【问题标题】:IOS Metal Stencil Buffer project crashes when Metal Validation EnabledIOS Metal Stencil Buffer 项目在启用 Metal Validation 时崩溃
【发布时间】:2020-01-09 04:49:43
【问题描述】:

我正在尝试学习如何在 Metal IOS 中实现 Stencil Buffer。现在它可以在没有金属验证的情况下正常工作。但是一旦我打开 Metal Validations,项目就会崩溃。

这是我的代码:- 金属视图:-

import MetalKit

class DrawingView: MTKView {

    //Renderer to handle all the rendering of the Drawing View
    public var renderer: Renderer!

    override init(frame frameRect: CGRect, device: MTLDevice?) {
        super.init(frame: frameRect, device: device)
        self.configDrawingView()
    }

    required init(coder: NSCoder) {
        super.init(coder: coder)
        self.configDrawingView()
    }

    private func configDrawingView() {
        //Setting system default GPU
        self.device = MTLCreateSystemDefaultDevice()
        //Setting pixel format for the view
        self.colorPixelFormat = MTLPixelFormat.bgra8Unorm
        //Setting clear color of the view. View will be cleared in every frame
        self.clearColor = MTLClearColorMake(1.0, 1.0, 1.0, 1.0)
        //Setting sample count of drawing textures
        self.sampleCount = 1
        //Setting prefered frame rate
        self.preferredFramesPerSecond = 120
        //Setting auto resizing of the drawable to false. If the value is true, the currentDrawable object’s texture, depthStencilTexture object, and multisampleColorTexture object automatically resize as the view resizes. If the value is false, drawableSize does not change and neither does the size of these objects.
        self.autoResizeDrawable = false

        //Stencil
        self.clearStencil = 0
        self.depthStencilPixelFormat = MTLPixelFormat.depth32Float_stencil8

        //Setting up Renderer
        self.renderer = Renderer(withDevice: self.device!)
        //Using renderer and the MTKView delegate. This will call draw method every frame
        self.delegate = renderer
    }

}

渲染器:-

import MetalKit

class Renderer: NSObject {

    //Device
    private var device: MTLDevice!

    //CommandQueue
    private var commandQueue: MTLCommandQueue!

    //Mirror Vertex
    private var paintData: [Vertex] = [
        Vertex(position: float4(-0.75, -0.75, 0, 1), color: float4(1.0, 1.0, 0.0, 1.0)),
        Vertex(position: float4(-0.75, 0.75, 0, 1), color: float4(1.0, 1.0, 0.0, 1.0)),
        Vertex(position: float4(0.75, 0.75, 0, 1), color: float4(1.0, 1.0, 0.0, 1.0)),
        Vertex(position: float4(0.75, -0.75, 0, 1), color: float4(1.0, 1.0, 0.0, 1.0))
    ]
    //Mirror Indices
    private var paintIndicies: [UInt32] = [0, 1, 2, 0, 2, 3]
    //Mirror Vertex Buffer
    private var paintVertexBuffer: MTLBuffer!
    //Mirror Index Buffer
    private var paintIndexBuffer: MTLBuffer!

    //Paint Vertex
    private var stencilData: [Vertex] = [
        Vertex(position: float4(-1, 0, 0, 1), color: float4(0.0, 0.0, 1.0, 1.0)),
        Vertex(position: float4(0, 1, 0, 1), color: float4(0.0, 0.0, 1.0, 1.0)),
        Vertex(position: float4(0, -1, 0, 1), color: float4(0.0, 0.0, 1.0, 1.0)),
        Vertex(position: float4(1, 0, 0, 1), color: float4(0.0, 0.0, 1.0, 1.0))
    ]
    //Paint indices
    private var stencilIndices: [UInt32] = [0, 1, 2, 2, 1, 3]
    //Paint Vertex Buffer
    private var stencilVertexBuffer: MTLBuffer!
    //Paint Index Buffer
    private var stencilIndexBuffer: MTLBuffer!

    //Depth Stencil State
    private var depthStencilState: MTLDepthStencilState!
    private var maskStencilState: MTLDepthStencilState!
    private var drawStencilState: MTLDepthStencilState!

    private var library: MTLLibrary!

    private var vertexFunction: MTLFunction!
    private var fragmentFunction: MTLFunction!
    private var stencilFragmentFunction: MTLFunction!

    private var pipelineState: MTLRenderPipelineState!
    private var stencilPipelineState: MTLRenderPipelineState!

