = color(1, 1, 1)
light = PointLight(light_position, light_color)
ray_origin = point(0, 0, -5)
wall_z = 10
wall_size = 7.0
canvas_pixels = 1000
pixel_size = wall_size / canvas_pixels
half = wall_size / 2
c = Canvas(canvas_pixels, canvas_pixels)
col = color(1, 0, 0)
start_time = time.time()
for y in range(canvas_pixels):
elapsed_time = time.time() - start_time
if elapsed_time > 0 and y > 0:
print("time_to_finish: " + str(1.0 * (canvas_pixels - y) /
def test_set_transform(self):
s = Sphere()
t = translation(2, 3, 4)
s.set_transform(t)
self.assertEqual(t, s.transform)