A VisionCamera Frame Processor Plugin for fast and efficient Frame resizing, cropping and pixel-format conversion (YUV -> RGB) using GPU-acceleration, CPU-vector based operations and ARM NEON SIMD acceleration.
yarn add vision-camera-resize-plugin
cd ios && pod install
Use the resize
plugin within a Frame Processor:
const { resize } = useResizePlugin()
const frameProcessor = useFrameProcessor((frame) => {
'worklet'
const resized = resize(frame, {
scale: {
width: 192,
height: 192
},
pixelFormat: 'rgb',
dataType: 'uint8'
})
const firstPixel = {
r: resized[0],
g: resized[1],
b: resized[2]
}
}, [])
Or outside of a function component:
const { resize } = createResizePlugin()
const frameProcessor = createFrameProcessor((frame) => {
'worklet'
const resized = resize(frame, {
// ...
})
// ...
})
The resize plugin operates in RGB colorspace.
Name | 0 |
1 |
2 |
3 |
---|---|---|---|---|
rgb |
R | G | B | R |
rgba |
R | G | B | A |
argb |
A | R | G | B |
bgra |
B | G | R | A |
bgr |
B | G | R | B |
abgr |
A | B | G | R |
The resize plugin can either convert to uint8 or float32 values:
Name | JS Type | Value Range | Example size |
---|---|---|---|
uint8 |
Uint8Array |
0...255 | 1920x1080 RGB Frame = ~6.2 MB |
float32 |
Float32Array |
0.0...1.0 | 1920x1080 RGB Frame = ~24.8 MB |
When scaling to a different size (e.g. 1920x1080 -> 100x100), the Resize Plugin performs a center-crop on the image before scaling it down so the resulting image matches the target aspect ratio instead of being stretched.
You can customize this by passing a custom crop
parameter, e.g. instead of center-crop, use the top portion of the screen:
const resized = resize(frame, {
scale: {
width: 192,
height: 192
},
crop: {
y: 0,
x: 0,
// 1:1 aspect ratio because we scale to 192x192
width: frame.width,
height: frame.width
},
pixelFormat: 'rgb',
dataType: 'uint8'
})
If possible, use one of these two formats:
argb
in uint8
: Can be converted the fastest, but has an additional unused alpha channel.rgb
in uint8
: Requires one more conversion step from argb
, but uses 25% less memory due to the removed alpha channel.All other formats require additional conversion steps, and float
models have additional memory overhead (4x as big).
When using TensorFlow Lite, try to convert your model to use argb-uint8
or rgb-uint8
as it's input type.
The vision-camera-resize-plugin can be used together with react-native-fast-tflite to prepare the input tensor data.
For example, to use the efficientdet TFLite model to detect objects inside a Frame, simply add the model to your app's bundle, set up VisionCamera and react-native-fast-tflite, and resize your Frames accordingly.
From the model's description on the website, we understand that the model expects 320 x 320 x 3 buffers as input, where the format is uint8 rgb.
const objectDetection = useTensorflowModel(require('assets/efficientdet.tflite'))
const model = objectDetection.state === "loaded" ? objectDetection.model : undefined
const { resize } = useResizePlugin()
const frameProcessor = useFrameProcessor((frame) => {
'worklet'
const data = resize(frame, {
scale: {
width: 320,
height: 320,
},
pixelFormat: 'rgb',
dataType: 'uint8'
})
const output = model.runSync([data])
const numDetections = output[0]
console.log(`Detected ${numDetections} objects!`)
}, [model])
I benchmarked vision-camera-resize-plugin on an iPhone 15 Pro, using the following code:
const start = performance.now()
const result = resize(frame, {
scale: {
width: 100,
height: 100,
},
pixelFormat: 'rgb',
dataType: 'uint8'
})
const end = performance.now()
const diff = (end - start).toFixed(2)
console.log(`Resize and conversion took ${diff}ms!`)
And when running on 1080x1920 yuv Frames, I got the following results:
LOG Resize and conversion took 6.48ms
LOG Resize and conversion took 6.06ms
LOG Resize and conversion took 5.89ms
LOG Resize and conversion took 5.97ms
LOG Resize and conversion took 6.98ms
This means the Frame Processor can run at up to ~160 FPS.
This library is provided as is, I work on it in my free time.
If you're integrating vision-camera-resize-plugin in a production app, consider funding this project and contact me to receive premium enterprise support, help with issues, prioritize bugfixes, request features, help at integrating vision-camera-resize-plugin and/or VisionCamera Frame Processors, and more.
See the contributing guide to learn how to contribute to the repository and the development workflow.
MIT
Made with create-react-native-library