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T4
Running
on
T4
import numpy as np | |
import pytest | |
import trimesh | |
from pyrender import (Mesh, PerspectiveCamera, DirectionalLight, | |
SpotLight, PointLight, Scene, Node, OrthographicCamera) | |
def test_scenes(): | |
# Basics | |
s = Scene() | |
assert np.allclose(s.bg_color, np.ones(4)) | |
assert np.allclose(s.ambient_light, np.zeros(3)) | |
assert len(s.nodes) == 0 | |
assert s.name is None | |
s.name = 'asdf' | |
s.bg_color = None | |
s.ambient_light = None | |
assert np.allclose(s.bg_color, np.ones(4)) | |
assert np.allclose(s.ambient_light, np.zeros(3)) | |
assert s.nodes == set() | |
assert s.cameras == set() | |
assert s.lights == set() | |
assert s.point_lights == set() | |
assert s.spot_lights == set() | |
assert s.directional_lights == set() | |
assert s.meshes == set() | |
assert s.camera_nodes == set() | |
assert s.light_nodes == set() | |
assert s.point_light_nodes == set() | |
assert s.spot_light_nodes == set() | |
assert s.directional_light_nodes == set() | |
assert s.mesh_nodes == set() | |
assert s.main_camera_node is None | |
assert np.all(s.bounds == 0) | |
assert np.all(s.centroid == 0) | |
assert np.all(s.extents == 0) | |
assert np.all(s.scale == 0) | |
# From trimesh scene | |
tms = trimesh.load('tests/data/WaterBottle.glb') | |
s = Scene.from_trimesh_scene(tms) | |
assert len(s.meshes) == 1 | |
assert len(s.mesh_nodes) == 1 | |
# Test bg color formatting | |
s = Scene(bg_color=[0, 1.0, 0]) | |
assert np.allclose(s.bg_color, np.array([0.0, 1.0, 0.0, 1.0])) | |
# Test constructor for nodes | |
n1 = Node() | |
n2 = Node() | |
n3 = Node() | |
nodes = [n1, n2, n3] | |
s = Scene(nodes=nodes) | |
n1.children.append(n2) | |
s = Scene(nodes=nodes) | |
n3.children.append(n2) | |
with pytest.raises(ValueError): | |
s = Scene(nodes=nodes) | |
n3.children = [] | |
n2.children.append(n3) | |
n3.children.append(n2) | |
with pytest.raises(ValueError): | |
s = Scene(nodes=nodes) | |
# Test node accessors | |
n1 = Node() | |
n2 = Node() | |
n3 = Node() | |
nodes = [n1, n2] | |
s = Scene(nodes=nodes) | |
assert s.has_node(n1) | |
assert s.has_node(n2) | |
assert not s.has_node(n3) | |
# Test node poses | |
for n in nodes: | |
assert np.allclose(s.get_pose(n), np.eye(4)) | |
with pytest.raises(ValueError): | |
s.get_pose(n3) | |
with pytest.raises(ValueError): | |
s.set_pose(n3, np.eye(4)) | |
tf = np.eye(4) | |
tf[:3,3] = np.ones(3) | |
s.set_pose(n1, tf) | |
assert np.allclose(s.get_pose(n1), tf) | |
assert np.allclose(s.get_pose(n2), np.eye(4)) | |
nodes = [n1, n2, n3] | |
tf2 = np.eye(4) | |
tf2[:3,:3] = np.diag([-1,-1,1]) | |
n1.children.append(n2) | |
n1.matrix = tf | |
n2.matrix = tf2 | |
s = Scene(nodes=nodes) | |
assert np.allclose(s.get_pose(n1), tf) | |
assert np.allclose(s.get_pose(n2), tf.dot(tf2)) | |
assert np.allclose(s.get_pose(n3), np.eye(4)) | |
n1 = Node() | |
n2 = Node() | |
n3 = Node() | |
n1.children.append(n2) | |
s = Scene() | |
s.add_node(n1) | |
with pytest.raises(ValueError): | |
s.add_node(n2) | |
s.set_pose(n1, tf) | |
assert np.allclose(s.get_pose(n1), tf) | |
assert np.allclose(s.get_pose(n2), tf) | |
s.set_pose(n2, tf2) | |
assert np.allclose(s.get_pose(n2), tf.dot(tf2)) | |
# Test node removal | |
n1 = Node() | |
n2 = Node() | |
n3 = Node() | |
n1.children.append(n2) | |
n2.children.append(n3) | |
s = Scene(nodes=[n1, n2, n3]) | |
s.remove_node(n2) | |
assert len(s.nodes) == 1 | |
assert n1 in s.nodes | |
assert len(n1.children) == 0 | |
