def __init__(self):
self.mortar = []
self.layer = []
for j in range(0, 15):
blocks = []
for i in range(1, 6):
blocks.append(self._get_block().add_args(["translate", [-2.4 + i * .8, j * 0.4 + .1, -0.2]]))
blocks.append(self._get_block().add_args(["translate", [-2.4 + i * .8, j * 0.4 + .1, 0.2]]))
blocks.append(
self._get_block().add_args(["rotate", [0, 90, 0],
"translate", [2.2, j * 0.4 + .1, 0.0]]))
self.layer.append(blocks)
color = (0.40, 0.45, 0.85)
self.mortar.append(vapory.Box([-1.8, j * .4 - .01, -.385], [2.38, j * .4 + .185, .385],
vapory.Texture(
vapory.Pigment('color', [0.5 / 255. * e for e in (92, 71, 0)])),
vapory.Finish("ambient", [.15 / 255. * e for e in color], "diffuse",
0.6)))
blocks = []
blocks.append(
self._get_block().add_args(["rotate", [0, 90, 0],
"translate", [-1.8, j * 0.4 + .3, 0.0]]))
for i in range(1, 6):
blocks.append(self._get_block().add_args(["translate", [-2.0 + i * .8, j * 0.4 + .3, -0.2]]))
blocks.append(self._get_block().add_args(["translate", [-2.0 + i * .8, j * 0.4 + .3, 0.2]]))
self.layer.append(blocks)
color = (0.40, 0.45, 0.85)
self.mortar.append(vapory.Box([-1.8, .19 + j * .4, -.385], [2.38, j * .4 + .385, .385],
vapory.Texture(
vapory.Pigment('color', [0.5 / 255. * e for e in (92, 71, 0)])),
vapory.Finish("ambient", [.15 / 255. * e for e in color], "diffuse",
0.6)))
def _get_cylinder(self, start, end, radius):
texture = vp.Texture(
vp.Pigment('color', [1 / 255. * e for e in (0, 125, 255)]))
c1 = vp.Sphere(start, radius, texture)
c2 = vp.Sphere(end, radius, texture)
c3 = vp.Cylinder(start, end, radius, texture)
return vp.Union(c1, c2, c3)
def _get_block(self, x, y, z):
p1 = [-x, -y, -z]
p2 = [x, y, z]
color = (75, 71, 0)
return vp.Box(p1, p2, vp.Texture(vp.Pigment('color', [0.8/255. * e for e in color])),
vp.Finish("ambient", [1/255. * e for e in color], "diffuse",
0.0))
def __init__(self, scale):
segments = []
texture = vp.Texture(
vp.Pigment('color', [1 / 255. * e for e in (40, 40, 40)]))
for i in range(1, 1000):
rands = numpy.random.normal(0, .03 * scale, 3)
sphere = vp.Sphere(rands, 0.01, texture)
segments.append(sphere)
self.body = vp.Union()
self.body.args = segments
def _get_cylinder(self, start, end, radius):
color = (40 / 255., 40 / 255., 40 / 255.)
texture = vp.Texture(vp.Pigment('color', color),
vp.Finish("ambient", color, "diffuse",
0.0)
)
c1 = vp.Sphere(start, radius, texture)
c2 = vp.Sphere(end, radius, texture)
c3 = vp.Cylinder(start, end, radius, texture)
return vp.Union(c1, c2, c3)
def _get_block(self):
return Block(.2, .05, .1,
0.025).get_block().add_args(["translate", [0, 0.05, 0]])
color = (240 + random.randint(-5, 5), 180 + random.randint(-5, 5),
75 + random.randint(-5, 5))
return vapory.Box(
[-0.195, 0, -0.095], [.195, 0.095, 0.095],
vapory.Texture(
vapory.Pigment('color', [0.5 * 1. / 255. * e for e in color])),
vapory.Finish("ambient", 0.1, "diffuse", 0.6))
def __init__(self):
color = (80/255., 80/255., 80/255.)
