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	# Pyrender

	[![Build Status](https://travis-ci.org/mmatl/pyrender.svg?branch=master)](https://travis-ci.org/mmatl/pyrender)
	[![Documentation Status](https://readthedocs.org/projects/pyrender/badge/?version=latest)](https://pyrender.readthedocs.io/en/latest/?badge=latest)
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	[![Downloads](https://pepy.tech/badge/pyrender)](https://pepy.tech/project/pyrender)

	Pyrender is a pure Python (2.7, 3.4, 3.5, 3.6) library for physically-based
	rendering and visualization.
	It is designed to meet the [glTF 2.0 specification from Khronos](https://www.khronos.org/gltf/).

	Pyrender is lightweight, easy to install, and simple to use.
	It comes packaged with both an intuitive scene viewer and a headache-free
	offscreen renderer with support for GPU-accelerated rendering on headless
	servers, which makes it perfect for machine learning applications.

	Extensive documentation, including a quickstart guide, is provided [here](https://pyrender.readthedocs.io/en/latest/).

	For a minimal working example of GPU-accelerated offscreen rendering using EGL,
	check out the [EGL Google CoLab Notebook](https://colab.research.google.com/drive/1pcndwqeY8vker3bLKQNJKr3B-7-SYenE?usp=sharing).


	<p align="center">
	<img width="48%" src="https://github.com/mmatl/pyrender/blob/master/docs/source/_static/rotation.gif?raw=true" alt="GIF of Viewer"/>
	<img width="48%" src="https://github.com/mmatl/pyrender/blob/master/docs/source/_static/damaged_helmet.png?raw=true" alt="Damaged Helmet"/>
	</p>

	## Installation
	You can install pyrender directly from pip.

	```bash
	pip install pyrender
	```

	## Features

	Despite being lightweight, pyrender has lots of features, including:

	* Simple interoperation with the amazing [trimesh](https://github.com/mikedh/trimesh) project,
	which enables out-of-the-box support for dozens of mesh types, including OBJ,
	STL, DAE, OFF, PLY, and GLB.
	* An easy-to-use scene viewer with support for animation, showing face and vertex
	normals, toggling lighting conditions, and saving images and GIFs.
	* An offscreen rendering module that supports OSMesa and EGL backends.
	* Shadow mapping for directional and spot lights.
	* Metallic-roughness materials for physically-based rendering, including several
	types of texture and normal mapping.
	* Transparency.
	* Depth and color image generation.

	## Sample Usage

	For sample usage, check out the [quickstart
	guide](https://pyrender.readthedocs.io/en/latest/examples/index.html) or one of
	the Google CoLab Notebooks:

	* [EGL Google CoLab Notebook](https://colab.research.google.com/drive/1pcndwqeY8vker3bLKQNJKr3B-7-SYenE?usp=sharing)

	## Viewer Keyboard and Mouse Controls

	When using the viewer, the basic controls for moving about the scene are as follows:

	* To rotate the camera about the center of the scene, hold the left mouse button and drag the cursor.
	* To rotate the camera about its viewing axis, hold `CTRL` left mouse button and drag the cursor.
	* To pan the camera, do one of the following:
	* Hold `SHIFT`, then hold the left mouse button and drag the cursor.
	* Hold the middle mouse button and drag the cursor.
	* To zoom the camera in or out, do one of the following:
	* Scroll the mouse wheel.
	* Hold the right mouse button and drag the cursor.

	The available keyboard commands are as follows:

	* `a`: Toggles rotational animation mode.
	* `c`: Toggles backface culling.
	* `f`: Toggles fullscreen mode.
	* `h`: Toggles shadow rendering.
	* `i`: Toggles axis display mode (no axes, world axis, mesh axes, all axes).
	* `l`: Toggles lighting mode (scene lighting, Raymond lighting, or direct lighting).
	* `m`: Toggles face normal visualization.
	* `n`: Toggles vertex normal visualization.
	* `o`: Toggles orthographic camera mode.
	* `q`: Quits the viewer.
	* `r`: Starts recording a GIF, and pressing again stops recording and opens a file dialog.
	* `s`: Opens a file dialog to save the current view as an image.
	* `w`: Toggles wireframe mode (scene default, flip wireframes, all wireframe, or all solid).
	* `z`: Resets the camera to the default view.

	As a note, displaying shadows significantly slows down rendering, so if you're
	experiencing low framerates, just kill shadows or reduce the number of lights in
	your scene.