Exemple #1
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def frame(step):
    lichtje = LightSource([2, 8, -5], 5.0)
    default_camera = Camera('location', [0, 4, -40], 'look_at', [0, 2, -5])
    ''' Creates a sphere and places this in a scene '''
    stylebox = Texture(Pigment('color', [0.80, 0.00, 1.00], 'filter', 0.7),
                       Finish('phong', 0.6, 'reflection', 0.4))
    boxright = Box([3, -2, -3], [5, 6, 4], stylebox)
    boxleft = Box([-5, -2, -3], [-3, 6, 4], stylebox)
    boxupper = Box([-5, 6, -3], [5, 8, 4], stylebox)
    boxbottom = Box([-5, -4, -3], [5, -2, 4], stylebox)

    styleball = Texture(Pigment('color', [0.80, 0.00, 1.00], 'filter', 0.7))
    centerball = Sphere([0, 2, 0], 3, styleball)

    conetop = Cone([0, 8, 0], 3, [0, 12, 0], 0, stylebox)
    conebottom = Cone([0, -4, 0], 3, [0, -8, 0], 0, stylebox)
    coneleft = Cone([-5, 2, 0], 3, [-11, 2, 0], 0, stylebox)
    coneright = Cone([5, 2, 0], 3, [11, 2, 0], 0, stylebox)
    shapes = legend([-15, 0, 0], 5)
    # Return the Scene object for rendering
    return Scene(default_camera,
                 objects=[
                     lichtje, centerball, boxright, boxleft, boxupper,
                     boxbottom, conetop, conebottom, coneleft, coneright
                 ] + shapes,
                 included=['colors.inc'])
Exemple #2
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def frame(step):
    """ Creates a frame of 4 cones, 4 boxes, 1 sphere and a legend """

    # Define textures for different models
    sphere_model = Texture(Pigment('color', [1, 0, 1], ), Finish('reflection', 0.5))
    box_model = Texture(Pigment('color', [0, 1, 1], ), Finish('reflection', 0))
    cone_model = Texture(Pigment('color', [1, 0, 1], ), Finish('reflection', 0))

    # Create objects
    sphere = Sphere([0, 0, 0], 3, sphere_model)

    box_1 = Box([-5, -5, -4], [-3, 5, 4], box_model)
    box_2 = Box([3, -5, -4], [5, 5, 4], box_model)
    box_3 = Box([-5, 4, -4], [5, 6, 4], box_model)
    box_4 = Box([-5, -5, -4], [5, -3, 4], box_model)

    cone_1 = Cone([0, 6, 0], 3, [0, 10, 0], 0, cone_model)
    cone_2 = Cone([0, -6, 0], 3, [0, -10, 0], 0, cone_model)
    cone_3 = Cone([-5, 0, 0], 3, [-9, 0, 0], 0, cone_model)
    cone_4 = Cone([5, 0, 0], 3, [9, 0, 0], 0, cone_model)

    light_1 = LightSource([0, 10, -25], 'color', [1, 1, 1])
    light_2 = LightSource([0, 8, -7], 'color', [1, 1, 1])

    xyz_legend = legend([-15, 0, 0], 5)

    camera = Camera('location', [0, 7, -30], 'look_at', [0, 2, 1])

    # Return the Scene object for rendering
    return Scene(camera,
                 objects=[sphere, box_1, box_2, box_3, box_4,
                          cone_1, cone_2, cone_3, cone_4, light_1, light_2] + xyz_legend)
def frame(step):
    curr_time = step / eval(SETTINGS.NumberFrames) * eval(SETTINGS.FrameTime)
    logger.info(" @Time: %.3fs, Step: %d", curr_time, step)

    nframes = eval(SETTINGS.NumberFrames)

    style = Texture(Pigment('color', [0.80, 0.00, 1.00], 'filter', 0.7),
                    Finish('phong', 0.6, 'reflection', 0.4))

    cylinder = Cylinder([-6, -1, 4], [-6, 7, 4], 3, style)
    sphere = Sphere([6, 2, -2], 3, style)
    leg = legend([-15, 0, 0], 5)

    radius = 25
    z_start = -25
    x_start = 0
    alpha = (-pi / 2) + (step * 2 * pi / nframes)
    x_coord = radius * cos(alpha)
    z_coord = radius * sin(alpha)
    x = x_start + x_coord
    z = z_start - z_coord

    camera_x = 0
    camera_z = -25

    # x gaat links en rechts en z verder de diepte in en terug -25?
    camera = Camera('location', [camera_x, 8, camera_z], 'look_at', [0, 0, 0])

    return Scene(
        camera,
        objects=[
            cylinder, sphere, models.default_light, models.checkered_ground
        ] + shapes,
        included=['colors.inc'])
Exemple #4
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def frame(step):
    """ Returns the scene at step number (1 step per frame) """
    # Show some information about how far we are with rendering
    curr_time = step / eval(SETTINGS.NumberFrames) * eval(SETTINGS.FrameTime)
    logger.info(" @Time: %.3fs, Step: %d", curr_time, step)