texture = vp.Texture(vp.Pigment('color', color),
vp.Finish('ambient', color, 'diffuse', 0))
self.body = vp.Union(self._get_body(texture), self._get_trunk(texture), self._get_Handle(texture))
cos = math.cos(math.pi / 180 * 15)
sin = math.sin(math.pi / 180 * 15)
self.origin = [0, -(0.14 * cos + .24), -(.2 + 0.14 * sin)]
self.body = self.body.add_args(["translate", self.origin])
self.position = [0, 0, 0]
self.orientation = 0
def __init__(self, filename=None, ratio=2., lift=0, simple=False):
texture = vp.Texture(
vp.Pigment('color', [0.1 * e for e in [0.20, 0.20, 0.20]]),
vp.Finish("ambient", 1.0, "diffuse", 0.0))
cylinder = vp.Cylinder([0, 0, 0], [0, 2.5, 0], 0.02, texture)
texture = vp.Texture(
"" if simple else "uv_mapping",
vp.Pigment(vp.ImageMap('png', filename, 'once')),
vp.Finish("ambient", 1.0)) if filename is not None else vp.Texture(
vp.Pigment('color', [0.9 * e for e in [1.0, 1.00, 1.00]]),
vp.Finish("ambient", 1.0, "diffuse", 0.0))
sheet = vp.Polygon(5, [0, 0, 0], [0, 1, 0], [1, 1, 0], [1, 0, 0],
[0, 0, 0], texture, "scale", [ratio * 0.5, 0.5, 0],
"translate", [0, 2, 0]) if simple else Parametric(
self._get_parametric_body(), texture, "scale",
[ratio *
0.5, 0.5, 0], "translate", [0, 2, 0]) #
self.flag = vp.Union(cylinder, sheet)
self.flag = self.flag.add_args(
["rotate", [0, 90, 0], "translate", [0, lift, 0]])
def __init__(self):
self.blocks = []
for i in range(-1, 2):
block = self._get_block().add_args(["translate", [i * .4, .0, .7]])
self.blocks.append(block)
block = self._get_block().add_args(
["translate", [i * .4, .0, -.7]])
self.blocks.append(block)
block = self._get_block().add_args(["translate", [i * .4, .2, .7]])
self.blocks.append(block)
block = self._get_block().add_args(
["translate", [i * .4, .2, -.7]])
self.blocks.append(block)
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [.7, 0.1, 0.4 * i]])
self.blocks.append(block)
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [-.7, 0.1, 0.4 * i]])
self.blocks.append(block)
for i in range(-2, 2):
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [.7, 0, 0.4 * i + .2]])
self.blocks.append(block)
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [-.7, 0, 0.4 * i + .2]])
self.blocks.append(block)
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [.7, 0.2, 0.4 * i + .2]])
self.blocks.append(block)
block = self._get_block().add_args(
["rotate", [0, 90, 0], "translate", [-.7, 0.2, 0.4 * i + .2]])
self.blocks.append(block)
block = self._get_block().add_args(
["translate", [0.4 * i + .2, 0.1, 0.7]])
self.blocks.append(block)
block = self._get_block().add_args(
["translate", [0.4 * i + .2, 0.1, -0.7]])
self.blocks.append(block)
color = (75, 71, 0)
self.blocks.append(
vapory.Box([-.79, 0, -0.79], [.79, 0.29, 0.79],
vapory.Texture(
vapory.Pigment('color',
[0.8 / 255. * e for e in color])),
vapory.Finish("ambient", [1 / 255. * e for e in color],
"diffuse", 0.0)))
self.foundation = vapory.Union()
self.foundation.args = self.blocks
self.foundation = self.foundation.add_args(["scale", [2, 2, 2]])
def __init__(self):
texture = vp.Texture(
vp.Pigment('color', [0.15 * e for e in [0.50, 0.50, 0.10]]),
vp.Finish("ambient", 1., "diffuse", 0))
cylinder1 = self._get_cylinder([0, 0, 0], [0, -1.15, 0], 0.02, texture)
cylinder2 = self._get_cylinder([0, -1.15, 0], [0, -1.2, -0.015], 0.02,
texture)
#texture = vp.Texture(vp.Pigment('color', [0.15 * e for e in [0.50, 0.50, 0.10]]),
# vp.Finish("phong", 0.9, "metallic", 10))
#texture = vp.Texture("Polished_Brass")
shovel = Parametric(self._get_parametric_body(), texture, "scale",
