Exemplo n.º 1
0
class SamplerGenerator():
    def __init__(self, sampler):
        self.sampler = sampler

        self.prepare_standalone()

    def prepare_standalone(self):

        self.sampler.create_shader()

        runtimes = [Runtime()]
        self.sampler.compile()
        self.sampler.prepare(runtimes)

        code = """
ret = generate_sample(sample)
        """
        args = [StructArg('sample', Sample.factory()), IntArg('ret', 11)]
        self._standalone = Shader(code=code, args=args)
        self._standalone.compile([self.sampler.shader])
        self._standalone.prepare(runtimes)

    def generate_sample(self):

        self._standalone.execute()
        ret = self._standalone.get_value('ret')
        if ret == 0:
            return False
        sample = self._standalone.get_value('sample')
        return sample
Exemplo n.º 2
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    def test_linear(self):
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)
        mgr = ShapeManager()
        mgr.add('sph1', sphere)
        sphere2 = Sphere(Vector3(0.0, 2.0, 0.0), 3.0, 0)
        mgr.add('sph2', sphere2)

        isector = LinearIsect(mgr)
        runtimes = [Runtime()]

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)

        isector.compile()
        isector.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_scene(ray, hitpoint, min_dist)
        """
        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        r_arg = StructArg('ray', ray)
        harg = StructArg('hitpoint', hitpoint)
        p1 = IntArg('p1', 6)

        args = [r_arg, harg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([isector.shader])
        shader.prepare(runtimes)

        hp2 = isector.isect(ray)
        shader.execute()

        hitpoint = shader.get_value('hitpoint')

        self.assertAlmostEqual(hp2.t, hitpoint.t, places=5)
        self.assertEqual(hp2.mat_idx, hitpoint.mat_idx)
        n1 = hp2.normal
        n2 = hitpoint.normal
        self.assertAlmostEqual(n1.x, n2.x)
        self.assertAlmostEqual(n1.y, n2.y, places=6)
        self.assertAlmostEqual(n1.z, n2.z)
        self.assertAlmostEqual(hitpoint.hit.x, hp2.hit.x, places=6)
        self.assertAlmostEqual(hitpoint.hit.y, hp2.hit.y, places=6)
        self.assertAlmostEqual(hitpoint.hit.z, hp2.hit.z, places=6)

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 3
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    def test_linear(self):
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)
        mgr = ShapeManager()
        mgr.add('sph1', sphere)
        sphere2 = Sphere(Vector3(0.0, 2.0, 0.0), 3.0, 0)
        mgr.add('sph2', sphere2)

        isector = LinearIsect(mgr)
        runtimes = [Runtime()]

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)

        isector.compile()
        isector.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_scene(ray, hitpoint, min_dist)
        """
        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        r_arg = StructArg('ray', ray)
        harg = StructArg('hitpoint', hitpoint)
        p1 = IntArg('p1', 6)

        args = [r_arg, harg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([isector.shader])
        shader.prepare(runtimes)

        hp2 = isector.isect(ray)
        shader.execute()

        hitpoint = shader.get_value('hitpoint')

        self.assertAlmostEqual(hp2.t, hitpoint.t, places=5)
        self.assertEqual(hp2.mat_idx, hitpoint.mat_idx)
        n1 = hp2.normal
        n2 = hitpoint.normal
        self.assertAlmostEqual(n1.x, n2.x)
        self.assertAlmostEqual(n1.y, n2.y, places=6)
        self.assertAlmostEqual(n1.z, n2.z)
        self.assertAlmostEqual(hitpoint.hit.x, hp2.hit.x, places=6)
        self.assertAlmostEqual(hitpoint.hit.y, hp2.hit.y, places=6)
        self.assertAlmostEqual(hitpoint.hit.z, hp2.hit.z, places=6)

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 4
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    def test_isect_rect(self):
        rect_shader = Rectangle.isect_shader('isect_rectangle')
        rect_shader.compile()
        runtimes = [Runtime()]
        rect_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_rectangle(ray, rectangle, hitpoint, min_dist)
        """

        origin = Vector3(3.0, 2.5, 0.0)
        direction = Vector3(0.0, 0.1, 0.88)
        direction.normalize()
        ray = Ray(origin, direction)

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        hitpoint = HitPoint.factory()
        hitpoint.mat_idx = 5

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('rectangle', rectangle)
        harg = StructArg('hitpoint', hitpoint)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, harg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([rect_shader.shader])
        shader.prepare(runtimes)

        shader.execute()
        hp2 = rectangle.isect(ray)

        hitpoint = shader.get_value('hitpoint')
        self.assertAlmostEqual(hp2.t, hitpoint.t, places=5)
        self.assertEqual(hp2.mat_idx, hitpoint.mat_idx)
        n1 = hp2.normal
        n2 = hitpoint.normal
        self.assertAlmostEqual(n1.x, n2.x)
        self.assertAlmostEqual(n1.y, n2.y)
        self.assertAlmostEqual(n1.z, n2.z)
        self.assertAlmostEqual(hitpoint.hit.x, hp2.hit.x, places=5)
        self.assertAlmostEqual(hitpoint.hit.y, hp2.hit.y, places=5)
        self.assertAlmostEqual(hitpoint.hit.z, hp2.hit.z, places=5)

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 5
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    def test_isect_rect(self):
        rect_shader = Rectangle.isect_shader('isect_rectangle')
        rect_shader.compile()
        runtimes = [Runtime()]
        rect_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_rectangle(ray, rectangle, hitpoint, min_dist)
        """

        origin = Vector3(3.0, 2.5, 0.0)
        direction = Vector3(0.0, 0.1, 0.88)
        direction.normalize()
        ray = Ray(origin, direction)

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        hitpoint = HitPoint.factory()
        hitpoint.mat_idx = 5

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('rectangle', rectangle)
        harg = StructArg('hitpoint', hitpoint)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, harg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([rect_shader.shader])
        shader.prepare(runtimes)

        shader.execute()
        hp2 = rectangle.isect(ray)

        hitpoint = shader.get_value('hitpoint')
        self.assertAlmostEqual(hp2.t, hitpoint.t, places=5)
        self.assertEqual(hp2.mat_idx, hitpoint.mat_idx)
        n1 = hp2.normal
        n2 = hitpoint.normal
        self.assertAlmostEqual(n1.x, n2.x)
        self.assertAlmostEqual(n1.y, n2.y)
        self.assertAlmostEqual(n1.z, n2.z)
        self.assertAlmostEqual(hitpoint.hit.x, hp2.hit.x, places=5)
        self.assertAlmostEqual(hitpoint.hit.y, hp2.hit.y, places=5)
        self.assertAlmostEqual(hitpoint.hit.z, hp2.hit.z, places=5)

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 6
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def test_mesh(mesh, nrays=1):
    dep_shader = type(mesh).isect_shader('ray_flat_mesh_isect')
    dep_shader.compile()
    runtimes = [Runtime()]
    dep_shader.prepare(runtimes)

    code = """
min_dist = 99999.0
ret = ray_flat_mesh_isect(ray, mesh, hitpoint, min_dist)
    """

    ray = generate_ray(mesh)
    hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

    r_arg = StructArg('ray', ray)
    mesh_arg = StructArg('mesh', mesh)
    harg = StructArg('hitpoint', hitpoint)
    ret = IntArg('ret', 6)

    args = [r_arg, mesh_arg, harg, ret]
    shader = Shader(code=code, args=args)
    shader.compile([dep_shader.shader])

    shader.prepare(runtimes)

    for i in range(nrays):
        ray = generate_ray(mesh)
        # origin = Vector3(-0.21099534597992897,-0.02090535280108452,-0.09716709856688976)
        # direction = Vector3(0.7856996643888073,0.4629769683728137,0.4102783983292736)
        # ray = Ray(origin, direction)
        shader.set_value('ray', ray)

        hp2 = mesh.isect(ray)
        hp, index = isect_ray_mesh(ray, mesh)
        shader.execute()

        # print(hp, shader.get_value('ret'))
        if hp:
            ret = shader.get_value('ret')
            hp_new = shader.get_value('hitpoint')
            if round(hp.t - hp_new.t, 5) != 0:
                print(hp.t, hp_new.t, ret, index, hp2.t)
                print(ray.origin)
                print(ray.direction)
                p0, p1, p2 = mesh.get_points(index)
                print(p0)
                print(p1)
                print(p2)
                print('------------------------------------------')
Exemplo n.º 7
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def test_mesh(mesh, nrays=1):
    dep_shader = type(mesh).isect_shader('ray_flat_mesh_isect')
    dep_shader.compile()
    runtimes = [Runtime()]
    dep_shader.prepare(runtimes)

    code = """
min_dist = 99999.0
ret = ray_flat_mesh_isect(ray, mesh, hitpoint, min_dist)
    """

    ray = generate_ray(mesh)
    hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0), Vector3(0.0, 0.0, 0.0), 6,
                        0.0, 0.0)

    r_arg = StructArg('ray', ray)
    mesh_arg = StructArg('mesh', mesh)
    harg = StructArg('hitpoint', hitpoint)
    ret = IntArg('ret', 6)

    args = [r_arg, mesh_arg, harg, ret]
    shader = Shader(code=code, args=args)
    shader.compile([dep_shader.shader])

    shader.prepare(runtimes)

    for i in range(nrays):
        ray = generate_ray(mesh)
        # origin = Vector3(-0.21099534597992897,-0.02090535280108452,-0.09716709856688976)
        # direction = Vector3(0.7856996643888073,0.4629769683728137,0.4102783983292736)
        # ray = Ray(origin, direction)
        shader.set_value('ray', ray)

        hp2 = mesh.isect(ray)
        hp, index = isect_ray_mesh(ray, mesh)
        shader.execute()

