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Vapory

Vapory is a Python library to render photo-realistic 3D scenes with the free ray-tracing engine POV-Ray.

Here is how you would draw a purple sphere:

from vapory import *

camera = Camera( 'location', [0,2,-3], 'look_at', [0,1,2] )
light = LightSource( [2,4,-3], 'color', [1,1,1] )
sphere = Sphere( [0,1,2], 2, Texture( Pigment( 'color', [1,0,1] )))

scene = Scene( camera, objects= [light, sphere])
scene.render("purple_sphere.png", width=400, height=300)

Vapory enables to pipe the rendered images back into Python and integrates very well in the Python libraries ecosystem (see this blog post for examples)

Vapory is an open-source software originally written by Zulko, released under the MIT licence, and hosted on Github, where everyone is welcome to contribute or ask for support.

Installation

Vapory should work on any platform with Python 2.7+ or Python 3.

You first need to install POV-Ray. See here for the Windows binaries. For Linux/MacOS you must compile the source (tested on Ubuntu, it's easy).

If you have PIP installed you can :

(sudo) pip install vapory

If you have neither setuptools nor ez_setup installed the command above will fail, is this case type this before installing:

(sudo) pip install ez_setup

Vapory can also be installed manually by unzipping the source code in one directory and typing in a terminal:

(sudo) python setup.py install

Getting started

In Vapory you create a scene, and then render it:

from vapory import *

scene = Scene( camera = mycamera , # a Camera object
           objects= [light, sphere], # POV-Ray objects (items, lights)
           atmospheric = [fog], # Light-interacting objects
           included = ["colors.inc"]) # headers that POV-Ray may need

scene.render("my_scene.png", # output to a PNG image file
  width = 300, height=200, # in pixels. Determines the camera ratio.
  antialiasing = 0.01 # The nearer from zero, the more precise the image.
  quality=1) # quality=1 => no shadow/reflection, quality=10 is 'normal'

# passing 'ipython' as argument at the end of an IPython Notebook cell
# will display the picture in the IPython notebook.
scene.render('ipython', width=300, height=500)

# passing no 'file' arguments returns the rendered image as a RGB numpy array
image = scene.render(width=300, height=500)

Objects are defined by passing a list of arguments:

camera = Camera( 'location', [0,2,-3], 'look_at', [0,1,2] )

Keep in mind that this snippet will later be transformed into POV-Ray code by converting each argument to a string and placing them on different lines, to make a valid POV-Ray code

camera {
    location
    <0,1,0>
    look_at
    <0,0,0>
}

All the objects (Sphere, Box, Plane... with a few exceptions) work the same way. Therefore syntax of Vapory is the same as the syntax of POV-Ray. To learn how to use the different objects:

  • Have a look at the scenes in the examples folder
  • See the docstring of the different objects, which provides a basic example.
  • See the online POV-Ray documentation which will give you all the possible uses of each object (there can be many !). This documentation is easily accessible from Vapory, just type `Sphere.help(), Plane.help() etc., it will open it in your browser.
  • Finally, it is easy to find POV-Ray examples online and transcribe them back into Vapory.

Missing Features

For the moment a many features (Sphere, Fog, etc.) are implemented but not all of them (POV-Ray has a LOT of possible shapes and capabilities).

It is really easy to add new features, because they all basically do the same thing, are just empty classes. For instance here is how Camera is implemented:

class Camera(POVRayElement):
    """ Camera([type,]  'location', [x,y,z], 'look_at', [x,y,z]) """

Yep, that's all, but just the name of the class is sufficient for Vapory to understand that this will translate into POV-Ray code camera{...}. So in most case it shouldn't be difficult to create your own new feature. If you need a non-implemented feature to be included in the package, just open an issue or push a commit.

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Photo-realistic 3D rendering with Python and POV-Ray

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