[0.5, 0.5, 0.5], "rotate", [0, 0, 90], "translate",
[0.25, -1.2, -.045])
self.position = [0, 0, 0]
self.orientation = 0
self.body = vp.Union(cylinder1, cylinder2, shovel)
list.append(self.foundation)
# for block in self.blocks:
# list.append(block)
if __name__ == "__main__":
camera = vapory.Camera('orthographic', 'angle', 50, 'location',
[5.0, 6.0, 5.0], 'look_at', [0.0, 1.0, 0.0])
sun = vapory.LightSource([1500, 2500, 2500], 'color', 1)
sky = vapory.Sphere([0, 0, 0], 1, 'hollow',
vapory.Texture(
vapory.Pigment(
'gradient', [0, 1, 0],
vapory.ColorMap([0, 'color', 'White'],
[1, 'color', 'White']),
'quick_color', 'White'),
vapory.Finish('ambient', 1, 'diffuse', 0)),
'scale', 10000)
ground = vapory.Box(
[-2, 0, -2], [2, -0.05, 2],
vapory.Texture(
vapory.Pigment('color', [1.1 * e for e in [0.40, 0.45, 0.85]])),
vapory.Finish('phong', 0.1))
objects = [sun, sky, ground]
Foundation().add_objects(objects)
scene = vapory.Scene(camera,
objects,
def _get_box(self, p1, p2, color) -> vp.Box:
return vp.Box(
p1, p2,
vp.Texture(vp.Pigment('color', [1. / 255. * e for e in color])),
vp.Finish("ambient", 1.0, "diffuse", 0.0))
def geometry_to_povray(appearance, geometry, object, transform, properties):
if get_property_yes(properties, [geometry, object], "hide"):
return []
#analyze appearance
tex = get_property(properties, [geometry, object], 'texture')
if tex is None:
tex_params = []
#pigment
pigment = get_property(properties, [geometry, object], 'pigment')
if pigment is None:
transmit = 1. - appearance.getColor()[3]
pigment = vp.Pigment(*[
'color',
list(appearance.getColor())[0:3], 'transmit',
get_property(properties, [geometry, object], 'ambient',
transmit)
])
tex_params.append(pigment)
#finish
finish = get_property(properties, [geometry, object], 'finish')
if finish is None:
finish=vp.Finish(*['ambient',get_property(properties,[geometry,object],'ambient',0.2), \
'diffuse',get_property(properties,[geometry,object],'diffuse',0.7), \
'phong',get_property(properties,[geometry,object],'phong',1.), \
'phong_size',get_property(properties,[geometry,object],'phong_size',50)])
tex_params.append(finish)
#normal
normal = get_property(properties, [geometry, object], 'normal')
if normal is not None:
tex_params.append(normal)
#texture
tex = vp.Texture(*tex_params)
#create geometry
ret = []
if transform is None:
transform = geometry.getCurrentTransform()
else:
transform = se3.mul(transform, geometry.getCurrentTransform())
if geometry.type() == "GeometricPrimitive":
prim = geometry.getGeometricPrimitive()
if get_property_yes(properties, [prim, geometry, object], "hide"):
return ret
if prim.type == "Point":
rad = get_property(properties, [prim, geometry, object], "radius")
if rad is not None:
mesh_param = [se3.apply(transform, prim.properties[0:3]), rad]
mesh_param.append(tex)
mesh = vp.Sphere(*mesh_param)
ret.append(mesh)
elif prim.type == "Sphere":
mesh_param = [
se3.apply(transform, prim.properties[0:3]), prim.properties[3]
]
mesh_param.append(tex)
mesh = vp.Sphere(*mesh_param)
ret.append(mesh)
elif prim.type == "Segment":
rad = get_property(properties, [prim, geometry, object], "radius")
if rad is not None:
mesh_param = [
se3.apply(transform, prim.properties[0:3]),
se3.apply(transform, prim.properties[3:6]), rad
]
mesh_param.append(tex)
mesh = vp.Cylinder(*mesh_param)
ret.append(mesh)
elif prim.type == "AABB":
mesh_param = [
se3.apply(transform, prim.properties[0:3]),
se3.apply(transform, prim.properties[3:6])
]
mesh_param.append(tex)
mesh = vp.Box(*mesh_param)
ret.append(mesh)
elif geometry.type() == "Group":
for idElem in range(geometry.numElements()):