        # print(hp, shader.get_value('ret'))
        if hp:
            ret = shader.get_value('ret')
            hp_new = shader.get_value('hitpoint')
            if round(hp.t - hp_new.t, 5) != 0:
                print(hp.t, hp_new.t, ret, index, hp2.t)
                print(ray.origin)
                print(ray.direction)
                p0, p1, p2 = mesh.get_points(index)
                print(p0)
                print(p1)
                print(p2)
                print('------------------------------------------')
Exemplo n.º 8
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    def test_sampled_point_light(self):
        sam_mgr = SampledManager()
        register_sampled_shadepoint(sam_mgr)

        runtimes = [Runtime()]
        lgt = GeneralLight()
        lgt.load('point', sam_mgr, spectral=True)
        lgt.set_value('intensity', RGBSpectrum(0.3, 0.3, 0.3))
        lgt.set_value('position', Vector3(2.0, 2.0, 2.0))
        lgt.compile()
        lgt.prepare(runtimes)
        ptrs = lgt.shader.get_ptrs()

        ptr_func = PointerArg('ptr_func', ptrs[0])
        spec = SampledArg('spec', sam_mgr.zero())
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        pos = Vec3Arg('position', Vector3(0.0, 0.0, 0.0))

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
__light_radiance(hp, sp, ptr_func)
spec = sp.light_intensity
wi = sp.wi
position = sp.light_position
        """
        shader = Shader(code=code, args=[ptr_func, wi, spec, pos])
        shader.compile()
        shader.prepare(runtimes)
        shader.execute()

        wi = Vector3(2.0, 2.0, 2.0) - Vector3(4.0, 5.0, 6.0)
        wi.normalize()
        wi_s = shader.get_value('wi')
        self.assertAlmostEqual(wi.x, wi_s.x)
        self.assertAlmostEqual(wi.y, wi_s.y)
        self.assertAlmostEqual(wi.z, wi_s.z)

        p = Vector3(2.0, 2.0, 2.0)
        p_s = shader.get_value('position')
        self.assertAlmostEqual(p.x, p_s.x)
        self.assertAlmostEqual(p.y, p_s.y)
        self.assertAlmostEqual(p.z, p_s.z)

        s = sam_mgr.rgb_to_sampled(RGBSpectrum(0.3, 0.3, 0.3), illum=True)
        s_s = shader.get_value('spec')

        for i in range(len(s.samples)):
            self.assertAlmostEqual(s.samples[i], s_s.samples[i])
Exemplo n.º 9
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    def test_sampled_point_light(self):
        sam_mgr = SampledManager()
        register_sampled_shadepoint(sam_mgr)

        runtimes = [Runtime()]
        lgt = GeneralLight()
        lgt.load('point', sam_mgr, spectral=True)
        lgt.set_value('intensity', RGBSpectrum(0.3, 0.3, 0.3))
        lgt.set_value('position', Vector3(2.0, 2.0, 2.0))
        lgt.compile()
        lgt.prepare(runtimes)
        ptrs = lgt.shader.get_ptrs()

        ptr_func = PointerArg('ptr_func', ptrs[0])
        spec = SampledArg('spec', sam_mgr.zero())
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        pos = Vec3Arg('position', Vector3(0.0, 0.0, 0.0))

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
__light_radiance(hp, sp, ptr_func)
spec = sp.light_intensity
wi = sp.wi
position = sp.light_position
        """
        shader = Shader(code=code, args=[ptr_func, wi, spec, pos])
        shader.compile()
        shader.prepare(runtimes)
        shader.execute()

        wi = Vector3(2.0, 2.0, 2.0) - Vector3(4.0, 5.0, 6.0)
        wi.normalize()
        wi_s = shader.get_value('wi')
        self.assertAlmostEqual(wi.x, wi_s.x)
        self.assertAlmostEqual(wi.y, wi_s.y)
        self.assertAlmostEqual(wi.z, wi_s.z)

        p = Vector3(2.0, 2.0, 2.0)
        p_s = shader.get_value('position')
        self.assertAlmostEqual(p.x, p_s.x)
        self.assertAlmostEqual(p.y, p_s.y)
        self.assertAlmostEqual(p.z, p_s.z)

        s = sam_mgr.rgb_to_sampled(RGBSpectrum(0.3, 0.3, 0.3), illum=True)
        s_s = shader.get_value('spec')

        for i in range(len(s.samples)):
            self.assertAlmostEqual(s.samples[i], s_s.samples[i])
Exemplo n.º 10
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def test_mesh_b(mesh, nrays=1):
    dep_shader = type(mesh).isect_b_shader('ray_flat_mesh_b_isect')
    dep_shader.compile()
    runtimes = [Runtime()]
    dep_shader.prepare(runtimes)

    code = """
min_dist = 99999.0
ret = ray_flat_mesh_b_isect(ray, mesh, min_dist)
    """

    origin = calculate_origin(mesh)
    rpoint = random_in_bbox(mesh._grid.bbox)
    direction = rpoint - origin 
    direction.normalize()

    ray = Ray(origin, direction)
    r_arg = StructArg('ray', ray)
    mesh_arg = StructArg('mesh', mesh)
    ret = IntArg('ret', 6)

    args = [r_arg, mesh_arg, ret]
    shader = Shader(code=code, args=args)
    shader.compile([dep_shader.shader])

    shader.prepare(runtimes)

    hp = mesh.isect_b(ray)
    shader.execute()
    print("Bool isect", hp, shader.get_value('ret'))
Exemplo n.º 11
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    def test_isect_b_rect(self):
        rect_shader = Rectangle.isect_b_shader('isect_b_rectangle')
        rect_shader.compile()
        runtimes = [Runtime()]
        rect_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_b_rectangle(ray, rectangle, min_dist)
        """

        origin = Vector3(3.0, 2.5, 0.0)
        direction = Vector3(0.0, 0.1, 0.88)
        direction.normalize()
        ray = Ray(origin, direction)

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('rectangle', rectangle)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([rect_shader.shader])

        shader.prepare(runtimes)
        shader.execute()

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 12
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def test_mesh_b(mesh, nrays=1):
    dep_shader = type(mesh).isect_b_shader('ray_flat_mesh_b_isect')
    dep_shader.compile()
    runtimes = [Runtime()]
    dep_shader.prepare(runtimes)

    code = """
min_dist = 99999.0
ret = ray_flat_mesh_b_isect(ray, mesh, min_dist)
    """

    origin = calculate_origin(mesh)
    rpoint = random_in_bbox(mesh._grid.bbox)
    direction = rpoint - origin
    direction.normalize()

    ray = Ray(origin, direction)
    r_arg = StructArg('ray', ray)
    mesh_arg = StructArg('mesh', mesh)
    ret = IntArg('ret', 6)

    args = [r_arg, mesh_arg, ret]
    shader = Shader(code=code, args=args)
    shader.compile([dep_shader.shader])

    shader.prepare(runtimes)

    hp = mesh.isect_b(ray)
    shader.execute()
    print("Bool isect", hp, shader.get_value('ret'))
Exemplo n.º 13
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    def atest_material_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        mat = Material()
        mat.load('lambertian', sam_mgr, spectral=False)
        mat.set_value('diffuse', RGBSpectrum(0.2, 0.3, 0.4))

        mgr = MaterialManager()
        mgr.add('material1', mat)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
sp = ShadePoint()
material_reflectance(hp, sp, 0)
spec = sp.material_reflectance
        """
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        shader = Shader(code=code, args=[spec])
        shader.compile(shaders=[mgr.ref_shader])
        shader.prepare(runtimes)
        shader.execute()

        s = shader.get_value('spec')
        ls = RGBSpectrum(0.2, 0.3, 0.4) * (1.0 / math.pi)

        self.assertAlmostEqual(s.r, ls.r)
        self.assertAlmostEqual(s.g, ls.g)
        self.assertAlmostEqual(s.b, ls.b)
Exemplo n.º 14
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    def atest_material_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        mat = Material()
        mat.load('lambertian', sam_mgr, spectral=False)
        mat.set_value('diffuse', RGBSpectrum(0.2, 0.3, 0.4))

        mgr = MaterialManager()
        mgr.add('material1', mat)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
sp = ShadePoint()
material_reflectance(hp, sp, 0)
spec = sp.material_reflectance
        """
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        shader = Shader(code=code, args=[spec])
        shader.compile(shaders=[mgr.ref_shader])
        shader.prepare(runtimes)
        shader.execute()

        s = shader.get_value('spec')
        ls = RGBSpectrum(0.2, 0.3, 0.4) * (1.0 / math.pi)

        self.assertAlmostEqual(s.r, ls.r)
        self.assertAlmostEqual(s.g, ls.g)
        self.assertAlmostEqual(s.b, ls.b)
Exemplo n.º 15
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    def test_isect_b_sph(self):
        sph_shader = Sphere.isect_b_shader('isect_b_sphere')
        sph_shader.compile()
        runtimes = [Runtime()]
        sph_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_b_sphere(ray, sphere, min_dist)
        """

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('sphere', sphere)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([sph_shader.shader])

        shader.prepare(runtimes)
        shader.execute()

