本文整理汇总了Python中tracer.tracer_engine.TracerEngine类的典型用法代码示例。如果您正苦于以下问题:Python TracerEngine类的具体用法?Python TracerEngine怎么用?Python TracerEngine使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了TracerEngine类的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: test_pyramid
def test_pyramid(self):
"""A simple right-pyramid triangular mesh"""
# Face set:
verts = np.vstack((np.zeros(3), np.eye(3))) # origin + unit along each axis
faces = np.array([[0, 1, 2], [0, 1, 3], [0, 2, 3], [1, 2, 3]])
assembly = Assembly(
objects=[TriangulatedSurface(verts, faces, perfect_mirror)])
# Ray bundle:
pos = np.c_[[1.5, 0.5, 0.5], [-0.5, 0.5, 0.5],
[0.5, 1.5, 0.5], [0.5, -0.5, 0.5],
[0.5, 0.5, -0.5], [0.5, 0.5, 1.5]]
direct = np.c_[[-1., 0., 0.], [1., 0., 0.],
[0., -1., 0.], [0., 1., 0.],
[0., 0., 1.], [0., 0., -1.]]
rayb = RayBundle(pos, direct, energy=np.ones(6))
engine = TracerEngine(assembly)
verts = engine.ray_tracer(rayb, 1, .05)[0]
p = engine.tree[-1].get_parents()
zrays = (p >= 4)
np.testing.assert_array_equal(verts[:,zrays],
np.tile(np.c_[[0.5, 0.5, 0.]], (1,4)) )
yrays = (p == 2) | (p ==3) # Only 2 rays here. Edge degeneracy? maybe.
np.testing.assert_array_equal(verts[:,yrays],
np.tile(np.c_[[0.5, 0., 0.5]], (1,4)) )
xrays = (p < 2)
np.testing.assert_array_equal(verts[:,xrays],
np.tile(np.c_[[0., 0.5, 0.5]], (1,4)) )
开发者ID:casselineau,项目名称:Tracer,代码行数:30,代码来源:test_face_set.py
示例2: TestObjectBuilding2
class TestObjectBuilding2(unittest.TestCase):
"""Tests an object composed of two flat surfaces"""
flat_only = True
def setUp(self):
self.assembly = Assembly()
surface1 = Surface(flat_surface.FlatGeometryManager(),
optics_callables.RefractiveHomogenous(1., 1.5),
location=N.array([0,0,-1.]))
surface2 = Surface(flat_surface.FlatGeometryManager(),
optics_callables.RefractiveHomogenous(1.5, 1.),
location=N.array([0,0,1.]))
self.object = AssembledObject(surfs=[surface1, surface2])
self.assembly.add_object(self.object)
x = 1/(math.sqrt(2))
dir = N.c_[[0,-x,x]]
position = N.c_[[0,1,-2.]]
self._bund = RayBundle(position, dir, energy=N.r_[1.], ref_index=N.r_[1.])
def test_refraction1(self):
"""Tests the refractive functions after a single intersection"""
self.engine = TracerEngine(self.assembly)
ans = self.engine.ray_tracer(self._bund,1,.05)
params = N.arctan(ans[1][1]/ans[1][2])
correct_params = N.r_[0.785398163, -.4908826]
N.testing.assert_array_almost_equal(params, correct_params)
def test_refraction2(self):
"""Tests the refractive functions after two intersections"""
self.engine = TracerEngine(self.assembly)
ans = self.engine.ray_tracer(self._bund,2,.05)
params = N.arctan(ans[1][1]/ans[1][2])
correct_params = N.r_[-0.7853981]
N.testing.assert_array_almost_equal(params, correct_params)
开发者ID:casselineau,项目名称:Tracer,代码行数:35,代码来源:test_objects.py
示例3: trace
def trace(self, rph, iters = 10000, minE = 1e-9, render = False):
"""Commences raytracing using (rph) number of rays per heliostat, for a maximum of
(iters) iterations, discarding rays with energy less than (minE). If render is
True, a 3D scene will be displayed which would need to be closed to proceed."""