elem = geometry.getElement(idElem)
elem.getCurrentTransform()
ret += geometry_to_povray(appearance=appearance,
geometry=elem,
object=object,
transform=transform,
properties=properties)
elif geometry.type() == "TriangleMesh":
tm = geometry.getTriangleMesh()
if get_property_yes(properties, [geometry, object], "smooth"):
vss = [
se3.apply(transform, tuple(tm.vertices[i * 3:i * 3 + 3]))
for i in range(len(tm.vertices) // 3)
]
iss = [
tuple(tm.indices[i * 3:i * 3 + 3])
for i in range(len(tm.indices) // 3)
]
mesh_param = [
vp.VertexVectors(*([len(vss)] + vss)),
vp.FaceIndices(*([len(iss)] + iss))
]
mesh_param.append(tex)
mesh = vp.Mesh2(*mesh_param)
else:
vss = [
se3.apply(transform, tuple(tm.vertices[i * 3:i * 3 + 3]))
for i in range(len(tm.vertices) // 3)
]
iss = [
tuple(tm.indices[i * 3:i * 3 + 3])
for i in range(len(tm.indices) // 3)
]
mesh_param = [
vp.Triangle(vss[it[0]], vss[it[1]], vss[it[2]]) for it in iss
]
mesh_param.append(tex)
mesh = vp.Mesh(*mesh_param)
ret.append(mesh)
elif geometry.type() == "VolumeGrid":
from skimage import measure
import numpy as np
grid = geometry.getVolumeGrid()
volume = np.reshape(np.array(list(grid.values)), tuple(grid.dims))
spacing = [
(b - a) / d
for a, b, d in zip(grid.bbox[0:3], grid.bbox[3:6], grid.dims[0:3])
]
vss, iss, nss, _ = measure.marching_cubes_lewiner(volume,
level=0.,
spacing=spacing)
vss += np.expand_dims(np.array(grid.bbox[0:3]).T, 0)
vss = [vss[it, :].tolist() for it in range(vss.shape[0])]
iss = [iss[it, :].tolist() for it in range(iss.shape[0])]
nss = [nss[it, :].tolist() for it in range(nss.shape[0])]
mesh_param = [
vp.VertexVectors(*([len(vss)] + vss)),
vp.NormalVectors(*([len(nss)] + nss)),
vp.FaceIndices(*([len(iss)] + iss))
]
mesh_param.append(tex)
mesh = vp.Mesh2(*mesh_param)
ret.append(mesh)
elif geometry.type() == "PointCloud":
cloud_param = []
cloud = geometry.getPointCloud()
rad = get_property(properties, [cloud, geometry, object], "radius")
for id in range(len(cloud.vertices) // 3):
cloud_param.append(
vp.Sphere(cloud.vertices[id * 3:id * 3 + 3], rad))
cloud_param.append(tex)
mesh = vp.Union(*cloud_param)
ret.append(mesh)
else:
print("Geometry (name=%s) type: %s not supported!" %
(object.getName(), geometry.type()))
return ret
def _get_sphere(self, point, radius, color) -> vapory.Sphere:
return vapory.Sphere(point, radius, vapory.Texture(vapory.Pigment('color', [1. / 255. * e for e in color])),
vapory.Finish("ambient", 0.1, "diffuse", 0.6))
def _get_cylinder(self, p1, p2, radius, color) -> vapory.Cylinder:
return vapory.Sphere(p1, p2, radius, vapory.Texture(vapory.Pigment('color', [1. / 255. * e for e in color])),
vapory.Finish("ambient", 0.1, "diffuse", 0.6))
def trav(start, branch, r, objects, t, iter):
end = branch[0]
# print(end[3])
# print(start, end)
cylinder = vp.Cone(
[start[0], start[2], start[1]], end[3], [end[0], end[2], end[1]],
end[3],
vp.Texture(vp.Pigment('color',
[0.7 / 255. * e for e in [98, 78, 44]])),
vp.Finish('ambient', [0.7 / 255. * e for e in [98, 78, 44]], "diffuse",
0.1))
top = vp.Sphere(
[end[0], end[2], end[1]], end[3],
vp.Texture(vp.Pigment('color', [.7 / 255. * e for e in [98, 78, 44]])),
vp.Finish('ambient', [0.7 / 255. * e for e in [98, 78, 44]], "diffuse",
0.1))
for i in range(0, int(t * 450)):
(dx, dy, dz) = Vector3D.fromAngles(
random.randint(0, 180), random.randint(0, 360),
t * random.randint(0, 5) / (5. *
(iter + 2) if iter != 0 else 1000))
# dx = random.randint(-5, 5) / 30.
# dy = random.randint(-5, 5) / 30.
# dz = random.randint(-5, 5) / 30.
dr = random.randint(-5, 5) / 30.