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 16
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    def test_sampled_to_rgb(self):
        runtimes = [Runtime()]

        color_mgr = SampledManager()
        s_to_rgb = spectrum_to_rgb_shader(color_mgr)
        s_to_rgb.compile(color_mgr=color_mgr)
        s_to_rgb.prepare(runtimes)

        code = """
value = spectrum_to_rgb(color)
        """
        spec = RGBSpectrum(0.3, 0.5, 0.4)
        spec = color_mgr.rgb_to_sampled(spec)
        col = SampledArg('color', spec)
        val = Vec3Arg('value', Vector3(0.0, 0.0, 0.0))
        shader = Shader(code=code, args=[col, val])
        shader.compile(shaders=[s_to_rgb], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('value')
        vv = color_mgr.sampled_to_rgb(spec)
        self.assertAlmostEqual(value.x, vv.r)
        self.assertAlmostEqual(value.y, vv.g)
        self.assertAlmostEqual(value.z, vv.b, places=6)
Exemplo n.º 17
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    def test_isect_b_rect(self):
        rect_shader = Rectangle.isect_b_shader('isect_b_rectangle')
        rect_shader.compile()
        runtimes = [Runtime()]
        rect_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_b_rectangle(ray, rectangle, min_dist)
        """

        origin = Vector3(3.0, 2.5, 0.0)
        direction = Vector3(0.0, 0.1, 0.88)
        direction.normalize()
        ray = Ray(origin, direction)

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('rectangle', rectangle)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([rect_shader.shader])

        shader.prepare(runtimes)
        shader.execute()

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 18
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    def test_isect_sph(self):
        sph_shader = Sphere.isect_shader('isect_sphere')
        sph_shader.compile()
        runtimes = [Runtime()]
        sph_shader.prepare(runtimes)

        code = """
min_dist = 99999.0
p1 = isect_sphere(ray, sphere, hitpoint, min_dist)
        """

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        r_arg = StructArg('ray', ray)
        sph_arg = StructArg('sphere', sphere)
        harg = StructArg('hitpoint', hitpoint)
        p1 = IntArg('p1', 6)

        args = [r_arg, sph_arg, harg, p1]
        shader = Shader(code=code, args=args)
        shader.compile([sph_shader.shader])

        shader.prepare(runtimes)
        shader.execute()

        hp2 = sphere.isect(ray)
        hitpoint = shader.get_value('hitpoint')
        self.assertAlmostEqual(hp2.t, hitpoint.t)
        self.assertEqual(hp2.mat_idx, hitpoint.mat_idx)
        n1 = hp2.normal
        n2 = hitpoint.normal
        self.assertAlmostEqual(n1.x, n2.x)
        self.assertAlmostEqual(n1.y, n2.y)
        self.assertAlmostEqual(n1.z, n2.z)
        self.assertAlmostEqual(hitpoint.hit.x, hp2.hit.x)
        self.assertAlmostEqual(hitpoint.hit.y, hp2.hit.y)
        self.assertAlmostEqual(hitpoint.hit.z, hp2.hit.z)

        result = shader.get_value('p1')
        self.assertEqual(result, 1)
Exemplo n.º 19
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    def test_light_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        lgt = GeneralLight()
        lgt.load('point', sam_mgr, spectral=False)

        lgt2 = GeneralLight()
        lgt2.load('point', sam_mgr, spectral=False)
        lgt2.set_value('intensity', RGBSpectrum(0.3, 0.3, 0.3))
        lgt2.set_value('position', Vector3(2.0, 2.0, 2.0))

        mgr = LightManager()
        mgr.add('light1', lgt)
        mgr.add('light2', lgt2)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
light_radiance(hp, sp, 1)
wi = sp.wi
n = number_of_lights()
        """
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        nlights = IntArg('n', 999)
        shader = Shader(code=code, args=[wi, nlights])
        shader.compile(shaders=[mgr.rad_shader, mgr.nlights_shader])
        shader.prepare(runtimes)
        shader.execute()

        wi = Vector3(2.0, 2.0, 2.0) - Vector3(4.0, 5.0, 6.0)
        wi.normalize()
        wi_s = shader.get_value('wi')
        self.assertAlmostEqual(wi.x, wi_s.x)
        self.assertAlmostEqual(wi.y, wi_s.y)
        self.assertAlmostEqual(wi.z, wi_s.z)

        self.assertEqual(2, shader.get_value('n'))
Exemplo n.º 20
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    def test_light_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        lgt = GeneralLight()
        lgt.load('point', sam_mgr, spectral=False)

        lgt2 = GeneralLight()
        lgt2.load('point', sam_mgr, spectral=False)
        lgt2.set_value('intensity', RGBSpectrum(0.3, 0.3, 0.3))
        lgt2.set_value('position', Vector3(2.0, 2.0, 2.0))

        mgr = LightManager()
        mgr.add('light1', lgt)
        mgr.add('light2', lgt2)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
light_radiance(hp, sp, 1)
wi = sp.wi
n = number_of_lights()
        """
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        nlights = IntArg('n', 999)
        shader = Shader(code=code, args=[wi, nlights])
        shader.compile(shaders=[mgr.rad_shader, mgr.nlights_shader])
        shader.prepare(runtimes)
        shader.execute()

        wi = Vector3(2.0, 2.0, 2.0) - Vector3(4.0, 5.0, 6.0)
        wi.normalize()
        wi_s = shader.get_value('wi')
        self.assertAlmostEqual(wi.x, wi_s.x)
        self.assertAlmostEqual(wi.y, wi_s.y)
        self.assertAlmostEqual(wi.z, wi_s.z)

        self.assertEqual(2, shader.get_value('n'))
Exemplo n.º 21
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    def test_material_sampling_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        mat = Material()
        mat.load('lambertian', sam_mgr, spectral=False)
        mat.set_value('diffuse', RGBSpectrum(0.2, 0.3, 0.4))

        mgr = MaterialManager()
        mgr.add('material1', mat)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.normal = (0.1, 0.4, 0.66)
hp.normal = normalize(hp.normal)
sp = ShadePoint()
material_sampling(hp, sp, 0)
pdf = sp.pdf
wi = sp.wi
spec = sp.material_reflectance
        """
        pdf = FloatArg('pdf', 0.0)
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        shader = Shader(code=code, args=[pdf, wi, spec])
        shader.compile(shaders=[mgr.sampling_shader])
        shader.prepare(runtimes)
        shader.execute()

        s = shader.get_value('pdf')
        print(s)
        s = shader.get_value('wi')
        print(s)
        s = shader.get_value('spec')
        print(s)
        normal = Vector3(0.1, 0.4, 0.66)
        normal.normalize()
        print(cos_hemisphere(r1=0.1, r2=0.06, normal=normal, e=1.0))
Exemplo n.º 22
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    def test_material_sampling_manager(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime(), Runtime()]
        mat = Material()
        mat.load('lambertian', sam_mgr, spectral=False)
        mat.set_value('diffuse', RGBSpectrum(0.2, 0.3, 0.4))

        mgr = MaterialManager()
        mgr.add('material1', mat)

        mgr.compile_shaders(sam_mgr, spectral=False)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.normal = (0.1, 0.4, 0.66)
hp.normal = normalize(hp.normal)
sp = ShadePoint()
material_sampling(hp, sp, 0)
pdf = sp.pdf
wi = sp.wi
spec = sp.material_reflectance
        """
        pdf = FloatArg('pdf', 0.0)
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        shader = Shader(code=code, args=[pdf, wi, spec])
        shader.compile(shaders=[mgr.sampling_shader])
        shader.prepare(runtimes)
        shader.execute()

        s = shader.get_value('pdf')
        print(s)
        s = shader.get_value('wi')
        print(s)
        s = shader.get_value('spec')
        print(s)
        normal = Vector3(0.1, 0.4, 0.66)
        normal.normalize()
        print(cos_hemisphere(r1=0.1, r2=0.06, normal=normal,e=1.0))
Exemplo n.º 23
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    def test_isect_flat_triangle1(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_shader('isect_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(-0.0831229984, 0.0591476, -0.03213749)
        p1 = Vector3(-0.082775, 0.059025, -0.031787)
        p2 = Vector3(-0.0831229, 0.0591773, -0.031787)

        origin = Vector3(-0.21276909825205803, -0.021492251798510553,
                         -0.09822520208358765)
        direction = Vector3(0.7788769269741005, 0.4843782624535974,
                            0.3984073687694737)

        ray = Ray(origin, direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_flat_triangle(ray, triangle, hitpoint, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        harg = StructArg('hitpoint', hitpoint)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, harg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect(ray, min_dist)

        hp = shader.get_value('hitpoint')

        self.assertAlmostEqual(hit.t, hp.t, places=6)
        self._almost_equal_vec3(hit.hit, hp.hit, places=6)
        self._almost_equal_vec3(hit.normal, hp.normal, places=6)
        self.assertEqual(hit.mat_idx, hp.mat_idx)
        self.assertAlmostEqual(hit.u, hp.u)
        self.assertAlmostEqual(hit.v, hp.v)
Exemplo n.º 24
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    def test_isect_flat_triangle(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_shader('isect_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(2.2, 4.4, 6.6)
        p1 = Vector3(1.1, 1.1, 1.1)
        p2 = Vector3(5.1, -1.1, 5.1)

        origin = Vector3(0.0, 0.0, 0.0)
        direction = Vector3(3, 3.0, 3.01)
        direction.normalize()
        ray = Ray(origin, direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_flat_triangle(ray, triangle, hitpoint, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        harg = StructArg('hitpoint', hitpoint)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, harg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect(ray, min_dist)


        hp = shader.get_value('hitpoint')

        self.assertAlmostEqual(hit.t, hp.t, places=6)
        self._almost_equal_vec3(hit.hit, hp.hit, places=6)
        self._almost_equal_vec3(hit.normal, hp.normal, places=6)
        self.assertEqual(hit.mat_idx, hp.mat_idx)
        self.assertAlmostEqual(hit.u, hp.u)
        self.assertAlmostEqual(hit.v, hp.v)
Exemplo n.º 25
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    def test_isect_flat_triangle1(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_shader('isect_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(-0.0831229984, 0.0591476, -0.03213749)
        p1 = Vector3(-0.082775, 0.059025, -0.031787)
        p2 = Vector3(-0.0831229, 0.0591773, -0.031787)

        origin = Vector3(-0.21276909825205803,-0.021492251798510553,-0.09822520208358765) 
        direction = Vector3(0.7788769269741005,0.4843782624535974,0.3984073687694737)

        ray = Ray(origin, direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_flat_triangle(ray, triangle, hitpoint, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        harg = StructArg('hitpoint', hitpoint)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, harg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect(ray, min_dist)


        hp = shader.get_value('hitpoint')

        self.assertAlmostEqual(hit.t, hp.t, places=6)
        self._almost_equal_vec3(hit.hit, hp.hit, places=6)
        self._almost_equal_vec3(hit.normal, hp.normal, places=6)
        self.assertEqual(hit.mat_idx, hp.mat_idx)
        self.assertAlmostEqual(hit.u, hp.u)
        self.assertAlmostEqual(hit.v, hp.v)
Exemplo n.º 26
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    def test_isect_flat_triangle(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_shader('isect_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(2.2, 4.4, 6.6)
        p1 = Vector3(1.1, 1.1, 1.1)
        p2 = Vector3(5.1, -1.1, 5.1)

        origin = Vector3(0.0, 0.0, 0.0)
        direction = Vector3(3, 3.0, 3.01)
        direction.normalize()
        ray = Ray(origin, direction)
        hitpoint = HitPoint(0.0, Vector3(0.0, 0.0, 0.0),
                            Vector3(0.0, 0.0, 0.0), 6, 0.0, 0.0)