    init(withDevice device: MTLDevice) {
        super.init()
        self.device = device
        self.configure()
    }

    private func configure() {
        self.commandQueue = self.device.makeCommandQueue()

        self.setupPipelines()
        self.setupDepthStencil()
        self.setupBuffers()
    }

    private func setupDepthStencil() {
        var depthStencilStateDescriptor: MTLDepthStencilDescriptor = MTLDepthStencilDescriptor()
        depthStencilStateDescriptor.depthCompareFunction = MTLCompareFunction.less
        depthStencilStateDescriptor.isDepthWriteEnabled = true

        self.depthStencilState = self.device.makeDepthStencilState(descriptor: depthStencilStateDescriptor)

        depthStencilStateDescriptor = MTLDepthStencilDescriptor()
        depthStencilStateDescriptor.depthCompareFunction = MTLCompareFunction.less

        var stencilDescriptor: MTLStencilDescriptor = MTLStencilDescriptor()
        stencilDescriptor.stencilCompareFunction = MTLCompareFunction.always
        stencilDescriptor.depthStencilPassOperation = MTLStencilOperation.replace
        depthStencilStateDescriptor.backFaceStencil = stencilDescriptor
        depthStencilStateDescriptor.frontFaceStencil = stencilDescriptor
        depthStencilStateDescriptor.isDepthWriteEnabled = false

        self.drawStencilState = self.device.makeDepthStencilState(descriptor: depthStencilStateDescriptor)

        depthStencilStateDescriptor = MTLDepthStencilDescriptor()
        depthStencilStateDescriptor.depthCompareFunction = MTLCompareFunction.less

        stencilDescriptor = MTLStencilDescriptor()
        stencilDescriptor.stencilCompareFunction = MTLCompareFunction.equal
        depthStencilStateDescriptor.frontFaceStencil = stencilDescriptor
        depthStencilStateDescriptor.backFaceStencil = stencilDescriptor
        depthStencilStateDescriptor.isDepthWriteEnabled = true

        self.maskStencilState = self.device.makeDepthStencilState(descriptor: depthStencilStateDescriptor)

    }

    private func setupPipelines() {
        self.library = self.device.makeDefaultLibrary()

        self.vertexFunction = self.library.makeFunction(name: "vertexShader")
        self.fragmentFunction = self.library.makeFunction(name: "fragmentShader")
        self.stencilFragmentFunction = self.library.makeFunction(name: "stencilFragmentShader")

        var renderPipelineDescriptor: MTLRenderPipelineDescriptor = MTLRenderPipelineDescriptor()
        renderPipelineDescriptor.vertexFunction = self.vertexFunction
        renderPipelineDescriptor.fragmentFunction = self.fragmentFunction
        renderPipelineDescriptor.colorAttachments[0].pixelFormat = MTLPixelFormat.bgra8Unorm
        renderPipelineDescriptor.depthAttachmentPixelFormat = MTLPixelFormat.depth32Float_stencil8
        renderPipelineDescriptor.stencilAttachmentPixelFormat = MTLPixelFormat.depth32Float_stencil8

        do {
            self.pipelineState = try self.device.makeRenderPipelineState(descriptor: renderPipelineDescriptor)
        } catch {
            print("\(error)")
        }

        var renderPipelineDescriptorNoDraw: MTLRenderPipelineDescriptor = MTLRenderPipelineDescriptor()
        renderPipelineDescriptorNoDraw.vertexFunction = self.vertexFunction
        renderPipelineDescriptorNoDraw.fragmentFunction = self.stencilFragmentFunction
        renderPipelineDescriptorNoDraw.depthAttachmentPixelFormat = MTLPixelFormat.depth32Float_stencil8
        renderPipelineDescriptorNoDraw.stencilAttachmentPixelFormat = MTLPixelFormat.depth32Float_stencil8
        renderPipelineDescriptorNoDraw.colorAttachments[0].pixelFormat = MTLPixelFormat.bgra8Unorm //Problem Here ---- (1)
        renderPipelineDescriptorNoDraw.colorAttachments[0].writeMask = []

        do {
            self.stencilPipelineState = try self.device.makeRenderPipelineState(descriptor: renderPipelineDescriptorNoDraw)
        } catch {
            print("\(error)")
        }
    }

    private func setupBuffers() {
        self.stencilVertexBuffer = self.device.makeBuffer(bytes: self.stencilData, length: MemoryLayout<Vertex>.stride * self.stencilData.count, options: [])
        self.stencilIndexBuffer = self.device.makeBuffer(bytes: self.stencilIndices, length: MemoryLayout<UInt32>.size * self.stencilIndices.count, options: [])

        self.paintVertexBuffer = self.device.makeBuffer(bytes: self.paintData, length: MemoryLayout<Vertex>.stride * self.paintData.count, options: [])
        self.paintIndexBuffer = self.device.makeBuffer(bytes: self.paintIndicies, length: MemoryLayout<UInt32>.size * self.paintIndicies.count, options: [])
    }

}

extension Renderer: MTKViewDelegate {
    func mtkView(_ view: MTKView, drawableSizeWillChange size: CGSize) {

    }

    func draw(in view: MTKView) {
        let buffer: MTLCommandBuffer = self.commandQueue.makeCommandBuffer()!


