Badminton-Scoreboard/Classes/Unity/MetalHelper.mm

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2023-10-08 02:24:48 +00:00
#include "UnityTrampolineCompatibility.h"
#include "UnityRendering.h"
#if UNITY_CAN_USE_METAL
#include "UnityMetalSupport.h"
#include <QuartzCore/QuartzCore.h>
#include <libkern/OSAtomic.h>
#if UNITY_TRAMPOLINE_IN_USE
#include "UnityAppController.h"
#include "CVTextureCache.h"
#endif
#include "ObjCRuntime.h"
#if UNITY_TRAMPOLINE_IN_USE
static Class MTLTextureDescriptorClass;
#else
extern Class MTLTextureDescriptorClass;
#endif
extern "C" void InitRenderingMTL()
{
#if UNITY_TRAMPOLINE_IN_USE
MTLTextureDescriptorClass = NSClassFromString(@"MTLTextureDescriptor");
#endif
}
static MTLPixelFormat GetColorFormatForSurface(const UnityDisplaySurfaceMTL* surface)
{
MTLPixelFormat colorFormat = surface->srgb ? MTLPixelFormatBGRA8Unorm_sRGB : MTLPixelFormatBGRA8Unorm;
#if PLATFORM_IOS || PLATFORM_TVOS
if (surface->wideColor && UnityIsWideColorSupported())
colorFormat = surface->srgb ? MTLPixelFormatBGR10_XR_sRGB : MTLPixelFormatBGR10_XR;
#elif PLATFORM_OSX
if (surface->hdr)
{
if (@available(macOS 10.15, *))
{
colorFormat = UnityHDRSurfaceDepth() == 0 ? MTLPixelFormatBGR10A2Unorm : MTLPixelFormatRGBA16Float;
}
}
else if (surface->wideColor)
colorFormat = MTLPixelFormatRGBA16Float;
#endif
return colorFormat;
}
static uint32_t GetCVPixelFormatForSurface(const UnityDisplaySurfaceMTL* surface)
{
// this makes sense only for ios (at least we dont support this on macos)
uint32_t colorFormat = kCVPixelFormatType_32BGRA;
#if PLATFORM_IOS || PLATFORM_TVOS
if (surface->wideColor && UnityIsWideColorSupported())
colorFormat = kCVPixelFormatType_30RGB;
#endif
return colorFormat;
}
extern "C" void CreateSystemRenderingSurfaceMTL(UnityDisplaySurfaceMTL* surface)
{
DestroySystemRenderingSurfaceMTL(surface);
MTLPixelFormat colorFormat = GetColorFormatForSurface(surface);
surface->layer.presentsWithTransaction = NO;
surface->layer.drawsAsynchronously = YES;
#if !PLATFORM_OSX
if (UnityPreserveFramebufferAlpha())
{
const CGFloat components[] = {1.0f, 1.0f, 1.0f, 0.0f};
CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB();
CGColorRef color = CGColorCreate(colorSpace, components);
surface->layer.opaque = NO;
surface->layer.backgroundColor = color;
CGColorRelease(color);
CGColorSpaceRelease(colorSpace);
}
#endif
#if PLATFORM_OSX
surface->layer.opaque = YES;
MetalUpdateDisplaySync();
#endif
#if PLATFORM_OSX
CGColorSpaceRef colorSpaceRef = nil;
if (surface->hdr)
colorSpaceRef = UnityHDRSurfaceDepth() == 0 ? CGColorSpaceCreateWithName(CFSTR("kCGColorSpaceITUR_2020_PQ_EOTF")) : CGColorSpaceCreateWithName(CFSTR("kCGColorSpaceITUR_709"));
else if (surface->wideColor)
colorSpaceRef = CGColorSpaceCreateWithName(surface->srgb ? kCGColorSpaceExtendedLinearSRGB : kCGColorSpaceExtendedSRGB);
else
colorSpaceRef = CGColorSpaceCreateWithName(kCGColorSpaceSRGB);
surface->layer.colorspace = colorSpaceRef;
CGColorSpaceRelease(colorSpaceRef);
#endif
// Update the native screen resolution
UnityUpdateDrawableSize(surface);
surface->layer.device = surface->device;
surface->layer.pixelFormat = colorFormat;
surface->layer.framebufferOnly = (surface->framebufferOnly != 0);
surface->colorFormat = (unsigned)colorFormat;
MTLTextureDescriptor* txDesc = [MTLTextureDescriptorClass texture2DDescriptorWithPixelFormat: colorFormat width: surface->systemW height: surface->systemH mipmapped: NO];
#if PLATFORM_OSX
txDesc.resourceOptions = MTLResourceCPUCacheModeDefaultCache | MTLResourceStorageModeManaged;
#endif
txDesc.usage = MTLTextureUsageRenderTarget | MTLTextureUsageShaderRead;
@synchronized(surface->layer)
{
#if PLATFORM_OSX
surface->proxySwaps = 0;
#endif
for (int i = 0; i < kUnityNumOffscreenSurfaces; i++)
{
// Allocating a proxy texture is cheap until it's being rendered to and the GPU driver does allocation
surface->drawableProxyRT[i] = [surface->device newTextureWithDescriptor: txDesc];
surface->drawableProxyRT[i].label = @"DrawableProxy";
#if PLATFORM_IOS || PLATFORM_TVOS
[surface->drawableProxyRT[i] setPurgeableState: MTLPurgeableStateEmpty];
#endif
// Mark each drawableProxy surface as needing a clear load action when next rendered to as its contents are undefined.