        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_flat_triangle(ray, triangle, hitpoint, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        harg = StructArg('hitpoint', hitpoint)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, harg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect(ray, min_dist)

        hp = shader.get_value('hitpoint')

        self.assertAlmostEqual(hit.t, hp.t, places=6)
        self._almost_equal_vec3(hit.hit, hp.hit, places=6)
        self._almost_equal_vec3(hit.normal, hp.normal, places=6)
        self.assertEqual(hit.mat_idx, hp.mat_idx)
        self.assertAlmostEqual(hit.u, hp.u)
        self.assertAlmostEqual(hit.v, hp.v)
Exemplo n.º 27
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    def test_rgb_area_light(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        material = Material()
        material.load('lambertian_emiter', sam_mgr)
        e = RGBSpectrum(0.5, 0.5, 0.5)
        material.set_value('emission', e)

        runtimes = [Runtime()]
        lgt = AreaLight(shape=rectangle, material=material)
        lgt.load('general', sam_mgr, spectral=False)
        lgt.compile()
        lgt.prepare(runtimes)
        ptrs = lgt.shader.get_ptrs()

        ptr_func = PointerArg('ptr_func', ptrs[0])
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        pos = Vec3Arg('position', Vector3(0.0, 0.0, 0.0))
        n = Vec3Arg('normal', Vector3(0.0, 0.0, 0.0))
        pdf = FloatArg('pdf', 0.0)
        emission = RGBArg('emission', RGBSpectrum(0.0, 0.0, 0.0))

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
__light_radiance(hp, sp, ptr_func)
spec = sp.light_intensity
wi = sp.wi
position = sp.light_position
normal = sp.light_normal
pdf = sp.light_pdf
emission = sp.material_emission
        """

        shader = Shader(code=code, args=[ptr_func, wi, spec, pos, n, pdf,
                        emission])
        shader.compile()
        shader.prepare(runtimes)
        shader.execute()

        print("Position ", shader.get_value('position'))
        print("Normal ", shader.get_value('normal'))
        print("Light pdf ", shader.get_value('pdf'))
        print("Emission ", shader.get_value('emission'))
        print("Wi ", shader.get_value('wi'))
        print("Intensity ", shader.get_value('spec'))
Exemplo n.º 28
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    def test_rgb_area_light(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        point = Vector3(0.0, 0.0, 55.92)
        e1 = Vector3(55.28, 0.0, 0.0)
        e2 = Vector3(0.0, 54.88, 0.0)
        normal = Vector3(0.0, 0.0, -1.0)
        rectangle = Rectangle(point, e1, e2, normal)

        material = Material()
        material.load('lambertian_emiter', sam_mgr)
        e = RGBSpectrum(0.5, 0.5, 0.5)
        material.set_value('emission', e)

        runtimes = [Runtime()]
        lgt = AreaLight(shape=rectangle, material=material)
        lgt.load('general', sam_mgr, spectral=False)
        lgt.compile()
        lgt.prepare(runtimes)
        ptrs = lgt.shader.get_ptrs()

        ptr_func = PointerArg('ptr_func', ptrs[0])
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        pos = Vec3Arg('position', Vector3(0.0, 0.0, 0.0))
        n = Vec3Arg('normal', Vector3(0.0, 0.0, 0.0))
        pdf = FloatArg('pdf', 0.0)
        emission = RGBArg('emission', RGBSpectrum(0.0, 0.0, 0.0))

        code = """
hp = HitPoint()
hp.hit = (4.0, 5, 6)
sp = ShadePoint()
__light_radiance(hp, sp, ptr_func)
spec = sp.light_intensity
wi = sp.wi
position = sp.light_position
normal = sp.light_normal
pdf = sp.light_pdf
emission = sp.material_emission
        """

        shader = Shader(code=code,
                        args=[ptr_func, wi, spec, pos, n, pdf, emission])
        shader.compile()
        shader.prepare(runtimes)
        shader.execute()

        print("Position ", shader.get_value('position'))
        print("Normal ", shader.get_value('normal'))
        print("Light pdf ", shader.get_value('pdf'))
        print("Emission ", shader.get_value('emission'))
        print("Wi ", shader.get_value('wi'))
        print("Intensity ", shader.get_value('spec'))
Exemplo n.º 29
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    def test_isect_b_flat_triangle(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_b_shader('isect_b_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(2.2, 4.4, 6.6)
        p1 = Vector3(1.1, 1.1, 1.1)
        p2 = Vector3(5.1, -1.1, 5.1)

        origin = Vector3(0.0, 0.0, 0.0)
        direction = Vector3(3, 3.0, 3.01)
        direction.normalize()
        ray = Ray(origin, direction)
        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_b_flat_triangle(ray, triangle, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect_b(ray, min_dist)

        hit2 = shader.get_value('ret')
        if hit2 == 0:
            hit2 = False
        elif hit2 == 1:
            hit2 = True
        else:
            raise ValueError("Unexpected value for isect flat triangle ", hit2)

        self.assertEqual(hit, hit2)
Exemplo n.º 30
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class EnvironmentLight(Light):
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'env_shaders')
        self._loader = Loader([path])

    def _func_args(self, spectrum):
        func_args = [
            StructArgPtr('hitpoint', HitPoint.factory()),
            StructArgPtr('shadepoint', ShadePoint.factory(spectrum))
        ]
        return func_args

    def load(self, shader_name, color_mgr):
        self._color_mgr = color_mgr
        self._shader_name = shader_name

        args = []
        text = self._loader.load(shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, color_mgr)

        code = self._loader.load(shader_name, 'env.py')
        if code is None:
            raise ValueError("env.py in %s shader dont exist!" % shader_name)

        name = 'env_light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.env_shader = Shader(code=code,
                                 args=args,
                                 name='environment_emission',
                                 func_args=func_args,
                                 is_func=True)

    def get_value(self, name):
        if self.env_shader is None:
            raise ValueError("Environment shader is not loaded!")
        return self.env_shader.get_value(name)

    def set_value(self, name, val):
        if self.env_shader is None:
            raise ValueError("Environment shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.env_shader.set_value(name, val)
Exemplo n.º 31
0
    def test_isect_b_flat_triangle(self):
        runtimes = [Runtime()]

        tri_shader = FlatTriangle.isect_b_shader('isect_b_flat_triangle')
        tri_shader.compile()
        tri_shader.prepare(runtimes)

        p0 = Vector3(2.2, 4.4, 6.6)
        p1 = Vector3(1.1, 1.1, 1.1)
        p2 = Vector3(5.1, -1.1, 5.1)

        origin = Vector3(0.0, 0.0, 0.0)
        direction = Vector3(3, 3.0, 3.01)
        direction.normalize()
        ray = Ray(origin, direction)
        t = FlatTriangle(p0, p1, p2)

        code = """
min_dist = 150.0
ret = isect_b_flat_triangle(ray, triangle, min_dist)
        """

        r_arg = StructArg('ray', ray)
        tri_arg = StructArg('triangle', t)
        ret = IntArg('ret', 6)

        args = [r_arg, tri_arg, ret]
        shader = Shader(code=code, args=args)
        shader.compile([tri_shader.shader])
        shader.prepare(runtimes)

        shader.execute()

        min_dist = 150.0
        hit = t.isect_b(ray, min_dist)

        hit2 = shader.get_value('ret')
        if hit2 == 0:
            hit2 = False
        elif hit2 == 1:
            hit2 = True
        else:
            raise ValueError("Unexpected value for isect flat triangle ", hit2)

        self.assertEqual(hit, hit2)
Exemplo n.º 32
0
class EnvironmentLight(Light):
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'env_shaders')
        self._loader = Loader([path])

    def _func_args(self, spectrum):
        func_args = [StructArgPtr('hitpoint', HitPoint.factory()),
                     StructArgPtr('shadepoint', ShadePoint.factory(spectrum))]
        return func_args

    def load(self, shader_name, color_mgr):
        self._color_mgr = color_mgr
        self._shader_name = shader_name

        args = []
        text = self._loader.load(shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, color_mgr)

        code = self._loader.load(shader_name, 'env.py')
        if code is None:
            raise ValueError("env.py in %s shader dont exist!" % shader_name)

        name = 'env_light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.env_shader = Shader(code=code, args=args, name='environment_emission',
                                 func_args=func_args, is_func=True)

    def get_value(self, name):
        if self.env_shader is None:
            raise ValueError("Environment shader is not loaded!")
        return self.env_shader.get_value(name)

    def set_value(self, name, val):
        if self.env_shader is None:
            raise ValueError("Environment shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.env_shader.set_value(name, val)
Exemplo n.º 33
0
    def test_linear_visiblity(self):
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)
        mgr = ShapeManager()
        mgr.add('sph1', sphere)
        sphere2 = Sphere(Vector3(0.0, 2.0, 0.0), 3.0, 0)
        mgr.add('sph2', sphere2)

        isector = LinearIsect(mgr)
        runtimes = [Runtime()]