        let renderPassDescriptor = view.currentRenderPassDescriptor
        renderPassDescriptor!.colorAttachments[0].clearColor = MTLClearColorMake(1.0, 1.0, 1.0, 1.0)
        let encoderClear = buffer.makeRenderCommandEncoder(descriptor: renderPassDescriptor!)
        encoderClear!.endEncoding()

        let renderPassDescriptorOther = MTLRenderPassDescriptor()
        renderPassDescriptorOther.colorAttachments[0].loadAction = MTLLoadAction.load
        renderPassDescriptorOther.colorAttachments[0].storeAction = MTLStoreAction.store
        renderPassDescriptorOther.colorAttachments[0].texture = view.currentDrawable?.texture
        let commandEncoderOther = buffer.makeRenderCommandEncoder(descriptor: renderPassDescriptorOther)
        Plane(withDevice: self.device, sizeOf: float2(100, 100), andPlaneCenterTo: float2(100, 100), withColor: float4(1.0, 0.0, 0.0, 1.0)).render(commandEncoder: commandEncoderOther!)
        commandEncoderOther?.endEncoding()

        let renderPassDescriptorOther1 = MTLRenderPassDescriptor()
        renderPassDescriptorOther1.colorAttachments[0].loadAction = MTLLoadAction.load
        renderPassDescriptorOther1.colorAttachments[0].storeAction = MTLStoreAction.store
        renderPassDescriptorOther1.colorAttachments[0].texture = view.currentDrawable?.texture
        let encoder: MTLRenderCommandEncoder = buffer.makeRenderCommandEncoder(descriptor: renderPassDescriptorOther1)!

        //Stencil
        encoder.setRenderPipelineState(self.stencilPipelineState)
        encoder.setStencilReferenceValue(1)
        encoder.setDepthStencilState(self.drawStencilState)
        encoder.setVertexBuffer(self.stencilVertexBuffer, offset: 0, index: 0)
        encoder.drawIndexedPrimitives(type: MTLPrimitiveType.triangle, indexCount: self.stencilIndices.count, indexType: MTLIndexType.uint32, indexBuffer: self.stencilIndexBuffer, indexBufferOffset: 0)

        //Paint
        encoder.setRenderPipelineState(self.pipelineState)
        encoder.setDepthStencilState(self.maskStencilState)
        encoder.setVertexBuffer(self.paintVertexBuffer, offset: 0, index: 0)
        encoder.drawIndexedPrimitives(type: MTLPrimitiveType.triangle, indexCount: self.paintIndicies.count, indexType: MTLIndexType.uint32, indexBuffer: self.paintIndexBuffer, indexBufferOffset: 0)
        encoder.endEncoding()

        buffer.present(view.currentDrawable!)
        buffer.commit()
    }
}

这是我的着色器文件:-

#include <metal_stdlib>
using namespace metal;

struct Vertex {
    float4 position [[position]];
    float4 color;
};  

vertex Vertex vertexShader(const device Vertex *vertexArray [[buffer(0)]], unsigned int vid [[vertex_id]]) {
    return vertexArray[vid];
}

fragment float4 fragmentShader(Vertex interpolated [[stage_in]]) {
    return interpolated.color;
}

fragment float4 fragmentShader_stencil(Vertex v [[stage_in]])
{
    return float4(1, 1, 1, 0.0);
}

当我打开金属验证时,它给了我这个错误:-

[MTLDebugRenderCommandEncoder validateFramebufferWithRenderPipelineState:]:1236:
failed assertion `For depth attachment, the renderPipelineState pixelFormat 
must be MTLPixelFormatInvalid, as no texture is set.'

然后我将渲染器中的 (1) 像素格式更改为 MTLPixelFormat.inavlid 它给了我另一个错误:-

[MTLDebugRenderCommandEncoder validateFramebufferWithRenderPipelineState:]:1196: 
failed assertion `For color attachment 0, the render pipeline's pixelFormat 
(MTLPixelFormatInvalid) does not match the framebuffer's pixelFormat 
(MTLPixelFormatBGRA8Unorm).'

有没有办法解决这个问题。我希望启用金属验证。禁用验证后,它可以正常工作。

【问题讨论】:

    标签: ios metal stencil-buffer


    【解决方案1】:

    由于您是手动创建渲染通道描述符,因此您需要确保配置所有相关附件的纹理和加载/存储操作。

    您已向您的MTKView 指定它应该为您管理深度/模板纹理,并将您的渲染管线状态配置为期望深度/模板纹理,因此您需要在创建渲染时提供这样的纹理传递描述符:

    renderPassDescriptorOther1.depthAttachment.loadAction = .clear
    renderPassDescriptorOther1.depthAttachment.storeAction = .dontCare
    renderPassDescriptorOther1.depthAttachment.texture = view.depthStencilTexture
    
    renderPassDescriptorOther1.stencilAttachment.loadAction = .clear
    renderPassDescriptorOther1.stencilAttachment.storeAction = .dontCare
    renderPassDescriptorOther1.stencilAttachment.texture = view.depthStencilTexture
    

    顺便说一句,我看不出在绘制之前运行单独的“清除”通道的原因。看来您可以将renderPassDescriptorOther的颜色附件的loadAction设置为.clear

    【讨论】:

    • 它就像一个魅力。谢谢!。我现在只是在试验。这就是为什么我使用渲染通道只是为了清除。
    • 谢谢沃伦!你总是拯救我的一天
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