# Get the solar vector using azimuth and elevation
sun_vec = solar_vector(self.sun_az*degree, self.sun_elev*degree)
# Calculate number of rays used. Rays per heliostat * number of heliostats.
num_rays = rph*len(self.field.get_heliostats())
self.no_of_rays += num_rays
# Generates the ray bundle
rot_sun = rotation_to_z(-sun_vec)
direct = N.dot(rot_sun, pillbox_sunshape_directions(num_rays, 0.00465))
xy = N.random.uniform(low=-0.25, high=0.25, size=(2, num_rays))
base_pos = N.tile(self.pos, (rph, 1)).T #Check if its is rph or num_rays
base_pos += N.dot(rot_sun[:,:2], xy)
base_pos -= direct
rays = RayBundle(base_pos, direct, energy=N.ones(num_rays))
# Perform the raytracing
e = TracerEngine(self.plant)
e.ray_tracer(rays, iters, minE, tree=True)
e.minener = minE
rays_in = sum(e.tree._bunds[0].get_energy())
self.helio_hits = sum(e.tree._bunds[1].get_energy())
# Optional rendering
if render == True:
trace_scene = Renderer(e)
trace_scene.show_rays()
开发者ID:zebkee,项目名称:Bladed_Receiver,代码行数:32,代码来源:tower_scene.py
示例4: test_absorbed_to_back
def test_absorbed_to_back(self):
"""Absorbed rays moved to back of recorded bundle"""
engine = TracerEngine(self.assembly)
engine.ray_tracer(self.bund, 300, .05)
parents = engine.tree.ordered_parents()
N.testing.assert_equal(parents, [N.r_[2,3, 0, 1]])
开发者ID:casselineau,项目名称:Tracer,代码行数:7,代码来源:test_tracer_tree.py
示例5: TestTraceProtocol1
class TestTraceProtocol1(unittest.TestCase):
"""
Tests intersect_ray and the bundle driver with a single flat surface, not rotated, with
a single interation
"""
def setUp(self):
dir = N.array([[1,1,-1],[-1,1,-1],[-1,-1,-1],[1,-1,-1]]).T/math.sqrt(3)
position = N.c_[[0,0,1],[1,-1,1],[1,1,1],[-1,1,1]]
self._bund = RayBundle(position, dir, energy=N.ones(4))
self.assembly = Assembly()
object = AssembledObject()
object.add_surface(Surface(FlatGeometryManager(), opt.perfect_mirror))
self.assembly.add_object(object)
self.engine = TracerEngine(self.assembly)
def test_intersect_ray1(self):
surfaces = self.assembly.get_surfaces()
objects = self.assembly.get_objects()
surfs_per_obj = [len(obj.get_surfaces()) for obj in objects]
surf_ownership = N.repeat(N.arange(len(objects)), surfs_per_obj)
ray_ownership = -1*N.ones(self._bund.get_num_rays())
surfs_relevancy = N.ones((len(surfaces), self._bund.get_num_rays()), dtype=N.bool)
params = self.engine.intersect_ray(self._bund, surfaces, objects, \
surf_ownership, ray_ownership, surfs_relevancy)[0]
self.failUnless(params.all())
def test_ray_tracer(self):
"""Ray tracer after one iteration returns what the surface would have"""
params = self.engine.ray_tracer(self._bund,1,.05)[0]
correct_pts = N.zeros((3,4))
correct_pts[:2,0] = 1
N.testing.assert_array_almost_equal(params, correct_pts)
开发者ID:joewan,项目名称:tracer,代码行数:35,代码来源:test_tracer_engine.py
示例6: test_tetrahedron
def test_tetrahedron(self):
"""Triangular mesh with oblique triangles"""
# Face set:
theta = np.arange(np.pi/2., np.pi*2, 2*np.pi/3)
base_verts = np.vstack(( np.cos(theta), np.sin(theta), np.ones(3) )).T
verts = np.vstack((np.zeros(3), base_verts))
faces = np.array([[0, 1, 2], [0, 1, 3], [0, 2, 3], [1, 2, 3]])
fset = TriangulatedSurface(verts, faces, perfect_mirror)
# Flat floor:
floor = rect_one_sided_mirror(5., 5., 1.)
floor.set_location(np.r_[0., 0., 1.])
assembly = Assembly(objects=[fset, floor])
# Ray bundle of 3 rays starting at equal angles around the tetrahedron:
theta -= np.pi/3.
