boo/lib/graphicsdev/Metal.mm

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#include "../mac/CocoaCommon.hpp"
#if BOO_HAS_METAL
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#include "logvisor/logvisor.hpp"
#include "boo/IApplication.hpp"
#include "boo/graphicsdev/Metal.hpp"
#include "boo/IGraphicsContext.hpp"
#include "Common.hpp"
#include <vector>
#include <unordered_map>
#include <unordered_set>
#include "xxhash.h"
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#if !__has_feature(objc_arc)
#error ARC Required
#endif
#define MAX_UNIFORM_COUNT 8
#define MAX_TEXTURE_COUNT 8
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static const char* GammaVS =
"#include <metal_stdlib>\n"
"using namespace metal;\n"
"struct VertData\n"
"{\n"
" float4 posIn [[ attribute(0) ]];\n"
" float4 uvIn [[ attribute(1) ]];\n"
"};\n"
"\n"
"struct VertToFrag\n"
"{\n"
" float4 pos [[ position ]];\n"
" float2 uv;\n"
"};\n"
"\n"
"vertex VertToFrag vmain(VertData v [[ stage_in ]])\n"
"{\n"
" VertToFrag vtf;\n"
" vtf.uv = v.uvIn.xy;\n"
" vtf.pos = v.posIn;\n"
" return vtf;\n"
"}\n";
static const char* GammaFS =
"#include <metal_stdlib>\n"
"using namespace metal;\n"
"struct VertToFrag\n"
"{\n"
" float4 pos [[ position ]];\n"
" float2 uv;\n"
"};\n"
"\n"
"fragment float4 fmain(VertToFrag vtf [[ stage_in ]],\n"
" sampler clampSamp [[ sampler(2) ]],\n"
" texture2d<float> screenTex [[ texture(0) ]],\n"
" texture2d<float> gammaLUT [[ texture(1) ]])\n"
"{\n"
" uint4 tex = uint4(saturate(screenTex.sample(clampSamp, vtf.uv)) * float4(65535.0));\n"
" float4 colorOut;\n"
" for (int i=0 ; i<3 ; ++i)\n"
" colorOut[i] = gammaLUT.read(uint2(tex[i] % 256, tex[i] / 256)).r;\n"
" return colorOut;\n"
"}\n";
namespace boo
{
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static logvisor::Module Log("boo::Metal");
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struct MetalCommandQueue;
class MetalDataFactoryImpl;
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struct MetalShareableShader : IShareableShader<MetalDataFactoryImpl, MetalShareableShader>
{
id<MTLFunction> m_shader;
MetalShareableShader(MetalDataFactoryImpl& fac, uint64_t srcKey, uint64_t binKey, id<MTLFunction> s)
: IShareableShader(fac, srcKey, binKey), m_shader(s) {}
};
class MetalDataFactoryImpl : public MetalDataFactory, public GraphicsDataFactoryHead
{
friend struct MetalCommandQueue;
friend class MetalDataFactory::Context;
IGraphicsContext* m_parent;
std::unordered_map<uint64_t, std::unique_ptr<MetalShareableShader>> m_sharedShaders;
struct MetalContext* m_ctx;
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float m_gamma = 1.f;
ObjToken<IShaderPipeline> m_gammaShader;
ObjToken<ITextureD> m_gammaLUT;
ObjToken<IGraphicsBufferS> m_gammaVBO;
ObjToken<IVertexFormat> m_gammaVFMT;
ObjToken<IShaderDataBinding> m_gammaBinding;
void SetupGammaResources()
{
commitTransaction([this](IGraphicsDataFactory::Context& ctx)
{
const VertexElementDescriptor vfmt[] = {
{nullptr, nullptr, VertexSemantic::Position4},
{nullptr, nullptr, VertexSemantic::UV4}
};
m_gammaVFMT = ctx.newVertexFormat(2, vfmt);
m_gammaShader = static_cast<Context&>(ctx).newShaderPipeline(GammaVS, GammaFS,
nullptr, nullptr, m_gammaVFMT, BlendFactor::One, BlendFactor::Zero,
Primitive::TriStrips, ZTest::None, false, true, false, CullMode::None, true, false);
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m_gammaLUT = ctx.newDynamicTexture(256, 256, TextureFormat::I16, TextureClampMode::ClampToEdge);
setDisplayGamma(1.f);
const struct Vert {
float pos[4];
float uv[4];
} verts[4] = {
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{{-1.f, 1.f, 0.f, 1.f}, {0.f, 0.f, 0.f, 0.f}},
{{ 1.f, 1.f, 0.f, 1.f}, {1.f, 0.f, 0.f, 0.f}},
{{-1.f, -1.f, 0.f, 1.f}, {0.f, 1.f, 0.f, 0.f}},
{{ 1.f, -1.f, 0.f, 1.f}, {1.f, 1.f, 0.f, 0.f}}
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};
m_gammaVBO = ctx.newStaticBuffer(BufferUse::Vertex, verts, 32, 4);
ObjToken<ITexture> texs[] = {{}, m_gammaLUT.get()};
m_gammaBinding = ctx.newShaderDataBinding(m_gammaShader, m_gammaVFMT, m_gammaVBO.get(), {}, {},
0, nullptr, nullptr, 2, texs, nullptr, nullptr);
