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Project description
BlenderProc2
A procedural Blender pipeline for photorealistic rendering.
Documentation | Tutorials | Examples | ArXiv paper | Workshop paper | JOSS article
Features
- Loading:
*.obj
,*.ply
,*.blend
,*.fbx
, BOP, ShapeNet, Haven, 3D-FRONT, etc. - Objects: Set or sample object poses, apply physics and collision checking.
- Materials: Set or sample physically-based materials and textures
- Lighting: Set or sample lights, automatic lighting of 3D-FRONT scenes.
- Cameras: Set, sample or load camera poses from file.
- Rendering: RGB, stereo, depth, normal and segmentation images/sequences.
- Writing: .hdf5 containers, COCO & BOP annotations.
Installation
Via pip
The simplest way to install blenderproc is via pip:
pip install blenderproc
Via git
Alternatively, if you need to make changes to blenderproc or you want to make use of the most recent version on the main-branch, clone the repository:
git clone https://github.com/DLR-RM/BlenderProc
To still make use of the blenderproc command and therefore use blenderproc anywhere on your system, make a local pip installation:
cd BlenderProc
pip install -e .
Usage
BlenderProc has to be run inside the blender python environment, as only there we can access the blender API. Therefore, instead of running your script with the usual python interpreter, the command line interface of BlenderProc has to be used.
blenderproc run <your_python_script>
In general, one run of your script first loads or constructs a 3D scene, then sets some camera poses inside this scene and renders different types of images (RGB, distance, semantic segmentation, etc.) for each of those camera poses. Usually, you will run your script multiple times, each time producing a new scene and rendering e.g. 5-20 images from it. With a little more experience, it is also possible to change scenes during a single script call, read here how this is done.
Quickstart
You can test your BlenderProc pip installation by running
blenderproc quickstart
This is an alias to blenderproc run quickstart.py
where quickstart.py
is:
import blenderproc as bproc
import numpy as np
bproc.init()
# Create a simple object:
obj = bproc.object.create_primitive("MONKEY")
# Create a point light next to it
light = bproc.types.Light()
light.set_location([2, -2, 0])
light.set_energy(300)
# Set the camera to be in front of the object
cam_pose = bproc.math.build_transformation_mat([0, -5, 0], [np.pi / 2, 0, 0])
bproc.camera.add_camera_pose(cam_pose)
# Render the scene
data = bproc.renderer.render()
# Write the rendering into an hdf5 file
bproc.writer.write_hdf5("output/", data)
BlenderProc creates the specified scene and renders the image into output/0.hdf5
.
To visualize that image, simply call:
blenderproc vis hdf5 output/0.hdf5
Thats it! You rendered your first image with BlenderProc!
Debugging in the Blender GUI
To understand what is actually going on, BlenderProc has the great feature of visualizing everything inside the blender UI.
To do so, simply call your script with the debug
instead of run
subcommand:
blenderproc debug quickstart.py
Make sure that quickstart.py
actually exists in your working directory.
Now the Blender UI opens up, the scripting tab is selected and the correct script is loaded.
To start the BlenderProc pipeline, one now just has to press Run BlenderProc
(see red circle in image).
As in the normal mode, print statements are still printed to the terminal.
The pipeline can be run multiple times, as in the beginning of each run the scene is cleared.
Breakpoint-Debugging in IDEs
As blenderproc runs in blenders separate python environment, debugging your blenderproc script cannot be done in the same way as with any other python script. Therefore, remote debugging is necessary, which is explained for vscode and PyCharm in the following:
Debugging with vscode
First, install the debugpy
package in blenders python environment.
blenderproc pip install debugpy
Now add the following configuration to your vscode launch.json.
{
"name": "Attach",
"type": "python",
"request": "attach",
"connect": {
"host": "localhost",
"port": 5678
}
}
Finally, add the following lines to the top (after the imports) of your blenderproc script which you want to debug.
import debugpy
debugpy.listen(5678)
debugpy.wait_for_client()
Now run your blenderproc script as usual via the CLI and then start the added "Attach" configuration in vscode. You are now able to add breakpoints and go through the execution step by step.
Debugging with PyCharm Professional
In Pycharm, go to Edit configurations...
and create a new configuration based on Python Debug Server
.
The configuration will show you, specifically for your version, which pip package to install and which code to add into the script.
The following assumes Pycharm 2021.3:
First, install the pydevd-pycharm
package in blenders python environment.
blenderproc pip install pydevd-pycharm~=212.5457.59
Now, add the following code to the top (after the imports) of your blenderproc script which you want to debug.
import pydevd_pycharm
pydevd_pycharm.settrace('localhost', port=12345, stdoutToServer=True, stderrToServer=True)
Then, first run your Python Debug Server
configuration in PyCharm and then run your blenderproc script as usual via the CLI.
PyCharm should then go in debug mode, blocking the next code line.
You are now able to add breakpoints and go through the execution step by step.
What to do next?
As you now ran your first BlenderProc script, your ready to learn the basics:
Tutorials
Read through the tutorials, to get to know with the basic principles of how BlenderProc is used:
- Loading and manipulating objects
- Configuring the camera
- Rendering the scene
- Writing the results to file
- How key frames work
- Positioning objects via the physics simulator
Examples
We provide a lot of examples which explain all features in detail and should help you understand how BlenderProc works. Exploring our examples is the best way to learn about what you can do with BlenderProc. We also provide support for some datasets.
- Basic scene: Basic example, this is the ideal place to start for beginners
- Camera sampling: Sampling of different camera positions inside of a shape with constraints for the rotation.
- Object manipulation: Changing various parameters of objects.
- Material manipulation: Material selecting and manipulation.
- Physics positioning: Enabling simple simulated physical interactions between objects in the scene.
- Semantic segmentation: Generating semantic segmentation labels for a given scene.
- BOP Challenge: Generate the pose-annotated data used at the BOP Challenge 2020
- COCO annotations: Write COCO annotations to a .json file for selected objects in the scene.
and much more, see our examples for more details.
Contributions
Found a bug? help us by reporting it. Want a new feature in the next BlenderProc release? Create an issue. Made something useful or fixed a bug? Start a PR. Check the contributions guidelines.
Change log
See our change log.
Citation
If you use BlenderProc in a research project, please cite as follows:
@article{Denninger2023,
doi = {10.21105/joss.04901},
url = {https://doi.org/10.21105/joss.04901},
year = {2023},
publisher = {The Open Journal},
volume = {8},
number = {82},
pages = {4901},
author = {Maximilian Denninger and Dominik Winkelbauer and Martin Sundermeyer and Wout Boerdijk and Markus Knauer and Klaus H. Strobl and Matthias Humt and Rudolph Triebel},
title = {BlenderProc2: A Procedural Pipeline for Photorealistic Rendering},
journal = {Journal of Open Source Software}
}
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