pos = np.vstack((np.cos(theta), np.sin(theta), np.ones(3)*0.2)) * 0.2
direct = np.vstack(( np.zeros((2,3)), np.ones(3) ))
rayb = RayBundle(pos, direct, energy=np.ones(6))
# Check that the points on the floor describe an isosceles.
engine = TracerEngine(assembly)
engine.ray_tracer(rayb, 2, .05)[0]
verts = engine.tree[-1].get_vertices()
sizes = np.sqrt(
np.sum((verts - np.roll(verts, 1, axis=1))**2, axis=0))
self.assertAlmostEqual(sizes[0], sizes[1])
self.assertAlmostEqual(sizes[2], sizes[1])
'''
开发者ID:casselineau,项目名称:Tracer,代码行数:32,代码来源:test_face_set.py
示例7: trace
def trace(self):
"""Generate a flux map using much more rays than drawn"""
# Generate a large ray bundle using a radial stagger much denser
# than the field.
sun_vec = solar_vector(self.sun_az*degree, self.sun_elev*degree)
hstat_rays = 20
num_rays = hstat_rays*len(self.field.get_heliostats())
rot_sun = rotation_to_z(-sun_vec)
direct = N.dot(rot_sun, pillbox_sunshape_directions(num_rays, 0.00465))
xy = N.random.uniform(low=-0.25, high=0.25, size=(2, num_rays))
base_pos = N.tile(self.pos, (hstat_rays, 1)).T
base_pos += N.dot(rot_sun[:,:2], xy)
base_pos -= direct
rays = RayBundle(base_pos, direct, energy=N.ones(num_rays))
# Perform the trace:
e = TracerEngine(self.plant)
e.ray_tracer(rays, 100, 0.05, tree=True)
e.minener = 1e-5
# Render:
trace_scene = Renderer(e)
trace_scene.show_rays()
开发者ID:jx1a0,项目名称:Tracer,代码行数:26,代码来源:Heliostat_field_coin.py
示例8: test_case
def test_case(focus, num_rays=100, h_depth=0.7, side=0.4):
# Case parameters:
D = 5.
center = N.c_[[0, 7., 7.]]
x = -1/(math.sqrt(2))
direction = N.array([0,x,x])
radius_sun = 3.
ang_range = 0.005
iterate = 100
min_energy = 1e-6
# Model:
assembly = MiniDish(D, focus, 0.9, focus + h_depth, side, h_depth, 0.9)
assembly.set_transform(rotx(-N.pi/4))
# Rays:
sun = solar_disk_bundle(num_rays, center, direction, radius_sun, ang_range,
flux=1000.)
# Do the tracing:
engine = TracerEngine(assembly)
engine.ray_tracer(sun, iterate, min_energy)
resolution = 20
# Render a subset of the total rays:
v = R(engine)
v.show_rays(max_rays=100, resolution=resolution, fluxmap=True)
# Plot, scale in suns:
f = plot_hits(assembly.histogram_hits(bins=resolution)[0]/(side/resolution)**2/1000., (-side/2., side/2., -side/2., side/2.))
f.show()
开发者ID:casselineau,项目名称:Tracer,代码行数:34,代码来源:test_case.py
示例9: TestObjectBuilding1
class TestObjectBuilding1(unittest.TestCase):
"""Tests an object composed of sphere surfaces"""
def setUp(self):
self.assembly = Assembly()
surface1 = Surface(HemisphereGM(3.), optics_callables.perfect_mirror,
location=N.array([0,0,-1.]),
rotation=general_axis_rotation(N.r_[1,0,0], N.pi))
surface2 = Surface(HemisphereGM(3.), optics_callables.perfect_mirror,
location=N.array([0,0,1.]))
self.object = AssembledObject()
self.object.add_surface(surface1)
self.object.add_surface(surface2)
self.assembly.add_object(self.object)
dir = N.c_[[0,0,1.],[0,0,1.]]
position = N.c_[[0,0,-3.],[0,0,-1.]]