return true;
});
}
public:
std::unordered_map<uint64_t, uint64_t> m_sourceToBinary;
char m_libfile[MAXPATHLEN];
bool m_hasCompiler = false;
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MetalDataFactoryImpl(IGraphicsContext* parent, MetalContext* ctx)
: m_parent(parent), m_ctx(ctx)
{
snprintf(m_libfile, MAXPATHLEN, "%sboo_metal_shader.metallib", getenv("TMPDIR"));
for (auto& arg : APP->getArgs())
if (arg == "--metal-compile")
{
m_hasCompiler = CheckForMetalCompiler();
break;
}
}
~MetalDataFactoryImpl() = default;
Platform platform() const { return Platform::Metal; }
const char* platformName() const { return "Metal"; }
void commitTransaction(const std::function<bool(IGraphicsDataFactory::Context& ctx)>&);
ObjToken<IGraphicsBufferD> newPoolBuffer(BufferUse use, size_t stride, size_t count);
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void _unregisterShareableShader(uint64_t srcKey, uint64_t binKey) { m_sharedShaders.erase(srcKey); }
static bool CheckForMetalCompiler()
{
pid_t pid = fork();
if (!pid)
{
execlp("xcrun", "xcrun", "-sdk", "macosx", "metal", NULL);
/* xcrun returns 72 if metal command not found;
* emulate that if xcrun not found */
exit(72);
}
int status, ret;
while ((ret = waitpid(pid, &status, 0)) < 0 && errno == EINTR) {}
if (ret < 0)
return false;
return WEXITSTATUS(status) == 1;
}
uint64_t CompileLib(std::vector<uint8_t>& blobOut, const char* source, uint64_t srcKey)
{
if (!m_hasCompiler)
{
/* Cache the source if there's no compiler */
size_t sourceLen = strlen(source);
/* First byte unset to indicate source data */
blobOut.resize(sourceLen + 2);
memcpy(&blobOut[1], source, sourceLen);
}
else
{
/* Cache the binary otherwise */
int compilerOut[2];
int compilerIn[2];
pipe(compilerOut);
pipe(compilerIn);
/* Pipe source write to compiler */
pid_t compilerPid = fork();
if (!compilerPid)
{
dup2(compilerIn[0], STDIN_FILENO);
dup2(compilerOut[1], STDOUT_FILENO);
close(compilerOut[0]);
close(compilerOut[1]);
close(compilerIn[0]);
close(compilerIn[1]);
execlp("xcrun", "xcrun", "-sdk", "macosx", "metal", "-o", "/dev/stdout", "-Wno-unused-variable",
"-Wno-unused-const-variable", "-Wno-unused-function", "-x", "metal", "-", NULL);
fprintf(stderr, "execlp fail %s\n", strerror(errno));
exit(1);
}
close(compilerIn[0]);
close(compilerOut[1]);
/* Pipe compiler to linker */
pid_t linkerPid = fork();
if (!linkerPid)
{
dup2(compilerOut[0], STDIN_FILENO);
close(compilerOut[0]);
close(compilerIn[1]);
/* metallib doesn't like outputting to a pipe, so temp file will have to do */
execlp("xcrun", "xcrun", "-sdk", "macosx", "metallib", "-", "-o", m_libfile, NULL);
fprintf(stderr, "execlp fail %s\n", strerror(errno));
exit(1);
}
close(compilerOut[0]);
/* Stream in source */
const char* inPtr = source;
size_t inRem = strlen(source);
while (inRem)
{
ssize_t writeRes = write(compilerIn[1], inPtr, inRem);
if (writeRes < 0)
{
fprintf(stderr, "write fail %s\n", strerror(errno));
break;
}
inPtr += writeRes;
inRem -= writeRes;
}
close(compilerIn[1]);
/* Wait for completion */
int compilerStat, linkerStat;
if (waitpid(compilerPid, &compilerStat, 0) < 0 || waitpid(linkerPid, &linkerStat, 0) < 0)
{
fprintf(stderr, "waitpid fail %s\n", strerror(errno));
return 0;
}
if (WEXITSTATUS(compilerStat) || WEXITSTATUS(linkerStat))
return 0;
/* Copy temp file into buffer with first byte set to indicate binary data */
FILE* fin = fopen(m_libfile, "rb");
fseek(fin, 0, SEEK_END);
long libLen = ftell(fin);
fseek(fin, 0, SEEK_SET);
blobOut.resize(libLen + 1);
blobOut[0] = 1;
fread(&blobOut[1], 1, libLen, fin);
fclose(fin);
}
XXH64_state_t hashState;
XXH64_reset(&hashState, 0);
XXH64_update(&hashState, blobOut.data(), blobOut.size());
uint64_t binKey = XXH64_digest(&hashState);
m_sourceToBinary[srcKey] = binKey;
return binKey;
}
uint64_t CompileLib(__strong id<MTLLibrary>& libOut, const char* source, uint64_t srcKey,
MTLCompileOptions* compOpts, NSError * _Nullable *err)
{
libOut = [m_ctx->m_dev newLibraryWithSource:@(source)
options:compOpts
error:err];
if (srcKey)
{
XXH64_state_t hashState;
XXH64_reset(&hashState, 0);
uint8_t zero = 0;
XXH64_update(&hashState, &zero, 1);