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)

        isector.compile()
        isector.prepare(runtimes)

        code = """
p1 = (9, 8, 7)
p2 = (-2, -5, -3)
ret = visibility(p1, p2)
        """
        ret = IntArg('ret', 6)
        args = [ret]
        shader = Shader(code=code, args=args)
        shader.compile([isector.visible_shader])
        shader.prepare(runtimes)

        p1 = Vector3(9.0, 8.0, 7.0)
        p2 = Vector3(-2.0, -5.0, -3.0)
        ret = isector.visibility(p1, p2)
        shader.execute()
        ret_s = shader.get_value('ret')
        if ret is True and ret_s == 0:
            raise ValueError("Linear visiblity is calculated wrong", ret,
                             ret_s)
        if ret is False and ret_s == 1:
            raise ValueError("Linear visiblity is calculated wrong", ret,
                             ret_s)
Exemplo n.º 34
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    def test_rgb_luminance(self):
        runtimes = [Runtime()]

        color_mgr = RGBManager()
        lum_shader = luminance_shader(color_mgr)
        lum_shader.compile(color_mgr=color_mgr)
        lum_shader.prepare(runtimes)

        code = """
value = luminance(color)
        """
        spec = RGBSpectrum(0.3, 0.5, 0.7)
        col = RGBArg('color', spec)
        val = FloatArg('value', 0.0)
        shader = Shader(code=code, args=[col, val])
        shader.compile(shaders=[lum_shader], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('value')
        vv = color_mgr.luminance(spec)
        self.assertAlmostEqual(value, vv)
Exemplo n.º 35
0
    def test_rgb_to_sampled_spectrum(self):
        runtimes = [Runtime()]

        color_mgr = SampledManager()
        rgb_to_spec = rgb_to_spectrum_shader(color_mgr)
        rgb_to_spec.compile(color_mgr=color_mgr)
        rgb_to_spec.prepare(runtimes)

        code = """
spec = rgb_to_spectrum(color)
        """
        val = Vector3(0.3, 0.5, 0.7)
        col = Vec3Arg('color', val)
        spec = SampledArg('spec', color_mgr.zero())
        shader = Shader(code=code, args=[col, spec])
        shader.compile(shaders=[rgb_to_spec], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('spec')
        vv = color_mgr.rgb_to_sampled(RGBSpectrum(val.x, val.y, val.z))
        for i in range(len(value.samples)):
            self.assertAlmostEqual(value.samples[i], vv.samples[i], places=6)
Exemplo n.º 36
0
    def test_rgb_to_rgb_spectrum(self):
        runtimes = [Runtime()]

        color_mgr = RGBManager()
        rgb_to_spec = rgb_to_spectrum_shader(color_mgr)
        rgb_to_spec.compile(color_mgr=color_mgr)
        rgb_to_spec.prepare(runtimes)

        code = """
spec = rgb_to_spectrum(color)
        """
        val = Vector3(0.3, 0.5, 0.7)
        col = Vec3Arg('color', val)
        spec = RGBArg('spec', RGBSpectrum(0.0, 0.0, 0.0))
        shader = Shader(code=code, args=[col, spec])
        shader.compile(shaders=[rgb_to_spec], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('spec')
        self.assertAlmostEqual(value.r, val.x)
        self.assertAlmostEqual(value.g, val.y)
        self.assertAlmostEqual(value.b, val.z)
Exemplo n.º 37
0
    def test_rgb_to_rgb(self):
        runtimes = [Runtime()]

        color_mgr = RGBManager()
        s_to_rgb = spectrum_to_rgb_shader(color_mgr)
        s_to_rgb.compile(color_mgr=color_mgr)
        s_to_rgb.prepare(runtimes)

        code = """
value = spectrum_to_rgb(color)
        """
        spec = RGBSpectrum(0.3, 0.5, 0.4)
        col = RGBArg('color', spec)
        val = Vec3Arg('value', Vector3(0.0, 0.0, 0.0))
        shader = Shader(code=code, args=[col, val])
        shader.compile(shaders=[s_to_rgb], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('value')
        self.assertAlmostEqual(value.x, 0.3)
        self.assertAlmostEqual(value.y, 0.5)
        self.assertAlmostEqual(value.z, 0.4)
Exemplo n.º 38
0
    def test_rgb_to_rgb_spectrum(self):
        runtimes = [Runtime()]

        color_mgr = RGBManager()
        rgb_to_spec = rgb_to_spectrum_shader(color_mgr)
        rgb_to_spec.compile(color_mgr=color_mgr)
        rgb_to_spec.prepare(runtimes)

        code = """
spec = rgb_to_spectrum(color)
        """
        val = Vector3(0.3, 0.5, 0.7)
        col = Vec3Arg('color', val)
        spec = RGBArg('spec', RGBSpectrum(0.0, 0.0, 0.0))
        shader = Shader(code=code, args=[col, spec])
        shader.compile(shaders=[rgb_to_spec], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('spec')
        self.assertAlmostEqual(value.r, val.x)
        self.assertAlmostEqual(value.g, val.y)
        self.assertAlmostEqual(value.b, val.z)
Exemplo n.º 39
0
    def test_rgb_to_sampled_spectrum(self):
        runtimes = [Runtime()]

        color_mgr = SampledManager()
        rgb_to_spec = rgb_to_spectrum_shader(color_mgr)
        rgb_to_spec.compile(color_mgr=color_mgr)
        rgb_to_spec.prepare(runtimes)

        code = """
spec = rgb_to_spectrum(color)
        """
        val = Vector3(0.3, 0.5, 0.7)
        col = Vec3Arg('color', val)
        spec = SampledArg('spec', color_mgr.zero())
        shader = Shader(code=code, args=[col, spec])
        shader.compile(shaders=[rgb_to_spec], color_mgr=color_mgr)
        shader.prepare(runtimes)
        shader.execute()

        value = shader.get_value('spec')
        vv = color_mgr.rgb_to_sampled(RGBSpectrum(val.x, val.y, val.z))
        for i in range(len(value.samples)):
            self.assertAlmostEqual(value.samples[i], vv.samples[i], places=6)
Exemplo n.º 40
0
    def test_linear_visiblity(self):
        sphere = Sphere(Vector3(0.0, 0.0, 0.0), 2.0, 0)
        mgr = ShapeManager()
        mgr.add('sph1', sphere)
        sphere2 = Sphere(Vector3(0.0, 2.0, 0.0), 3.0, 0)
        mgr.add('sph2', sphere2)

        isector = LinearIsect(mgr)
        runtimes = [Runtime()]

        direction = Vector3(-1.0, -1.0, -1.0)
        direction.normalize()
        ray = Ray(Vector3(5.0, 5.0, 5.0), direction)

        isector.compile()
        isector.prepare(runtimes)

        code = """
p1 = (9, 8, 7)
p2 = (-2, -5, -3)
ret = visibility(p1, p2)
        """
        ret = IntArg('ret', 6)
        args = [ret]
        shader = Shader(code=code, args=args)
        shader.compile([isector.visible_shader])
        shader.prepare(runtimes)

        p1 = Vector3(9.0, 8.0, 7.0)
        p2 = Vector3(-2.0, -5.0, -3.0)
        ret = isector.visibility(p1, p2)
        shader.execute()
        ret_s = shader.get_value('ret')
        if ret is True and ret_s == 0:
            raise ValueError("Linear visiblity is calculated wrong", ret, ret_s)
        if ret is False and ret_s == 1:
            raise ValueError("Linear visiblity is calculated wrong", ret, ret_s)
Exemplo n.º 41
0
class Material:
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'mat_shaders')
        self._loader = Loader([path])

        self._bsdf_shader = None
        self._sampling_shader = None
        self._shader_name = None

    def is_emissive(self):
        if self._shader_name is None:
            return False
        return self._loader.exist(self._shader_name, 'emission.py')

    def _func_args(self, spectrum):
        func_args = [
            StructArgPtr('hitpoint', HitPoint.factory()),
            StructArgPtr('shadepoint', ShadePoint.factory(spectrum))
        ]
        return func_args

    def _load_args(self):
        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text,
                              self._color_mgr,
                              image_factory=self._image_factory)
        return args

    def load(self, shader_name, color_mgr, image_factory=None):
        self._color_mgr = color_mgr
        self._shader_name = shader_name
        self._image_factory = image_factory

        code = self._loader.load(shader_name, 'bsdf.py')
        if code is None:
            raise ValueError("bsdf.py in %s doesnt exist!" % shader_name)

        args = self._load_args()
        name = 'material_%i' % id(args)
        s = color_mgr.zero()
        func_args = self._func_args(s)
        self._bsdf_shader = Shader(code=code,
                                   args=args,
                                   name=name,
                                   func_args=func_args,
                                   is_func=True)