self._bund = RayBundle(position, dir, energy=N.ones(2))
def test_object(self):
"""Tests that the assembly heirarchy works at a basic level"""
self.engine = TracerEngine(self.assembly)
inters = self.engine.ray_tracer(self._bund,1,.05)[0]
correct_inters = N.c_[[0,0,2],[0,0,-2]]
N.testing.assert_array_almost_equal(inters, correct_inters)
def test_translation(self):
"""Tests an assembly that has been translated"""
trans = N.array([[1,0,0,0],[0,1,0,0],[0,0,1,1],[0,0,0,1]])
self.assembly.transform_children(trans)
self.engine = TracerEngine(self.assembly)
params = self.engine.ray_tracer(self._bund,1,.05)[0]
correct_params = N.c_[[0,0,3],[0,0,-1]]
N.testing.assert_array_almost_equal(params, correct_params)
def test_rotation_and_translation(self):
"""Tests an assembly that has been translated and rotated"""
self._bund = RayBundle()
self._bund.set_vertices(N.c_[[0,-5,1],[0,5,1]])
self._bund.set_directions(N.c_[[0,1,0],[0,1,0]])
self._bund.set_energy(N.r_[[1,1]])
self._bund.set_ref_index(N.r_[[1,1]])
trans = generate_transform(N.r_[[1,0,0]], N.pi/2, N.c_[[0,0,1]])
self.assembly.transform_children(trans)
self.engine = TracerEngine(self.assembly)
params = self.engine.ray_tracer(self._bund,1,.05)[0]
correct_params = N.c_[[0,-2,1]]
N.testing.assert_array_almost_equal(params, correct_params)
开发者ID:casselineau,项目名称:Tracer,代码行数:58,代码来源:test_objects.py
示例10: test_cylinder_height
def test_cylinder_height(self):
"""The bounding cylinder exists for planoconvex lens"""
f = self.lens.focal_length()
rb = RayBundle(N.c_[[0., 0., -0.01]], N.c_[[1., 0., 0.]],
energy=N.r_[1.], ref_index=N.r_[1.5])
e = TracerEngine(Assembly([self.lens]))
verts, dirs = e.ray_tracer(rb, 1, 1e-6)
N.testing.assert_array_equal(verts, N.array([]).reshape(3,0))
开发者ID:casselineau,项目名称:Tracer,代码行数:10,代码来源:test_spherical_lens.py
示例11: test_cylinder
def test_cylinder(self):
"""The bounding cylinder exists for biconcave lens"""
f = self.lens.focal_length()
rb = RayBundle(N.c_[[0., 0., 0.08]], N.c_[[1., 0., 0.]],
energy=N.r_[1.], ref_index=N.r_[1.5])
e = TracerEngine(Assembly([self.lens]))
verts, dirs = e.ray_tracer(rb, 1, 1e-6)
N.testing.assert_array_equal(verts, N.tile(N.c_[[0.5, 0., 0.08]], (1,2)))
N.testing.assert_array_equal(dirs, N.c_[[-1., 0., 0.], [1., 0., 0.]])
开发者ID:casselineau,项目名称:Tracer,代码行数:11,代码来源:test_spherical_lens.py
示例12: test_paraxial_ray
def test_paraxial_ray(self):
"""A paraxial ray reaches the focus"""
rb = RayBundle(N.c_[[0., 0.001, 1.]], N.c_[[0., 0., -1.]],
energy=N.r_[1.], ref_index=N.r_[1.])
screen = rect_one_sided_mirror(5, 5)
f = self.lens.focal_length()
screen.set_transform(translate(0, 0, -f))
e = TracerEngine(Assembly([self.lens, screen]))
vert, _ = e.ray_tracer(rb, 3, 1e-6)
self.failUnlessAlmostEqual(vert[1,2], 0, 4)
开发者ID:casselineau,项目名称:Tracer,代码行数:11,代码来源:test_spherical_lens.py
示例13: test_regular
def test_regular(self):
"""One-sided plate without rotation"""
e = TracerEngine(Assembly(objects=[self.mirror]))
e.ray_tracer(self.bund, 1, 0.05)
outg = e.tree[-1]
correct_verts = N.zeros((3,2))
correct_verts[0] = N.r_[0, 0.5]
N.testing.assert_array_equal(
outg.get_vertices()[:,outg.get_energy() > 0], correct_verts)
N.testing.assert_array_almost_equal(
outg.get_energy(), N.r_[100., 100., 0, 0])
开发者ID:casselineau,项目名称:Tracer,代码行数:12,代码来源:test_one_sided_mirror.py
示例14: test_aim
def test_aim(self):
"""Aiming heliostats works"""
elev = N.pi/4
az = N.pi/2
self.field.aim_to_sun(az, elev)
e = TracerEngine(self.field)
v, d = e.ray_tracer(self.rays, 1, 0.05)
N.testing.assert_array_almost_equal(d[1, :self.pos.shape[0]/2], 0)
N.testing.assert_array_almost_equal(d[0, self.pos.shape[0]/2:], 0)
N.testing.assert_array_almost_equal(abs(d[2]*(v[0] + v[1])/(d[0] + d[1])), 85.5)
开发者ID:casselineau,项目名称:Tracer,代码行数:12,代码来源:test_tower.py
示例15: TestAssemblyBuilding3
class TestAssemblyBuilding3(unittest.TestCase):
"""Tests an assembly composed of objects that are transformed rel. the assembly"""
def setUp(self):
self.assembly = Assembly()
surface1 = Surface(flat_surface.FlatGeometryManager(),
optics_callables.RefractiveHomogenous(1., 1.5),
location=N.array([0,0,-1.]))