XXH64_update(&hashState, source, strlen(source) + 1);
uint64_t binKey = XXH64_digest(&hashState);
m_sourceToBinary[srcKey] = binKey;
return binKey;
}
return 0;
}
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void setDisplayGamma(float gamma)
{
if (m_ctx->m_pixelFormat == MTLPixelFormatRGBA16Float)
m_gamma = gamma * 2.2f;
else
m_gamma = gamma;
if (m_gamma != 1.f)
UpdateGammaLUT(m_gammaLUT.get(), m_gamma);
}
};
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#define MTL_STATIC MTLResourceCPUCacheModeWriteCombined|MTLResourceStorageModeManaged
#define MTL_DYNAMIC MTLResourceCPUCacheModeWriteCombined|MTLResourceStorageModeManaged
class MetalGraphicsBufferS : public GraphicsDataNode<IGraphicsBufferS>
{
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friend class MetalDataFactory;
friend struct MetalCommandQueue;
MetalGraphicsBufferS(const ObjToken<BaseGraphicsData>& parent, BufferUse use, MetalContext* ctx,
const void* data, size_t stride, size_t count)
: GraphicsDataNode<IGraphicsBufferS>(parent), m_stride(stride), m_count(count), m_sz(stride * count)
{
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m_buf = [ctx->m_dev newBufferWithBytes:data length:m_sz options:MTL_STATIC];
}
public:
size_t m_stride;
size_t m_count;
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size_t m_sz;
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id<MTLBuffer> m_buf;
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~MetalGraphicsBufferS() = default;
};
template<class DataCls>
class MetalGraphicsBufferD : public GraphicsDataNode<IGraphicsBufferD, DataCls>
{
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friend class MetalDataFactory;
friend class MetalDataFactoryImpl;
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friend struct MetalCommandQueue;
MetalCommandQueue* m_q;
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std::unique_ptr<uint8_t[]> m_cpuBuf;
int m_validSlots = 0;
MetalGraphicsBufferD(const ObjToken<DataCls>& parent, MetalCommandQueue* q, BufferUse use,
MetalContext* ctx, size_t stride, size_t count)
: GraphicsDataNode<IGraphicsBufferD, DataCls>(parent), m_q(q), m_stride(stride),
m_count(count), m_sz(stride * count)
{
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m_cpuBuf.reset(new uint8_t[m_sz]);
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m_bufs[0] = [ctx->m_dev newBufferWithLength:m_sz options:MTL_DYNAMIC];
m_bufs[1] = [ctx->m_dev newBufferWithLength:m_sz options:MTL_DYNAMIC];
}
public:
size_t m_stride;
size_t m_count;
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size_t m_sz;
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id<MTLBuffer> m_bufs[2];
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MetalGraphicsBufferD() = default;
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void update(int b)
{
int slot = 1 << b;
if ((slot & m_validSlots) == 0)
{
id<MTLBuffer> res = m_bufs[b];
memcpy(res.contents, m_cpuBuf.get(), m_sz);
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[res didModifyRange:NSMakeRange(0, m_sz)];
m_validSlots |= slot;
}
}
void load(const void* data, size_t sz)
{
size_t bufSz = std::min(sz, m_sz);
memcpy(m_cpuBuf.get(), data, bufSz);
m_validSlots = 0;
}
void* map(size_t sz)
{
if (sz > m_sz)
return nullptr;
return m_cpuBuf.get();
}
void unmap()
{
m_validSlots = 0;
}
};
class MetalTextureS : public GraphicsDataNode<ITextureS>
{
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friend class MetalDataFactory;
MetalTextureS(const ObjToken<BaseGraphicsData>& parent, MetalContext* ctx, size_t width, size_t height,
size_t mips, TextureFormat fmt, const void* data, size_t sz)
: GraphicsDataNode<ITextureS>(parent)
{
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MTLPixelFormat pfmt = MTLPixelFormatRGBA8Unorm;
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NSUInteger ppitchNum = 4;
NSUInteger ppitchDenom = 1;
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NSUInteger bytesPerRow = width * ppitchNum;
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switch (fmt)
{
case TextureFormat::I8:
pfmt = MTLPixelFormatR8Unorm;