        #Sampling shader
        code = self._loader.load(self._shader_name, 'sample.py')
        if code is None:
            code = self._default_sampling()

        args = self._load_args()
        ptr_mat_bsdf = PointerArg('ptr_mat_bsdf', 0)
        ptr_mat_pdf = PointerArg('ptr_mat_pdf', 0)
        ptr_bsdf = ArgList('ptr_mat_bsdf', [ptr_mat_bsdf])
        ptr_pdf = ArgList('ptr_mat_pdf', [ptr_mat_pdf])
        args.append(ptr_bsdf)
        args.append(ptr_pdf)

        name = 'material_sampling_%i' % id(args)
        func_args = self._func_args(s)
        self._sampling_shader = Shader(code=code,
                                       args=args,
                                       name=name,
                                       func_args=func_args,
                                       is_func=True)

        #material pdf
        code = self._loader.load(self._shader_name, 'pdf.py')
        if code is None:
            code = self._default_pdf()
        args = self._load_args()
        name = 'material_pdf_%i' % id(args)
        func_args = self._func_args(s)
        self._pdf_shader = Shader(code=code,
                                  args=args,
                                  name=name,
                                  func_args=func_args,
                                  is_func=True)

    def _default_sampling(self):
        code = """
r1 = random()
r2 = random()
e = 1.0

phi = 2.0 * 3.14159 * r1
exponent = 1.0 / (e + 1.0)
cos_theta = pow(r2, exponent)

tmp = 1.0 - cos_theta * cos_theta
sin_theta = sqrt(tmp)
sin_phi = sin(phi)
cos_phi = cos(phi)
pu = sin_theta * cos_phi 
pv = sin_theta * sin_phi
pw = cos_theta

w = hitpoint.normal 
tv = (0.0034, 1.0, 0.0071)
v = cross(tv, w)
v = normalize(v)
u = cross(v, w)

ndir = u * pu + v * pv + w * pw
shadepoint.wi = normalize(ndir)

__material_pdf(hitpoint, shadepoint, ptr_mat_pdf)
__material_reflectance(hitpoint, shadepoint, ptr_mat_bsdf)
        """
        return code

    def _default_pdf(self):
        code = """
shadepoint.pdf = dot(hitpoint.normal, shadepoint.wi) * 0.318309886
        """
        return code

    def compile(self, shaders=[]):
        self._bsdf_shader.compile(shaders, color_mgr=self._color_mgr)
        self._sampling_shader.compile(shaders, color_mgr=self._color_mgr)
        self._pdf_shader.compile(shaders, color_mgr=self._color_mgr)

    def prepare(self, runtimes):
        self._bsdf_shader.prepare(runtimes)
        self._pdf_shader.prepare(runtimes)

        ptrs = self._bsdf_shader.get_ptrs()
        args = [PointerArg('ptr_mat_bsdf', p) for p in ptrs]
        ptr_bsdf = self._sampling_shader._get_arg('ptr_mat_bsdf')
        ptr_bsdf.resize(args)

        ptrs = self._pdf_shader.get_ptrs()
        args = [PointerArg('ptr_mat_pdf', p) for p in ptrs]
        ptr_pdf = self._sampling_shader._get_arg('ptr_mat_pdf')
        ptr_pdf.resize(args)

        self._sampling_shader.prepare(runtimes)

    def emission_shader(self, shaders=[]):
        args = self._load_args()
        code = self._loader.load(self._shader_name, 'emission.py')
        if code is None:
            raise ValueError("emission.py in %s dont exist!" %
                             self._shader_name)

        name = 'material_emission_%i' % id(args)
        s = self._color_mgr.zero()
        func_args = self._func_args(s)
        emission_shader = Shader(code=code,
                                 args=args,
                                 name=name,
                                 func_args=func_args,
                                 is_func=True)
        return emission_shader

    def sync_shader_props(self, shader):
        for arg in shader.args:
            val = self.get_value(arg.name)
            shader.set_value(arg.name, val)

    def set_value(self, name, val):
        if self._bsdf_shader is None:
            raise ValueError("Material shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val)
        self._bsdf_shader.set_value(name, val)
        self._sampling_shader.set_value(name, val)
        self._pdf_shader.set_value(name, val)

    def get_value(self, name):
        if self._bsdf_shader is None:
            raise ValueError("Material shader is not loaded!")
        return self._bsdf_shader.get_value(name)

    def output(self, name):
        txt = 'Material\n'
        txt += 'type = %s\n' % self._shader_name
        txt += 'name = %s\n' % name
        args = self._load_args()
        for arg in args:
            value = self.get_value(arg.name)
            txt += output_arg(arg.name, value)
        txt += 'End\n'
        return txt
Exemplo n.º 42
0
    def atest_material_glass(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime()]
        mat = Material()
        mat.load('glass', sam_mgr, spectral=False)
        mat.set_value('ior', 1.5)

        mgr = MaterialManager()
        mgr.add('material1', mat)

        shaders = shaders_functions()
        for shader in shaders:
            shader.compile()
            shader.prepare(runtimes)

        mgr.compile_shaders(sam_mgr, spectral=False, shaders=shaders)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.normal = normal
sp = ShadePoint()
sp.wo = wo
material_sampling(hp, sp, 0)
pdf = sp.pdf
wi = sp.wi
spec = sp.material_reflectance
        """
        pdf = FloatArg('pdf', 0.0)
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        ww = Vector3(5.0, 1.0, 0.0)
        ww.normalize()
        wo = Vec3Arg('wo', ww)
        nn = Vector3(0.0, 1.0, 0.0)
        nn.normalize()
        normal = Vec3Arg('normal', nn)
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))

        shader = Shader(code=code, args=[pdf, wi, wo, normal, spec])
        shader.compile(shaders=[mgr.sampling_shader])
        shader.prepare(runtimes)

        shader.execute()

        s = shader.get_value('wi')
        print(s)
        s = shader.get_value('pdf')
        print(s)
        s = shader.get_value('spec')
        print(s)
        print('------------------------------')
        print('wo', ww)
        wi, pdf, ref = sampling_glass(1.5, ww, nn)
        print("wi", wi)
        print("pdf", pdf)
        print("ref", ref)
        ndotwi = abs(nn.dot(wi))
        print("ndotwi", ndotwi)

        tmp = ndotwi / pdf
        path_weight = ref * tmp
        print("path weight", path_weight)
Exemplo n.º 43
0
class Material:
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'mat_shaders')
        self._loader = Loader([path])

        self._bsdf_shader = None
        self._sampling_shader = None
        self._shader_name = None

    def is_emissive(self):
        if self._shader_name is None:
            return False
        return self._loader.exist(self._shader_name, 'emission.py')

    def _func_args(self, spectrum):
        func_args = [StructArgPtr('hitpoint', HitPoint.factory()),
                     StructArgPtr('shadepoint', ShadePoint.factory(spectrum))]
        return func_args

    def _load_args(self):
        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, self._color_mgr, image_factory=self._image_factory)
        return args

    def load(self, shader_name, color_mgr, image_factory=None):
        self._color_mgr = color_mgr
        self._shader_name = shader_name
        self._image_factory = image_factory

        code = self._loader.load(shader_name, 'bsdf.py')
        if code is None:
            raise ValueError("bsdf.py in %s doesnt exist!" % shader_name)
        
        args = self._load_args()
        name = 'material_%i' % id(args)
        s = color_mgr.zero()
        func_args = self._func_args(s)
        self._bsdf_shader = Shader(code=code, args=args, name=name,
                                   func_args=func_args, is_func=True)

        #Sampling shader
        code = self._loader.load(self._shader_name, 'sample.py')
        if code is None:
            code = self._default_sampling()

        args = self._load_args()
        ptr_mat_bsdf = PointerArg('ptr_mat_bsdf', 0)
        ptr_mat_pdf = PointerArg('ptr_mat_pdf', 0)
        ptr_bsdf = ArgList('ptr_mat_bsdf', [ptr_mat_bsdf])
        ptr_pdf = ArgList('ptr_mat_pdf', [ptr_mat_pdf])
        args.append(ptr_bsdf)
        args.append(ptr_pdf)

        name = 'material_sampling_%i' % id(args)
        func_args = self._func_args(s)
        self._sampling_shader = Shader(code=code, args=args, name=name,
                                       func_args=func_args, is_func=True)

        #material pdf
        code = self._loader.load(self._shader_name, 'pdf.py')
        if code is None:
            code = self._default_pdf()
        args = self._load_args()
        name = 'material_pdf_%i' % id(args)
        func_args = self._func_args(s)
        self._pdf_shader = Shader(code=code, args=args, name=name,
                                  func_args=func_args, is_func=True)


    def _default_sampling(self):
        code = """
r1 = random()
r2 = random()
e = 1.0

phi = 2.0 * 3.14159 * r1
exponent = 1.0 / (e + 1.0)
cos_theta = pow(r2, exponent)

tmp = 1.0 - cos_theta * cos_theta
sin_theta = sqrt(tmp)
sin_phi = sin(phi)
cos_phi = cos(phi)
pu = sin_theta * cos_phi 
pv = sin_theta * sin_phi
pw = cos_theta

w = hitpoint.normal 
tv = (0.0034, 1.0, 0.0071)
v = cross(tv, w)
v = normalize(v)
u = cross(v, w)

ndir = u * pu + v * pv + w * pw
shadepoint.wi = normalize(ndir)