surface2 = Surface(flat_surface.FlatGeometryManager(),
optics_callables.RefractiveHomogenous(1., 1.5),
location=N.array([0,0,1.]))
self.object1 = AssembledObject()
self.object1.add_surface(surface1)
self.object1.add_surface(surface2)
boundary = BoundarySphere(location=N.r_[0,0.,3], radius=3.)
surface3 = Surface(CutSphereGM(2., boundary), optics_callables.perfect_mirror)
self.object2 = AssembledObject()
self.object2.add_surface(surface3)
self.transform = generate_transform(N.r_[1,0.,0],0.,N.c_[[0.,0,2]])
self.assembly.add_object(self.object1)
self.assembly.add_object(self.object2, self.transform)
x = 1./(math.sqrt(2))
dir = N.c_[[0,1.,0.],[0,x,x],[0,0,1.]]
position = N.c_[[0,0,2.],[0,0,2.],[0,0.,2.]]
self._bund = RayBundle(position, dir, energy=N.ones(3), ref_index=N.ones(3))
def test_assembly1(self):
"""Tests the assembly after one iteration"""
self.engine = TracerEngine(self.assembly)
ans = self.engine.ray_tracer(self._bund,1,.05)
params = N.arctan(ans[1][1]/ans[1][2])
correct_params = N.r_[0.7853981, 0]
N.testing.assert_array_almost_equal(params, correct_params)
def test_assembly2(self):
"""Tests the assembly after two iterations"""
self.engine = TracerEngine(self.assembly)
params = self.engine.ray_tracer(self._bund,2,.05)[0]
correct_params = N.c_[[0,-1,1], [0,-1,1],[0,0,1]]
N.testing.assert_array_almost_equal(params, correct_params)
def test_assembly3(self):
"""Tests the assembly after three iterations"""
self.engine = TracerEngine(self.assembly)
params = self.engine.ray_tracer(self._bund, 3,.05)[0]
correct_params = N.c_[[0,-2.069044,-1],[0,0,-1]]
N.testing.assert_array_almost_equal(params, correct_params)
开发者ID:casselineau,项目名称:Tracer,代码行数:53,代码来源:test_objects.py
示例16: test_rotated
def test_rotated(self):
"""One-sided plate with rotation"""
rot = sp.roty(N.pi/4.)
self.mirror.set_transform(rot)
e = TracerEngine(Assembly(objects=[self.mirror]))
e.ray_tracer(self.bund, 1, 0.05)
outg = e.tree[-1]
correct_verts = N.array([[0., 0.5], [0., 0.], [0., -0.5]])
N.testing.assert_array_almost_equal(
outg.get_vertices()[:,outg.get_energy() > 0], correct_verts)
N.testing.assert_array_almost_equal(
outg.get_energy(), N.r_[100., 100., 0, 0])
开发者ID:casselineau,项目名称:Tracer,代码行数:14,代码来源:test_one_sided_mirror.py
示例17: TestNestedAssemblies
class TestNestedAssemblies(unittest.TestCase):
def setUp(self):
"""
Prepare an assembly with two subassemblies: one assembly representing
a spherical lens behind a flat screen, and one asssembly representing a
perfect mirror.
The mirror will be placed at the two subassemblies' focus, so a paraxial
ray will come back on the other side of the optical axis.
Reference:
In [1], the lensmaker equation
"""
# focal length = 1, thickness = 1/6
R = 1./6.
back_surf = Surface(HemisphereGM(R), opt.RefractiveHomogenous(1., 1.5), location=N.r_[0., 0., -R/2.])
front_surf = Surface(HemisphereGM(R), opt.RefractiveHomogenous(1., 1.5),location=N.r_[0., 0., R/2.], rotation=rotx(N.pi/2.)[:3,:3])
front_lens = AssembledObject(surfs=[back_surf, front_surf])
back_surf = Surface(RoundPlateGM(R), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., -0.01])
front_surf = Surface(RoundPlateGM(R), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., 0.01])
glass_screen = AssembledObject(surfs=[back_surf, front_surf],
transform=translate(0., 0., 0.5))
lens_assembly = Assembly(objects=[glass_screen, front_lens])
lens_assembly.set_transform(translate(0., 0., 1.))