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ppitchNum = 1;
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bytesPerRow = width * ppitchNum;
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break;
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case TextureFormat::I16:
pfmt = MTLPixelFormatR16Unorm;
ppitchNum = 2;
bytesPerRow = width * ppitchNum;
break;
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case TextureFormat::DXT1:
pfmt = MTLPixelFormatBC1_RGBA;
ppitchNum = 1;
ppitchDenom = 2;
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bytesPerRow = width * 8 / 4; // Metal wants this in blocks, not bytes
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default: break;
}
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@autoreleasepool
{
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MTLTextureDescriptor* desc =
[MTLTextureDescriptor texture2DDescriptorWithPixelFormat:pfmt
width:width height:height
mipmapped:(mips>1)?YES:NO];
desc.usage = MTLTextureUsageShaderRead;
desc.mipmapLevelCount = mips;
m_tex = [ctx->m_dev newTextureWithDescriptor:desc];
const uint8_t* dataIt = reinterpret_cast<const uint8_t*>(data);
for (size_t i=0 ; i<mips ; ++i)
{
[m_tex replaceRegion:MTLRegionMake2D(0, 0, width, height)
mipmapLevel:i
withBytes:dataIt
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bytesPerRow:bytesPerRow];
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dataIt += width * height * ppitchNum / ppitchDenom;
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if (width > 1)
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{
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width /= 2;
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bytesPerRow /= 2;
}
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if (height > 1)
height /= 2;
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}
}
}
public:
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id<MTLTexture> m_tex;
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~MetalTextureS() = default;
};
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class MetalTextureSA : public GraphicsDataNode<ITextureSA>
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{
friend class MetalDataFactory;
MetalTextureSA(const ObjToken<BaseGraphicsData>& parent, MetalContext* ctx, size_t width,
size_t height, size_t layers, size_t mips,
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TextureFormat fmt, const void* data, size_t sz)
: GraphicsDataNode<ITextureSA>(parent)
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{
MTLPixelFormat pfmt = MTLPixelFormatRGBA8Unorm;
NSUInteger ppitch = 4;
switch (fmt)
{
case TextureFormat::I8:
pfmt = MTLPixelFormatR8Unorm;
ppitch = 1;
break;
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case TextureFormat::I16:
pfmt = MTLPixelFormatR16Unorm;
ppitch = 2;
break;
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default: break;
}
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@autoreleasepool
{
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MTLTextureDescriptor* desc =
[MTLTextureDescriptor texture2DDescriptorWithPixelFormat:pfmt
width:width height:height
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mipmapped:(mips>1)?YES:NO];
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desc.textureType = MTLTextureType2DArray;
desc.arrayLength = layers;
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desc.mipmapLevelCount = mips;
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desc.usage = MTLTextureUsageShaderRead;
m_tex = [ctx->m_dev newTextureWithDescriptor:desc];
const uint8_t* dataIt = reinterpret_cast<const uint8_t*>(data);
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for (size_t i=0 ; i<mips ; ++i)
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{
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for (size_t j=0 ; j<layers ; ++j)
{
[m_tex replaceRegion:MTLRegionMake2D(0, 0, width, height)
mipmapLevel:i
slice:j
withBytes:dataIt
bytesPerRow:width * ppitch
bytesPerImage:width * height * ppitch];
dataIt += width * height * ppitch;
}
if (width > 1)