    # Getting the total number of frames, see the configuration file
    nframes = eval(SETTINGS.NumberFrames)

    style = Texture(Pigment('color', [0.80, 0.00, 1.00], 'filter', 0.7),
                    Finish('phong', 0.6, 'reflection', 0.4))

    cylinder = Cylinder([-6, -1, 4], [-6, 7, 4], 3, style)
    sphere = Sphere([6, 2, -2], 3, style)
    leg = legend([-15, 0, 0], 5)
    radius = 25
    z_start = 0
    x_start = 0
    #werkt allbei
    # alpha = (-pi/2) + (step * 2 * pi / nframes)
    alpha = pi / (nframes / 2) * step + 1

    x_coord = radius * cos(alpha)
    z_coord = radius * sin(alpha)
    x = x_start + x_coord
    z = z_start - z_coord
    return Scene(
        Camera('location', [x, 8, z], 'look_at', [0, 0, 0]),
        objects=[
            models.checkered_ground, models.default_light, cylinder, sphere
        ] + leg)
Exemple #5
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def make_objects():
    global SPHERE, CYLINDER, LEGEND

    SPHERE = Sphere([6, 2, -2], 3, models.default_sphere_model)
    CYLINDER = Cylinder([-6, -1, 4], [-6, 7, 4], 3,
                        models.default_sphere_model)
    LEGEND = legend([-15, 0, 0], 5)
Exemple #6
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def frame(step):
    """ Returns the scene at step number (1 step per frame) """

    curr_time = step / eval(SETTINGS.NumberFrames) * eval(SETTINGS.FrameTime)
    logger.info(" @Time: %.3fs, Step: %d", curr_time, step)

    nframes = eval(SETTINGS.NumberFrames)

    style = Texture(Pigment('color', [0.80, 0.00, 1.00], 'filter', 0.7),
                    Finish('phong', 0.6, 'reflection', 0.4))

    cylinder = Cylinder([-6, -1, 4], [-6, 7, 4], 3, style)
    sphere = Sphere([6, 2, -2], 3, style)
    leg = legend([-15, 0, 0], 5)
    radius = 25
    z_start = 0
    x_start = 0

    alpha = (-pi / 2) + (step * 2 * pi / nframes)
    # For each step, de difference in the x and z positions is equal to the radius time the sin and cos of alpha.
    x_coord = radius * cos(alpha)
    z_coord = radius * sin(alpha)
    # Adding or subtracting the difference of the position for each step from the original camera position.
    x = x_start + x_coord
    z = z_start - z_coord
    return Scene(
        Camera('location', [x, 8, z], 'look_at', [0, 0, 0]),
        objects=[
            models.checkered_ground, models.default_light, cylinder, sphere
        ] + leg)
def frame(step):
    """ Creates the objects and places this in a scene """
    # Creates a sphere
    sphere = make_sphere(0, 0, 0, 1, 0, 1)
    # Creates the rectangles
    rectangle_right = make_box(3, -6, -4, 5, 6, 2)
    rectangle_top = make_box(3, 6, -4, -3, 4, 2)
    rectangle_left = make_box(-3, -6, -4, -5, 6, 2)
    rectangle_bottom = make_box(-3, -4, -4, 3, -6, 2)
    # Creates the cones
    cone_top = make_cone(0, 6, 0, 0, 10, 0)
    cone_left = make_cone(-5, 0, 0, -9, 0, 0)
    cone_right = make_cone(5, 0, 0, 9, 0, 0)
    cone_bottom = make_cone(0, -6, 0, 0, -10, 0)
    # Return the Scene object for rendering
    xyz_legend = legend([-15, 0, 0], 5)
    return Scene(Camera('location', [0, 10, -35], 'look_at', [0, 2, -2]),
                 objects=[LightSource([2, 8, -20], 2), sphere, rectangle_right, rectangle_top, rectangle_left,
                          rectangle_bottom, cone_top, cone_left, cone_right, cone_bottom] + xyz_legend)
Exemple #8
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def frame(step):
    """ Returns a scene at a step number while camera is moving. """
    # Feedback to user in terminal about render status
    curr_time = step / eval(SETTINGS.NumberFrames) * eval(SETTINGS.FrameTime)
    logger.info(" @Time: %.3fs, Step: %d", curr_time, step)

    # Calculates the total frames
    n_frames = eval(SETTINGS.NumberFrames)

    # Calculates coordinates for the camera position
    radius = 25
    degrees = pi / (n_frames / 2) * (step + 1)
    x_coord = radius * sin(degrees)
    z_coord = radius * cos(degrees)

    # Makes objects at given coordinates
    sphere = Sphere([6, 2, -2], 3, models.default_sphere_model)
    cylinder = Cylinder([-6, -1, 4], [-6, 7, 4], 3, models.default_sphere_model)
    xyz_legend = legend([-15, 0, 0], 5)

    # Returns the objects of the scene using the default camera settings
    return Scene(Camera('location', [x_coord, 8, z_coord], 'look_at', [0, 0, 0]),
                 objects=[LightSource([2, 8, -20], 2),
                          models.checkered_ground, sphere, cylinder] + xyz_legend)