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Python bindings for the Blackmagic RAW SDK.

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PyBraw

Python bindings for the Blackmagic RAW SDK.

Setup

Set up and activate a Conda environment with all required dependencies:

conda env create -f environment.yml
conda activate pybraw

Download the Blackmagic RAW 2.1 SDK for Linux and copy libBlackmagicRawAPI.so into your Conda environment's library path. For example:

sudo cp libBlackmagicRawAPI.so "$CONDA_PREFIX/lib/"

You may also need other libraries depending on your requirements. For example, libDecoderCUDA.so is required for CUDA GPU decoding.

Install the pybraw package:

pip install --no-build-isolation -U .

PyTorch integration

The pybraw.torch module contains a simple interface for reading image frames directly into PyTorch tensors. This works for both CPU and CUDA tensors. Here's some sample code:

from pybraw import PixelFormat, ResolutionScale
from pybraw.torch.reader import FrameImageReader

file_name = 'tests/data/Filmplusgear-skiers-Samnaun-2019-dci-Q5.braw'
# Create a helper for reading video image frames.
reader = FrameImageReader(file_name, processing_device='cuda')
# Get the number of frames in the video.
frame_count = reader.frame_count()

# Prepare the reader.
with reader.run_flow(PixelFormat.RGB_F32_Planar, max_running_tasks=3) as task_manager:
    # Enqueue all tasks. A task specifies a frame index to read, along with other options
    # like the resolution to read it at, the crop region, and the output size.
    tasks = [task_manager.enqueue_task(frame_index, resolution_scale=ResolutionScale.Quarter)
             for frame_index in range(frame_count)]

    for task in tasks:
        # Wait for the task to finish, get its result, and mark it as completed so the next
        # queued task can begin.
        image_tensor = task.consume()
        # Output image info.
        shape = tuple(image_tensor.shape)
        pixel_mean = ','.join([f'{x:.4f}' for x in image_tensor.mean([1, 2])])
        print(f'[Frame {task.frame_index:3d}] shape={shape} pixel_mean={pixel_mean}')

Note that PyTorch is not a hard dependency for this project. If you don't import pybraw.torch, you don't need to have PyTorch installed.

Low-level bindings

Low-level bindings are available in the pybraw._pybraw module. These bindings adhere to the original Blackmagic RAW SDK API closely. Please refer to the official developer manual for more details.

You can use the low-level bindings to do things like read video frames into NumPy arrays with fine-grained control over the Blackmagic RAW SDK functionality. You can take a look at examples/extract_frame.py for a basic example showing how to read frames as PIL images, or examples/manual_flow_cpu.py and examples/manual_flow_gpu.py for more complex manual decoder flow examples.

Tests

In order to run the tests you will need to download the sample BRAW file from https://filmplusgear.com/blackmagic-raw-testfile-3 and move it to tests/data/Filmplusgear-skiers-Samnaun-2019-dci-Q5.braw.

Run the tests using PyTest:

pytest tests

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