assert len(n2.children) == 1 | |
s.add_node(n2, parent_node=n1) | |
assert len(n1.children) == 1 | |
n1.matrix = tf | |
n3.matrix = tf2 | |
assert np.allclose(s.get_pose(n3), tf.dot(tf2)) | |
# Now test ADD function | |
s = Scene() | |
m = Mesh([], name='m') | |
cp = PerspectiveCamera(yfov=2.0) | |
co = OrthographicCamera(xmag=1.0, ymag=1.0) | |
dl = DirectionalLight() | |
pl = PointLight() | |
sl = SpotLight() | |
n1 = s.add(m, name='mn') | |
assert n1.mesh == m | |
assert len(s.nodes) == 1 | |
assert len(s.mesh_nodes) == 1 | |
assert n1 in s.mesh_nodes | |
assert len(s.meshes) == 1 | |
assert m in s.meshes | |
assert len(s.get_nodes(node=n2)) == 0 | |
n2 = s.add(m, pose=tf) | |
assert len(s.nodes) == len(s.mesh_nodes) == 2 | |
assert len(s.meshes) == 1 | |
assert len(s.get_nodes(node=n1)) == 1 | |
assert len(s.get_nodes(node=n1, name='mn')) == 1 | |
assert len(s.get_nodes(name='mn')) == 1 | |
assert len(s.get_nodes(obj=m)) == 2 | |
assert len(s.get_nodes(obj=m, obj_name='m')) == 2 | |
assert len(s.get_nodes(obj=co)) == 0 | |
nsl = s.add(sl, name='sln') | |
npl = s.add(pl, parent_name='sln') | |
assert nsl.children[0] == npl | |
ndl = s.add(dl, parent_node=npl) | |
assert npl.children[0] == ndl | |
nco = s.add(co) | |
ncp = s.add(cp) | |
assert len(s.light_nodes) == len(s.lights) == 3 | |
assert len(s.point_light_nodes) == len(s.point_lights) == 1 | |
assert npl in s.point_light_nodes | |
assert len(s.spot_light_nodes) == len(s.spot_lights) == 1 | |
assert nsl in s.spot_light_nodes | |
assert len(s.directional_light_nodes) == len(s.directional_lights) == 1 | |
assert ndl in s.directional_light_nodes | |
assert len(s.cameras) == len(s.camera_nodes) == 2 | |
assert s.main_camera_node == nco | |
s.main_camera_node = ncp | |
s.remove_node(ncp) | |
assert len(s.cameras) == len(s.camera_nodes) == 1 | |
assert s.main_camera_node == nco | |
s.remove_node(n2) | |
assert len(s.meshes) == 1 | |
s.remove_node(n1) | |
assert len(s.meshes) == 0 | |
s.remove_node(nsl) | |
assert len(s.lights) == 0 | |
s.remove_node(nco) | |
assert s.main_camera_node is None | |
s.add_node(n1) | |
s.clear() | |
assert len(s.nodes) == 0 | |
# Trigger final errors | |
with pytest.raises(ValueError): | |
s.main_camera_node = None | |
with pytest.raises(ValueError): | |
s.main_camera_node = ncp | |
with pytest.raises(ValueError): | |
s.add(m, parent_node=n1) | |
with pytest.raises(ValueError): | |
s.add(m, name='asdf') | |
s.add(m, name='asdf') | |
s.add(m, parent_name='asdf') | |
with pytest.raises(ValueError): | |
s.add(m, parent_name='asfd') | |
with pytest.raises(TypeError): | |
s.add(None) | |
s.clear() | |
# Test bounds | |
m1 = Mesh.from_trimesh(trimesh.creation.box()) | |
m2 = Mesh.from_trimesh(trimesh.creation.box()) | |
m3 = Mesh.from_trimesh(trimesh.creation.box()) | |
n1 = Node(mesh=m1) | |
n2 = Node(mesh=m2, translation=[1.0, 0.0, 0.0]) | |
n3 = Node(mesh=m3, translation=[0.5, 0.0, 1.0]) | |
s.add_node(n1) | |
s.add_node(n2) | |
s.add_node(n3) | |
assert np.allclose(s.bounds, [[-0.5, -0.5, -0.5], [1.5, 0.5, 1.5]]) | |
s.clear() | |
s.add_node(n1) | |
s.add_node(n2, parent_node=n1) | |
s.add_node(n3, parent_node=n2) | |
assert np.allclose(s.bounds, [[-0.5, -0.5, -0.5], [2.0, 0.5, 1.5]]) | |
tf = np.eye(4) | |
tf[:3,3] = np.ones(3) | |
s.set_pose(n3, tf) | |
assert np.allclose(s.bounds, [[-0.5, -0.5, -0.5], [2.5, 1.5, 1.5]]) | |
s.remove_node(n2) | |
assert np.allclose(s.bounds, [[-0.5, -0.5, -0.5], [0.5, 0.5, 0.5]]) | |
s.clear() | |
assert np.allclose(s.bounds, 0.0) | |