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🎛️ MixKit

MixKit is a realtime video compositing framework built on Metal, that formed the core of a live video mixing app I was writing for the Mac.

Demo

Below is a demo of building a simple presentation scene in MixKit, from two live Syphon sources and a static image:

mixkit-demo.mp4

Overview

Texture Providers

Video frames are provided to MixKit by texture providers. Texture providers conform to a simple API:

@objc public protocol TextureProvider {
    /// Get the next frame as a Metal texture
    func nextFrame() -> MTLTexture?

    /// Start providing textures (optional)
    func start()

    /// Stop providing textures (optional)
    func stop()
}

MixKit was designed to be dynamically extensible by plugins that provide implementations of the TextureProvider protocol. An example texture provider library for Syphon, the excellent IOSurface-backed technology for sharing frames between macOS video apps, is included with the demo app.

Layers

The fundamental unit for MixKit renders is a layer. Layers have a frame (normalised between -1 and 1 relative to a parent’s coordinate space), a texture provider, and an associated GPU device:

public class Layer: Renderable {
    public var frame: NormalisedFrame

    public init(
        name: String,
        textureProvider: TextureProvider,
        device: MTLDevice
    )
}

Scenes

Multiple layers can be composed into a scene. Layers are composited in the order they appear in the scene’s layers array.

public class Scene: Renderable {
    public var layers: [Layer]
}

Rendering

MixKit provides a TextureViewRenderer class, which handles all rendering of a Scene to a MetalKit MTKView. For example, intialising a simple render output looks like:

let scene = Scene()
scene.addLayer()

let outputView = MTKView(
    frame: self.view.bounds,
    device: MTLCreateSystemDefaultDevice()
)

let renderer = TextureViewRenderer(view: outputView)
renderer.scene = scene

Internal rendering behaviour is easy to change or extend. MixKit types implement the basic Renderable protocol, which defines an object that can encode render commands to a Metal command bufer:

protocol Renderable {
    /// Encode commands necessary to render the `Renderable`
    func render(commandEncoder: MTLRenderCommandEncoder)
}

Disclaimer of Quality

I wrote MixKit as a 16-year-old uni student that hadn't yet learnt graphics programming for realsies, and as such there are some naïve mistakes in it 😛. That said, it performs well and I think the fundamental design holds up alright. Hopefully it can be a helpful jumping off point if you’re exploring the problem space.

License

MixKit is available under the Apache 2.0 License. The demo app uses a control licensed under the GPLv3, and therefore its code is also available under the GPLv3.