__material_pdf(hitpoint, shadepoint, ptr_mat_pdf)
__material_reflectance(hitpoint, shadepoint, ptr_mat_bsdf)
        """
        return code

    def _default_pdf(self):
        code = """
shadepoint.pdf = dot(hitpoint.normal, shadepoint.wi) * 0.318309886
        """
        return code

    def compile(self, shaders=[]):
        self._bsdf_shader.compile(shaders, color_mgr=self._color_mgr)
        self._sampling_shader.compile(shaders, color_mgr=self._color_mgr)
        self._pdf_shader.compile(shaders, color_mgr=self._color_mgr)

    def prepare(self, runtimes):
        self._bsdf_shader.prepare(runtimes)
        self._pdf_shader.prepare(runtimes)

        ptrs = self._bsdf_shader.get_ptrs()
        args = [PointerArg('ptr_mat_bsdf', p) for p in ptrs]
        ptr_bsdf = self._sampling_shader._get_arg('ptr_mat_bsdf')
        ptr_bsdf.resize(args)

        ptrs = self._pdf_shader.get_ptrs()
        args = [PointerArg('ptr_mat_pdf', p) for p in ptrs]
        ptr_pdf = self._sampling_shader._get_arg('ptr_mat_pdf')
        ptr_pdf.resize(args)

        self._sampling_shader.prepare(runtimes)

    def emission_shader(self, shaders=[]):
        args = self._load_args()
        code = self._loader.load(self._shader_name, 'emission.py')
        if code is None:
            raise ValueError("emission.py in %s dont exist!" % self._shader_name)

        name = 'material_emission_%i' % id(args)
        s = self._color_mgr.zero()
        func_args = self._func_args(s)
        emission_shader = Shader(code=code, args=args, name=name,
                                 func_args=func_args, is_func=True)
        return emission_shader

    def sync_shader_props(self, shader):
        for arg in shader.args:
            val = self.get_value(arg.name)
            shader.set_value(arg.name, val)

    def set_value(self, name, val):
        if self._bsdf_shader is None:
            raise ValueError("Material shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val)
        self._bsdf_shader.set_value(name, val)
        self._sampling_shader.set_value(name, val)
        self._pdf_shader.set_value(name, val)

    def get_value(self, name):
        if self._bsdf_shader is None:
            raise ValueError("Material shader is not loaded!")
        return self._bsdf_shader.get_value(name)

    def output(self, name):
        txt = 'Material\n'
        txt += 'type = %s\n' % self._shader_name
        txt += 'name = %s\n' % name
        args = self._load_args()
        for arg in args:
            value = self.get_value(arg.name)
            txt += output_arg(arg.name, value)
        txt += 'End\n'
        return txt
Exemplo n.º 44
0
class GeneralLight(Light):
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'light_shaders')
        self._loader = Loader([path])
        self.shader = None

    def _func_args(self, spectrum):
        func_args = [
            StructArgPtr('hitpoint', HitPoint.factory()),
            StructArgPtr('shadepoint', ShadePoint.factory(spectrum))
        ]
        return func_args

    def load(self, shader_name, color_mgr):
        args = []
        text = self._loader.load(shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, color_mgr)

        code = self._loader.load(shader_name, 'code.py')
        if code is None:
            raise ValueError("code.py in %s shader dont exist!" % shader_name)

        name = 'light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.shader = Shader(code=code,
                             args=args,
                             name=name,
                             func_args=func_args,
                             is_func=True)
        self._color_mgr = color_mgr
        self._shader_name = shader_name

    def compile(self, shaders=[]):
        self.shader.compile(shaders, color_mgr=self._color_mgr)

    def prepare(self, runtimes):
        self.shader.prepare(runtimes)

    def get_value(self, name):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        return self.shader.get_value(name)

    def set_value(self, name, val):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.shader.set_value(name, val)

    def output(self, name):
        txt = 'Light\n'
        txt += 'type = %s\n' % self._shader_name
        txt += 'name = %s\n' % name

        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text)
        for arg in args:
            value = self.get_value(arg.name)
            txt += output_arg(arg.name, value)
        txt += 'End\n'
        return txt
Exemplo n.º 45
0
class GeneralLight(Light):
    def __init__(self):
        path = os.path.dirname(__file__)
        path = os.path.join(path, 'light_shaders')
        self._loader = Loader([path])
        self.shader = None

    def _func_args(self, spectrum):
        func_args = [StructArgPtr('hitpoint', HitPoint.factory()),
                     StructArgPtr('shadepoint', ShadePoint.factory(spectrum))]
        return func_args


    def load(self, shader_name, color_mgr):
        args = []
        text = self._loader.load(shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, color_mgr)

        code = self._loader.load(shader_name, 'code.py')
        if code is None:
            raise ValueError("code.py in %s shader dont exist!" % shader_name)

        name = 'light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.shader = Shader(code=code, args=args, name=name,
                             func_args=func_args, is_func=True)
        self._color_mgr = color_mgr
        self._shader_name = shader_name

    def compile(self, shaders=[]):
        self.shader.compile(shaders, color_mgr=self._color_mgr)

    def prepare(self, runtimes):
        self.shader.prepare(runtimes)

    def get_value(self, name):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        return self.shader.get_value(name)

    def set_value(self, name, val):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.shader.set_value(name, val)

    def output(self, name):
        txt ='Light\n'
        txt +='type = %s\n' % self._shader_name 
        txt +='name = %s\n' % name

        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text)
        for arg in args:
            value = self.get_value(arg.name)
            txt += output_arg(arg.name, value)
        txt +='End\n'
        return txt
Exemplo n.º 46
0
class AreaLight(Light):
    def __init__(self, shape, material):

        path = os.path.dirname(__file__)
        path = os.path.join(path, 'area_light_shaders')
        self._loader = Loader([path])

        self.shape = shape
        self.material = material
        self.shader = None

    def _func_args(self, spectrum):
        func_args = [StructArgPtr('hitpoint', HitPoint.factory()),
                     StructArgPtr('shadepoint', ShadePoint.factory(spectrum))]
        return func_args

    def _load_args(self):
        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, self._color_mgr)
        return args

    def load(self, shader_name, color_mgr):
        self._color_mgr = color_mgr
        self._shader_name = shader_name

        args = self._load_args()

        ptr_lgt_sample = PointerArg('ptr_light_sample', 0)
        lgt_sample = ArgList('ptr_light_sample', [ptr_lgt_sample])
        args.append(lgt_sample)
        ptr_mat_emission = PointerArg('ptr_mat_emission', 0)
        mat_emission = ArgList('ptr_mat_emission', [ptr_mat_emission])
        args.append(mat_emission)

        code = self._loader.load(shader_name, 'code.py')
        if code is None:
            raise ValueError("code.py in %s shader dont exist!" % shader_name)

        name = 'light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.shader = Shader(code=code, args=args, name=name,
                             func_args=func_args, is_func=True)
        
        # area light emission shader
        name = 'light_emission%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        args = []
        ptr_lgt_pdf = PointerArg('ptr_light_pdf', 0)
        lgt_pdf = ArgList('ptr_light_pdf', [ptr_lgt_pdf])
        args.append(lgt_pdf)
        ptr_mat_emission = PointerArg('ptr_mat_emission', 0)
        mat_emission = ArgList('ptr_mat_emission', [ptr_mat_emission])
        args.append(mat_emission)
        code = """
__light_pdf(hitpoint, shadepoint, ptr_light_pdf)
__material_emission(hitpoint, shadepoint, ptr_mat_emission)
        """
        self.emission_shader = Shader(code=code, args=args, name=name,
                                      func_args=func_args, is_func=True)

    def compile(self, shaders=[]):
        self.shader.compile(shaders, color_mgr=self._color_mgr)
        self.emission_shader.compile(shaders, color_mgr=self._color_mgr)

        spec = self._color_mgr.zero()
        self.light_sample_shader = self.shape.light_sample(spec)
        self.light_sample_shader.compile(shaders, color_mgr=self._color_mgr)

        self.light_pdf_shader = self.shape.light_pdf(spec)
        self.light_pdf_shader.compile(shaders, color_mgr=self._color_mgr)

        self._emission_shader = self.material.emission_shader()
        self._emission_shader.compile(shaders, color_mgr=self._color_mgr)


    def prepare(self, runtimes):
        self.light_sample_shader.prepare(runtimes)
        ptrs = self.light_sample_shader.get_ptrs()
        args = [PointerArg('ptr_light_sample', p) for p in ptrs]
        lgt_sample = self.shader._get_arg('ptr_light_sample')
        lgt_sample.resize(args)

        self.light_pdf_shader.prepare(runtimes)
        ptrs = self.light_pdf_shader.get_ptrs()
        args = [PointerArg('ptr_light_pdf', p) for p in ptrs]
        lgt_pdf = self.emission_shader._get_arg('ptr_light_pdf')
        lgt_pdf.resize(args)

        self._emission_shader.prepare(runtimes)
        self.material.sync_shader_props(self._emission_shader)
        ptrs = self._emission_shader.get_ptrs()
        args = [PointerArg('ptr_mat_emission', p) for p in ptrs]
        ptr_emission = self.shader._get_arg('ptr_mat_emission')
        ptr_emission.resize(args)

        args = [PointerArg('ptr_mat_emission', p) for p in ptrs]
        ptr_emission = self.emission_shader._get_arg('ptr_mat_emission')
        ptr_emission.resize(args)

        self.shader.prepare(runtimes)
        self.emission_shader.prepare(runtimes)

    def get_value(self, name):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        return self.shader.get_value(name)

    def set_value(self, name, val):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.shader.set_value(name, val)
Exemplo n.º 47
0
class Sampler:
    def __init__(self, width, height, pixelsize=1.0, nthreads=1):
        self._width = width
        self._height = height
        self._pixelsize = pixelsize
        self._nthreads = nthreads

        self._pass = 0
        self.shader = None

    @property
    def nthreads(self):
        return self._nthreads

    def get_resolution(self):
        return (self._width, self._height)

    def args(self):
        self._tiles = tiles = create_tiles(self._width, self._height, self._nthreads)

        n = self.nsamples()
        subx, suby = self._subpixel_location()

        args = [IntArg('width', self._width), IntArg('height', self._height),
                FloatArg('pixelsize', self._pixelsize), IntArg('nsamples', n),
                IntArg('npass', self._pass), IntArg('subx', subx),
                IntArg('suby', suby)]