surface->drawableProxyNeedsClear[i] = true;
}
}
}
extern "C" void CreateRenderingSurfaceMTL(UnityDisplaySurfaceMTL* surface)
{
DestroyRenderingSurfaceMTL(surface);
MTLPixelFormat colorFormat = GetColorFormatForSurface(surface);
const int w = surface->targetW, h = surface->targetH;
if (w != surface->systemW || h != surface->systemH || surface->useCVTextureCache)
{
#if PLATFORM_IOS || PLATFORM_TVOS
if (surface->useCVTextureCache)
surface->cvTextureCache = CreateCVTextureCache();
if (surface->cvTextureCache)
{
surface->cvTextureCacheTexture = CreateReadableRTFromCVTextureCache2(surface->cvTextureCache, surface->targetW, surface->targetH,
GetCVPixelFormatForSurface(surface), colorFormat, &surface->cvPixelBuffer);
surface->targetColorRT = GetMetalTextureFromCVTextureCache(surface->cvTextureCacheTexture);
}
else
#endif
{
MTLTextureDescriptor* txDesc = [MTLTextureDescriptorClass new];
txDesc.textureType = MTLTextureType2D;
txDesc.width = w;
txDesc.height = h;
txDesc.depth = 1;
txDesc.pixelFormat = colorFormat;
txDesc.arrayLength = 1;
txDesc.mipmapLevelCount = 1;
#if PLATFORM_OSX
txDesc.resourceOptions = MTLResourceStorageModeManaged;
#endif
txDesc.usage = MTLTextureUsageRenderTarget | MTLTextureUsageShaderRead;
surface->targetColorRT = [surface->device newTextureWithDescriptor: txDesc];
}
surface->targetColorRT.label = @"targetColorRT";
}
if (surface->msaaSamples > 1)
{
MTLTextureDescriptor* txDesc = [MTLTextureDescriptorClass new];
txDesc.textureType = MTLTextureType2DMultisample;
txDesc.width = w;
txDesc.height = h;
txDesc.depth = 1;
txDesc.pixelFormat = colorFormat;
txDesc.arrayLength = 1;
txDesc.mipmapLevelCount = 1;
txDesc.sampleCount = surface->msaaSamples;
txDesc.resourceOptions = MTLResourceStorageModePrivate;
txDesc.usage = MTLTextureUsageRenderTarget | MTLTextureUsageShaderRead;
if (![surface->device supportsTextureSampleCount: txDesc.sampleCount])
txDesc.sampleCount = 4;
surface->targetAAColorRT = [surface->device newTextureWithDescriptor: txDesc];
surface->targetAAColorRT.label = @"targetAAColorRT";
}
}
extern "C" void DestroyRenderingSurfaceMTL(UnityDisplaySurfaceMTL* surface)
{
surface->targetColorRT = nil;
surface->targetAAColorRT = nil;
if (surface->cvTextureCacheTexture)
CFRelease(surface->cvTextureCacheTexture);
if (surface->cvPixelBuffer)
CFRelease(surface->cvPixelBuffer);
if (surface->cvTextureCache)
CFRelease(surface->cvTextureCache);
surface->cvTextureCache = 0;
}
extern "C" void CreateSharedDepthbufferMTL(UnityDisplaySurfaceMTL* surface)
{
DestroySharedDepthbufferMTL(surface);
if (surface->disableDepthAndStencil)
return;
MTLPixelFormat pixelFormat = MTLPixelFormatDepth32Float_Stencil8;
MTLTextureDescriptor* depthTexDesc = [MTLTextureDescriptorClass texture2DDescriptorWithPixelFormat: pixelFormat width: surface->targetW height: surface->targetH mipmapped: NO];
depthTexDesc.resourceOptions = MTLResourceStorageModePrivate;
#if PLATFORM_IOS || PLATFORM_TVOS
if (surface->memorylessDepth)
depthTexDesc.storageMode = MTLStorageModeMemoryless;
#endif
depthTexDesc.usage = MTLTextureUsageRenderTarget | MTLTextureUsageShaderRead;
if (surface->msaaSamples > 1)
{
depthTexDesc.textureType = MTLTextureType2DMultisample;
depthTexDesc.sampleCount = surface->msaaSamples;
if (![surface->device supportsTextureSampleCount: depthTexDesc.sampleCount])
depthTexDesc.sampleCount = 4;
}
surface->depthRB = [surface->device newTextureWithDescriptor: depthTexDesc];
surface->stencilRB = surface->depthRB;
}
extern "C" void DestroySharedDepthbufferMTL(UnityDisplaySurfaceMTL* surface)
{
surface->depthRB = nil;
surface->stencilRB = nil;
}
extern "C" void CreateUnityRenderBuffersMTL(UnityDisplaySurfaceMTL* surface)
{
UnityRenderBufferDesc sys_desc = { surface->systemW, surface->systemH, 1, 1, 1 };
UnityRenderBufferDesc tgt_desc = { surface->targetW, surface->targetH, 1, (unsigned int)surface->msaaSamples, 1 };
// To avoid race condition with EndFrameRenderingMTL where systemColorRB is nulled we store it here
MTLTextureRef systemColorRB = surface->drawableProxyRT[0];
surface->systemColorRB = systemColorRB;
// we could unify all of it with ugly chain of ternary operators but what if karma exists?