full_assembly = Assembly(objects=[rect_one_sided_mirror(1., 1., 0.)],
subassemblies = [lens_assembly])
self.engine = TracerEngine(full_assembly)
def test_paraxial_ray(self):
"""A paraxial ray in reflected correctly"""
bund = RayBundle()
bund.set_vertices(N.c_[[0.01, 0., 2.]])
bund.set_directions(N.c_[[0., 0., -1.]])
bund.set_energy(N.r_[100.])
bund.set_ref_index(N.r_[1])
self.engine.ray_tracer(bund, 15, 10.)
non_degenerate = self.engine.tree[-1].get_energy() > 10.
v = self.engine.tree[-1].get_vertices()[:,non_degenerate]
d = self.engine.tree[-1].get_directions()[:,non_degenerate]
# Not high equality demanded, because of spherical aberration.
N.testing.assert_array_almost_equal(v, N.c_[[-0.01, 0., 1.5]], 2)
N.testing.assert_array_almost_equal(d, N.c_[[0., 0., 1.]], 2)
开发者ID:casselineau,项目名称:Tracer,代码行数:50,代码来源:test_tracer_engine.py
示例18: test_assembly3
def test_assembly3(self):
"""Tests the assembly after three iterations"""
self.engine = TracerEngine(self.assembly)
params = self.engine.ray_tracer(self._bund, 3,.05)[0]
correct_params = N.c_[[0,-2.069044,-1],[0,0,-1]]
N.testing.assert_array_almost_equal(params, correct_params)
开发者ID:casselineau,项目名称:Tracer,代码行数:7,代码来源:test_objects.py
示例19: TestHomogenizer
class TestHomogenizer(unittest.TestCase):
def setUp(self):
"""A homogenizer transforms a bundle correctly"""
hmg = rect_homogenizer(5., 3., 10., 0.9)
self.engine = TracerEngine(hmg)
self.bund = RayBundle()
# 4 rays starting somewhat above (+z) the homogenizer
pos = N.zeros((3,4))
pos[2] = N.r_[11, 11, 11, 11]
self.bund.set_vertices(pos)
# One ray going to each wall:
dir = N.c_[[1, 0, -1], [-1, 0, -1], [0, 1, -1], [0, -1, -1]]/N.sqrt(2)
self.bund.set_directions(dir)
# Laborious setup details:
self.bund.set_energy(N.ones(4)*4.)
self.bund.set_ref_index(N.ones(4))
def test_first_hits(self):
"""Test bundle enters homogenizer correctly"""
v, d = self.engine.ray_tracer(self.bund, 1, 0.05)
out_dirs = N.c_[[-1, 0, -1], [1, 0, -1], [0, -1, -1], [0, 1, -1]]/N.sqrt(2)
N.testing.assert_array_almost_equal(d, out_dirs)
out_hits = N.c_[
[2.5, 0, 8.5],
[-2.5, 0, 8.5],
[0, 1.5, 9.5],
[0, -1.5, 9.5]]
N.testing.assert_array_almost_equal(v, out_hits)
开发者ID:casselineau,项目名称:Tracer,代码行数:33,代码来源:test_homogenizer.py
示例20: setUp
def setUp(self):
"""
Prepare an assembly with two subassemblies: one assembly representing
a spherical lens behind a flat screen, and one asssembly representing a
perfect mirror.
The mirror will be placed at the two subassemblies' focus, so a paraxial
ray will come back on the other side of the optical axis.
Reference:
In [1], the lensmaker equation
"""
# focal length = 1, thickness = 1/6
R = 1./6.
back_surf = Surface(HemisphereGM(R), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., -R/2.])
front_surf = Surface(HemisphereGM(R), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., R/2.], rotation=rotx(N.pi/2.)[:3,:3])
front_lens = AssembledObject(surfs=[back_surf, front_surf])
back_surf = Surface(FlatGeometryManager(), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., -0.01])
front_surf = Surface(FlatGeometryManager(), opt.RefractiveHomogenous(1., 1.5),
location=N.r_[0., 0., 0.01])
glass_screen = AssembledObject(surfs=[back_surf, front_surf],
transform=translate(0., 0., 0.5))
lens_assembly = Assembly(objects=[glass_screen, front_lens])
lens_assembly.set_transform(translate(0., 0., 1.))
full_assembly = Assembly(objects=[rect_one_sided_mirror(1., 1., 0.)],
subassemblies = [lens_assembly])
self.engine = TracerEngine(full_assembly)
开发者ID:joewan,项目名称:tracer,代码行数:32,代码来源:test_tracer_engine.py
注:本文中的tracer.tracer_engine.TracerEngine类示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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