        targs = [StructArg('tile', tile) for tile in tiles]
        targ = ArgList('tile', targs)
        args.append(targ)
        curx_args = [IntArg('curx', 0) for tile in tiles]
        curx_arg = ArgList('curx', curx_args)
        args.append(curx_arg)
        cury_args = [IntArg('cury', tile.y) for tile in tiles]
        cury_arg = ArgList('cury', cury_args)
        args.append(cury_arg)
        endx_args = [IntArg('endx', tile.width) for tile in tiles]
        endx_arg = ArgList('endx', endx_args)
        args.append(endx_arg)
        endy_args = [IntArg('endy', tile.y + tile.height) for tile in tiles]
        endy_arg = ArgList('endy', endy_args)
        args.append(endy_arg)
        return args

    def create_shader(self):
        raise NotImplementedError()

    def compile(self, shaders=[]):
        if self.shader is not None:
            self.shader.compile(shaders)

    def prepare(self, runtimes):
        if self._nthreads != len(runtimes):
            raise ValueError("Expected %i runtimes and got %i!" %
                             (self._nthreads, len(runtimes)))

        if self.shader is not None:
            self.shader.prepare(runtimes)

    def reset(self):
        self._pass = 0
        self._update_shader_values()

    def _subpixel_location(self):
        n = self.nsamples()
        subx = self._pass // int(math.sqrt(n))
        suby = self._pass % int(math.sqrt(n))
        return (subx, suby)

    def _update_shader_values(self):
        if self.shader is not None:
            self.shader.set_value('npass', self._pass)
            subx, suby = self._subpixel_location()
            self.shader.set_value('subx', subx)
            self.shader.set_value('suby', suby)

            curx = [0 for tile in self._tiles]
            self.shader.set_value('curx', curx)

            cury = [tile.y for tile in self._tiles]
            self.shader.set_value('cury', cury)

    def increment_pass(self):
        self._pass += 1
        self._update_shader_values()

    def has_more_samples(self):
        if self._pass >= self.nsamples():
            return False
        return True

    def nsamples(self):
        return 1

    def prepare_standalone(self):

        runtimes = [Runtime()]
        self.compile()
        self.prepare(runtimes)

        code = """
ret = generate_sample(sample)
        """
        args = [StructArg('sample', Sample.factory()), IntArg('ret', 11)]
        self._standalone = Shader(code=code, args=args)
        self._standalone.compile([self.shader])
        self._standalone.prepare(runtimes)

    def generate_sample(self):

        self._standalone.execute()
        ret = self._standalone.get_value('ret')
        if ret == 0:
            return False
        sample = self._standalone.get_value('sample')
        return sample

    def output(self):
        txt = 'Sampler\n'
        txt += 'type = %s\n' % self.type_name()
        txt += 'width = %i\n' % self._width
        txt += 'height = %i\n' % self._height
        txt += 'nsamples = %i\n' % self.nsamples()
        txt += 'nthreads = %i\n' % self._nthreads
        txt += 'pixelsize = %f\n' % self._pixelsize 
        txt += 'End\n'
        return txt

    def type_name(self):
        raise NotImplementedError()
Exemplo n.º 48
0
class AreaLight(Light):
    def __init__(self, shape, material):

        path = os.path.dirname(__file__)
        path = os.path.join(path, 'area_light_shaders')
        self._loader = Loader([path])

        self.shape = shape
        self.material = material
        self.shader = None

    def _func_args(self, spectrum):
        func_args = [
            StructArgPtr('hitpoint', HitPoint.factory()),
            StructArgPtr('shadepoint', ShadePoint.factory(spectrum))
        ]
        return func_args

    def _load_args(self):
        args = []
        text = self._loader.load(self._shader_name, 'props.txt')
        if text is not None:
            args = parse_args(text, self._color_mgr)
        return args

    def load(self, shader_name, color_mgr):
        self._color_mgr = color_mgr
        self._shader_name = shader_name

        args = self._load_args()

        ptr_lgt_sample = PointerArg('ptr_light_sample', 0)
        lgt_sample = ArgList('ptr_light_sample', [ptr_lgt_sample])
        args.append(lgt_sample)
        ptr_mat_emission = PointerArg('ptr_mat_emission', 0)
        mat_emission = ArgList('ptr_mat_emission', [ptr_mat_emission])
        args.append(mat_emission)

        code = self._loader.load(shader_name, 'code.py')
        if code is None:
            raise ValueError("code.py in %s shader dont exist!" % shader_name)

        name = 'light_%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        self.shader = Shader(code=code,
                             args=args,
                             name=name,
                             func_args=func_args,
                             is_func=True)

        # area light emission shader
        name = 'light_emission%i' % id(args)
        func_args = self._func_args(color_mgr.zero())
        args = []
        ptr_lgt_pdf = PointerArg('ptr_light_pdf', 0)
        lgt_pdf = ArgList('ptr_light_pdf', [ptr_lgt_pdf])
        args.append(lgt_pdf)
        ptr_mat_emission = PointerArg('ptr_mat_emission', 0)
        mat_emission = ArgList('ptr_mat_emission', [ptr_mat_emission])
        args.append(mat_emission)
        code = """
__light_pdf(hitpoint, shadepoint, ptr_light_pdf)
__material_emission(hitpoint, shadepoint, ptr_mat_emission)
        """
        self.emission_shader = Shader(code=code,
                                      args=args,
                                      name=name,
                                      func_args=func_args,
                                      is_func=True)

    def compile(self, shaders=[]):
        self.shader.compile(shaders, color_mgr=self._color_mgr)
        self.emission_shader.compile(shaders, color_mgr=self._color_mgr)

        spec = self._color_mgr.zero()
        self.light_sample_shader = self.shape.light_sample(spec)
        self.light_sample_shader.compile(shaders, color_mgr=self._color_mgr)

        self.light_pdf_shader = self.shape.light_pdf(spec)
        self.light_pdf_shader.compile(shaders, color_mgr=self._color_mgr)

        self._emission_shader = self.material.emission_shader()
        self._emission_shader.compile(shaders, color_mgr=self._color_mgr)

    def prepare(self, runtimes):
        self.light_sample_shader.prepare(runtimes)
        ptrs = self.light_sample_shader.get_ptrs()
        args = [PointerArg('ptr_light_sample', p) for p in ptrs]
        lgt_sample = self.shader._get_arg('ptr_light_sample')
        lgt_sample.resize(args)

        self.light_pdf_shader.prepare(runtimes)
        ptrs = self.light_pdf_shader.get_ptrs()
        args = [PointerArg('ptr_light_pdf', p) for p in ptrs]
        lgt_pdf = self.emission_shader._get_arg('ptr_light_pdf')
        lgt_pdf.resize(args)

        self._emission_shader.prepare(runtimes)
        self.material.sync_shader_props(self._emission_shader)
        ptrs = self._emission_shader.get_ptrs()
        args = [PointerArg('ptr_mat_emission', p) for p in ptrs]
        ptr_emission = self.shader._get_arg('ptr_mat_emission')
        ptr_emission.resize(args)

        args = [PointerArg('ptr_mat_emission', p) for p in ptrs]
        ptr_emission = self.emission_shader._get_arg('ptr_mat_emission')
        ptr_emission.resize(args)

        self.shader.prepare(runtimes)
        self.emission_shader.prepare(runtimes)

    def get_value(self, name):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        return self.shader.get_value(name)

    def set_value(self, name, val):
        if self.shader is None:
            raise ValueError("Light shader is not loaded!")
        if isinstance(val, (RGBSpectrum, SampledSpectrum)):
            val = self._color_mgr.convert_spectrum(val, illum=True)
        self.shader.set_value(name, val)
Exemplo n.º 49
0
    def atest_material_glass(self):
        sam_mgr = SampledManager()
        register_rgb_shadepoint()

        runtimes = [Runtime()]
        mat = Material()
        mat.load('glass', sam_mgr, spectral=False)
        mat.set_value('ior', 1.5)

        mgr = MaterialManager()
        mgr.add('material1', mat)

        shaders = shaders_functions()
        for shader in shaders:
            shader.compile()
            shader.prepare(runtimes)

        mgr.compile_shaders(sam_mgr, spectral=False, shaders=shaders)
        mgr.prepare_shaders(runtimes)

        code = """
hp = HitPoint()
hp.normal = normal
sp = ShadePoint()
sp.wo = wo
material_sampling(hp, sp, 0)
pdf = sp.pdf
wi = sp.wi
spec = sp.material_reflectance
        """
        pdf = FloatArg('pdf', 0.0)
        wi = Vec3Arg('wi', Vector3(0.0, 0.0, 0.0))
        ww = Vector3(5.0, 1.0, 0.0)
        ww.normalize()
        wo = Vec3Arg('wo', ww)
        nn = Vector3(0.0, 1.0, 0.0)
        nn.normalize()
        normal = Vec3Arg('normal', nn)
        spec = RGBArg('spec', RGBSpectrum(0.5, 0.5, 0.5))

        shader = Shader(code=code, args=[pdf, wi, wo, normal, spec])
        shader.compile(shaders=[mgr.sampling_shader])
        shader.prepare(runtimes)

        shader.execute()

        s = shader.get_value('wi')
        print(s)
        s = shader.get_value('pdf')
        print(s)
        s = shader.get_value('spec')
        print(s)
        print('------------------------------')
        print('wo', ww)
        wi, pdf, ref = sampling_glass(1.5, ww, nn)
        print("wi", wi)
        print("pdf", pdf)
        print("ref", ref)
        ndotwi = abs(nn.dot(wi))
        print("ndotwi", ndotwi)

        tmp = ndotwi / pdf
        path_weight = ref * tmp
        print("path weight", path_weight)