if (surface->targetColorRT)
{
// render to interim RT: we do NOT need to request drawable
MTLTextureRef texRender = surface->targetAAColorRT ? surface->targetAAColorRT : surface->targetColorRT;
MTLTextureRef texResolve = surface->targetAAColorRT ? surface->targetColorRT : nil;
surface->unityColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->unityColorBuffer, texRender, texResolve, &tgt_desc, nil);
}
else
{
// render to backbuffer directly: we will request drawable hence we need to pass surface
MTLTextureRef texRender = surface->targetAAColorRT ? surface->targetAAColorRT : systemColorRB;
MTLTextureRef texResolve = surface->targetAAColorRT ? systemColorRB : nil;
surface->unityColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->unityColorBuffer, texRender, texResolve, &tgt_desc, surface);
}
if (surface->depthRB)
surface->unityDepthBuffer = UnityCreateExternalDepthSurfaceMTL(surface->unityDepthBuffer, surface->depthRB, surface->stencilRB, &tgt_desc);
else
surface->unityDepthBuffer = UnityCreateDummySurface(surface->unityDepthBuffer, false, &tgt_desc);
surface->systemColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->systemColorBuffer, systemColorRB, nil, &sys_desc, surface);
surface->systemDepthBuffer = UnityCreateDummySurface(surface->systemDepthBuffer, false, &sys_desc);
}
extern "C" void DestroySystemRenderingSurfaceMTL(UnityDisplaySurfaceMTL* surface)
{
// before we needed to nil surface->systemColorRB (to release drawable we get from the view)
// but after we switched to proxy rt this is no longer needed
// even more it is harmful when running rendering on another thread (as is default now)
// as on render thread we do StartFrameRenderingMTL/AcquireDrawableMTL/EndFrameRenderingMTL
// and DestroySystemRenderingSurfaceMTL comes on main thread so we might end up with race condition for no reason
}
extern "C" void DestroyUnityRenderBuffersMTL(UnityDisplaySurfaceMTL* surface)
{
UnityDestroyExternalSurface(surface->unityColorBuffer);
UnityDestroyExternalSurface(surface->systemColorBuffer);
surface->unityColorBuffer = surface->systemColorBuffer = 0;
UnityDestroyExternalSurface(surface->unityDepthBuffer);
UnityDestroyExternalSurface(surface->systemDepthBuffer);
surface->unityDepthBuffer = surface->systemDepthBuffer = 0;
}
extern "C" void PreparePresentMTL(UnityDisplaySurfaceMTL* surface)
{
if (surface->targetColorRT)
UnityBlitToBackbuffer(surface->unityColorBuffer, surface->systemColorBuffer, surface->systemDepthBuffer);
#if UNITY_TRAMPOLINE_IN_USE
APP_CONTROLLER_RENDER_PLUGIN_METHOD(onFrameResolved);
#endif
}
extern "C" void PresentMTL(UnityDisplaySurfaceMTL* surface)
{
if (surface->drawable)
{
// for some reason presentDrawable: afterMinimumDuration: is missing from simulator headers completely in xcode 12
#if (PLATFORM_IOS || PLATFORM_TVOS) && !(TARGET_IPHONE_SIMULATOR || TARGET_TVOS_SIMULATOR)
const int targetFPS = UnityGetTargetFPS(); assert(targetFPS > 0);
[UnityCurrentMTLCommandBuffer() presentDrawable: surface->drawable afterMinimumDuration: 1.0 / targetFPS];
return;
#endif
// note that we end up here if presentDrawable: afterMinimumDuration: is not supported
[UnityCurrentMTLCommandBuffer() presentDrawable: surface->drawable];
}
}
extern "C" MTLTextureRef AcquireDrawableMTL(UnityDisplaySurfaceMTL* surface)
{
if (!surface)
return nil;
if (!surface->drawable)
surface->drawable = [surface->layer nextDrawable];
// on A7 SoC nextDrawable may be nil before locking the screen
if (!surface->drawable)
return nil;
surface->systemColorRB = [surface->drawable texture];
return surface->systemColorRB;
}
extern "C" int UnityCommandQueueMaxCommandBufferCountMTL()
{
// customizable argument to pass towards [MTLDevice newCommandQueueWithMaxCommandBufferCount:],