dg = random.randint(-5, 5) / 30.
db = random.randint(-5, 5) / 30.
ddx = random.randint(1, 10) / 10000.
ddy = random.randint(0, 10) / 10000.
ddz = random.randint(0, 10) / 10000.
color = (random.randint(40, 180), random.randint(120, 250),
random.randint(0, 50))
leave = vp.Cylinder(
[end[0] + dx, end[2] + dy, end[1] + dz],
[end[0] + dx + ddx, end[2] + dy + ddy, end[1] + dz + ddz],
.01 + random.randint(0, 10) / 1000.,
vp.Texture(vp.Pigment('color', [2 / 255. * e for e in color])),
vp.Finish('phong', 1))
objects.append(
leave.add_args(["scale", [2, 2, 2], "translate", [0, 0.58, 0]]))
for i in range(0, int(random.randint(0, 10) / 5)):
(dx, dy, dz) = Vector3D.fromAngles(
random.randint(90, 180), random.randint(0, 360),
t * random.randint(4, 4) / (5 * (iter + 2) if iter != 0 else 1000))
color = (random.randint(190, 250), random.randint(40, 80),
random.randint(40, 80))
fruit = vp.Sphere([end[0] + dx, end[2] + dz, end[1] + dy], 0.04,
vp.Texture(
vp.Pigment('color',
[2 / 255. * e for e in color])))
#objects.append(fruit.add_args(["scale", [2, 2, 2], "translate", [0, 0.58, 0]]))
objects.append(
cylinder.add_args(["scale", [2, 2, 2], "translate", [0, 0.58, 0]]))
objects.append(
top.add_args(["scale", [2, 2, 2], "translate", [0, 0.58, 0]]))
for branch in branch[1:]:
trav(end, branch, r - (0.005 if r != 0.05 else 0.02), objects, t,
iter + 1)
def _get_cylinder(self, p1, p2, radius, color) -> vp.Cylinder:
return vp.Cylinder(
p1, p2, radius,
vp.Texture(vp.Pigment('color', [1. / 255. * e for e in color])),
vp.Finish("ambient", 1.0, "diffuse", 0.0))
def _get_cylinder(self, start, end, radius):
c1 = vp.Sphere(start, radius, vp.Texture("Brass_Metal"))
c2 = vp.Sphere(end, radius, vp.Texture("Brass_Metal"))
c3 = vp.Cylinder(start, end, radius, vp.Texture("Brass_Metal"))
return vp.Union(c1, c2, c3)
def __init__(self, dict_of_angles, crossarm=False, falda=False):
width = 0.07
right_pelvis = [width, 0, 0]
left_pelvis = [-width, 0, 0]
rad = (dict_of_angles["torso"]) * math.pi / 180.
neck = [1.5 * width, 0 - 0.6 * math.cos(rad), 0.6 * math.sin(rad)]
right_shoulder = [1.5 * width, neck[1], neck[2]]
left_shoulder = [- 1.5 * width, neck[1], neck[2]]
self.left_shoulder = left_shoulder
right_knee = self.get_point(right_pelvis, dict_of_angles["thigh_1"], 0, .5)
right_foot = self.get_point(right_knee, dict_of_angles["shin_1"], 0, .5)
left_knee = self.get_point(left_pelvis, dict_of_angles["thigh_2"], 0, .5)
left_foot = self.get_point(left_knee, dict_of_angles["shin_2"], 0, .5)
left_elbow = self.get_point(left_shoulder, dict_of_angles["upper_arm1"], 0, .4)
left_elbow = (left_elbow[0] - 0.04, left_elbow[1], left_elbow[2])
left_hand = self.get_point(left_elbow, dict_of_angles["lower_arm1"], 0, .4)
right_elbow = self.get_point(right_shoulder, dict_of_angles["upper_arm2"], -0, .4)
right_elbow = (right_elbow[0] + 0.04, right_elbow[1], right_elbow[2])
right_hand = self.get_point(right_elbow, dict_of_angles["lower_arm2"], -0, .4)
if crossarm:
left_hand = (-left_hand[0], left_hand[1], left_hand[2])
self.left_hand = left_hand
self.right_hand = right_hand
texture = vapory.Texture(vapory.Pigment('color', [0.0 * e for e in [0.20, 0.20, 0.20]]),