// the default value is 64 but with Parallel Render Encoder workloads, it might need to be increased
return 256;
}
extern "C" void StartFrameRenderingMTL(UnityDisplaySurfaceMTL* surface)
{
// we will acquire drawable lazily in AcquireDrawableMTL
surface->drawable = nil;
surface->systemColorRB = surface->drawableProxyRT[0];
UnityRenderBufferDesc sys_desc = { surface->systemW, surface->systemH, 1, 1, 1};
UnityRenderBufferDesc tgt_desc = { surface->targetW, surface->targetH, 1, (unsigned int)surface->msaaSamples, 1};
surface->systemColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->systemColorBuffer, surface->systemColorRB, nil, &sys_desc, surface);
if (surface->targetColorRT == nil)
{
if (surface->targetAAColorRT)
surface->unityColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->unityColorBuffer, surface->targetAAColorRT, surface->systemColorRB, &tgt_desc, surface);
else
surface->unityColorBuffer = UnityCreateExternalColorSurfaceMTL(surface->unityColorBuffer, surface->systemColorRB, nil, &tgt_desc, surface);
}
}
extern "C" void EndFrameRenderingMTL(UnityDisplaySurfaceMTL* surface)
{
@autoreleasepool
{
if (surface->presentCB)
{
[surface->presentCB enqueue]; [surface->presentCB commit];
surface->presentCB = nil;
}
surface->systemColorRB = surface->drawableProxyRT[0];
surface->drawable = nil;
}
#if PLATFORM_OSX
@synchronized(surface->layer)
{
// Swap proxy buffers
MTLTextureRef texture0 = surface->drawableProxyRT[0];
MTLTextureRef texture1 = surface->drawableProxyRT[1];
surface->drawableProxyRT[0] = texture1;
surface->drawableProxyRT[1] = texture0;
surface->proxySwaps++;
surface->proxyReady = 1;
// Swap the needs clear state of the swapped proxy buffers, to ensure that each surface
// will get cleared at least once when the proxy buffer surfaces are recreated.
std::swap(surface->drawableProxyNeedsClear[0],
surface->drawableProxyNeedsClear[1]);
}
#endif
}
extern "C" void PreparePresentNonMainScreenMTL(UnityDisplaySurfaceMTL* surface)
{
if (surface->drawable)
{
// presentCB logic should be removed when we update the minimum version to iOS 12.0
// as the "one presentDrawable per command buffer" behaviour apparently was fixed
if (@available(iOS 12.0, *))
{
[UnityCurrentMTLCommandBuffer() presentDrawable: surface->drawable];
}
else
{
surface->presentCB = [surface->drawableCommandQueue commandBuffer];
[surface->presentCB presentDrawable: surface->drawable];
}
}
}
extern "C" void SetDrawableSizeMTL(UnityDisplaySurfaceMTL* surface, int width, int height)
{
surface->layer.drawableSize = CGSizeMake(width, height);
}
#else
extern "C" void InitRenderingMTL() {}
extern "C" void CreateSystemRenderingSurfaceMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void CreateRenderingSurfaceMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void DestroyRenderingSurfaceMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void CreateSharedDepthbufferMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void DestroySharedDepthbufferMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void CreateUnityRenderBuffersMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void DestroySystemRenderingSurfaceMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void DestroyUnityRenderBuffersMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void StartFrameRenderingMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void EndFrameRenderingMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void PreparePresentMTL(UnityDisplaySurfaceMTL*) {}
extern "C" void PresentMTL(UnityDisplaySurfaceMTL*) {}
extern "C" int UnityCommandQueueMaxCommandBufferCountMTL() { return 0; }
extern "C" void SetDrawableSizeMTL(UnityDisplaySurfaceMTL*, int, int) {}
extern "C" MTLTextureRef AcquireDrawableMTL(UnityDisplaySurfaceMTL*) { return nil; }
#endif