vapory.Finish('phong', 0.0))
deg = (dict_of_angles["torso"])
self.torso = vapory.Box([-width, 0, -width / 2], [width, 0.6, width / 2], texture,
"rotate", [-deg - 180, 0, 0],
"translate", [0, 0, 0])
self.lower_left_leg = self.get_rounded_cylinder(left_knee, left_foot, 0.07 / 2, texture)
self.upper_left_leg = self.get_rounded_cylinder(left_pelvis, left_knee, 0.07 / 2, texture)
self.lower_right_leg = self.get_rounded_cylinder(right_knee, right_foot, 0.07 / 2, texture)
self.upper_right_leg = self.get_rounded_cylinder(right_pelvis, right_knee, 0.07 / 2, texture)
self.hip = self.get_rounded_cylinder(left_pelvis, right_pelvis, 0.07 / 2, texture)
self.left_flank = self.get_rounded_cylinder([-width, 0, 0], [-width, neck[1], neck[2]], 0.07 / 2, texture)
self.right_flank = self.get_rounded_cylinder([width, 0, 0], [width, neck[1], neck[2]], 0.07 / 2, texture)
self.shoulder = self.get_rounded_cylinder(left_shoulder, right_shoulder, width / 2, texture)
self.upper_left_arm = self.get_rounded_cylinder(left_shoulder, left_elbow, width / 2, texture)
self.lower_left_arm = self.get_rounded_cylinder(left_elbow, left_hand, width / 2, texture)
self.upper_right_arm = self.get_rounded_cylinder(right_shoulder, right_elbow, width / 2, texture)
self.lower_right_arm = self.get_rounded_cylinder(right_elbow, right_hand, width / 2, texture)
rad = (dict_of_angles["head"]) * math.pi / 180.
self.head = vapory.Sphere(
[0, neck[1] - (0.35 / 2 + width) * math.cos(rad), neck[2] + (0.35 / 2 + width) * math.sin(rad)], 0.35 / 2,
texture)
self.body = vapory.Union(self.torso, self.lower_left_leg, self.upper_left_leg, self.lower_right_leg,
self.upper_right_leg, self.hip, self.left_flank, self.right_flank, self.shoulder,
self.upper_left_arm, self.lower_left_arm, self.upper_right_arm, self.lower_right_arm,
self.head)
if (falda):
falda = vapory.Triangle(left_pelvis, left_knee, right_knee, texture)
self.body.args.append(falda)
p1 = [0, neck[1] - (2.72 - 2.96), neck[2] + 1.57 - 1.74]
p2 = [0, neck[1] - (3.17 - 2.96), neck[2] + 1.60 - 1.74]
p3 = [0, neck[1] - (2.72 - 2.96), neck[2] + 1.68 - 1.74]
hair = vapory.Triangle(p1, p2, p3, texture)
hair = hair.add_args(["rotate", [0 * 180. / math.pi * rad, 0, 0]])
self.body.args.append(hair)
p1 = [0, neck[1] - (3.01 - 2.96), neck[2] + 1.62 - 1.74]
p2 = [0, neck[1] - (3.26 - 2.96), neck[2] + 1.59 - 1.74]
p3 = [0, neck[1] - (3.26 - 2.96), neck[2] + 1.54 - 1.74]
hair = vapory.Triangle(p1, p2, p3, texture)
hair = hair.add_args(["rotate", [0 * 180. / math.pi * rad, 0, 0]])
self.body.args.append(hair)
p1 = [0, neck[1] - (3.26 - 2.96), neck[2] + (1.59 + 1.54) / 2. - 1.74]
hair = vapory.Sphere(p1, 0.025, texture)
hair = hair.add_args(["rotate", [0 * 180. / math.pi * rad, 0, 0]])
self.body.args.append(hair)
# self.body = self.body.add_args(["scale", [0.5, 0.5, 0.5]])
pos = dict_of_angles["pos"]
self.body = self.body.add_args(["translate", [0, pos[1], pos[0]]])
def _get_sphere(self, point, radius, color) -> vp.Sphere:
return vp.Sphere(
point, radius,
vp.Texture(vp.Pigment('color', [1 / 255. * e for e in color])),
vp.Finish("ambient", 1.0, "diffuse", 0.0))