width /= 2;
if (height > 1)
height /= 2;
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}
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}
}
public:
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id<MTLTexture> m_tex;
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~MetalTextureSA() = default;
};
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class MetalTextureD : public GraphicsDataNode<ITextureD>
{
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friend class MetalDataFactory;
friend struct MetalCommandQueue;
MetalCommandQueue* m_q;
size_t m_width = 0;
size_t m_height = 0;
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std::unique_ptr<uint8_t[]> m_cpuBuf;
size_t m_cpuSz;
size_t m_pxPitch;
int m_validSlots = 0;
MetalTextureD(const ObjToken<BaseGraphicsData>& parent, MetalCommandQueue* q, MetalContext* ctx,
size_t width, size_t height, TextureFormat fmt)
: GraphicsDataNode<ITextureD>(parent), m_q(q), m_width(width), m_height(height)
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{
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MTLPixelFormat format;
switch (fmt)
{
case TextureFormat::RGBA8:
format = MTLPixelFormatRGBA8Unorm;
m_pxPitch = 4;
break;
case TextureFormat::I8:
format = MTLPixelFormatR8Unorm;
m_pxPitch = 1;
break;
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case TextureFormat::I16:
format = MTLPixelFormatR16Unorm;
m_pxPitch = 2;
break;
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default:
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Log.report(logvisor::Fatal, "unsupported tex format");
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}
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m_cpuSz = width * height * m_pxPitch;
m_cpuBuf.reset(new uint8_t[m_cpuSz]);
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@autoreleasepool
{
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MTLTextureDescriptor* desc =
[MTLTextureDescriptor texture2DDescriptorWithPixelFormat:format
width:width height:height
mipmapped:NO];
desc.usage = MTLTextureUsageShaderRead;
m_texs[0] = [ctx->m_dev newTextureWithDescriptor:desc];
m_texs[1] = [ctx->m_dev newTextureWithDescriptor:desc];
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}
}
public:
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id<MTLTexture> m_texs[2];
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~MetalTextureD() = default;
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void update(int b)
{
int slot = 1 << b;
if ((slot & m_validSlots) == 0)
{
id<MTLTexture> res = m_texs[b];
[res replaceRegion:MTLRegionMake2D(0, 0, m_width, m_height)
mipmapLevel:0 withBytes:m_cpuBuf.get() bytesPerRow:m_width*m_pxPitch];
m_validSlots |= slot;
}
}
void load(const void* data, size_t sz)
{
size_t bufSz = std::min(sz, m_cpuSz);
memcpy(m_cpuBuf.get(), data, bufSz);
m_validSlots = 0;
}
void* map(size_t sz)
{
if (sz > m_cpuSz)
return nullptr;
return m_cpuBuf.get();
}
void unmap()
{
m_validSlots = 0;
}
};
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#define MAX_BIND_TEXS 4
class MetalTextureR : public GraphicsDataNode<ITextureR>
{
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friend class MetalDataFactory;
friend struct MetalCommandQueue;
size_t m_width = 0;
size_t m_height = 0;
size_t m_samples = 0;
size_t m_colorBindCount;
size_t m_depthBindCount;
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void Setup(MetalContext* ctx)
{
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if (m_colorBindCount > MAX_BIND_TEXS)
Log.report(logvisor::Fatal, "too many color bindings for render texture");
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if (m_depthBindCount > MAX_BIND_TEXS)
Log.report(logvisor::Fatal, "too many depth bindings for render texture");
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@autoreleasepool
{
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MTLTextureDescriptor* desc =
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[MTLTextureDescriptor texture2DDescriptorWithPixelFormat:ctx->m_pixelFormat
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width:m_width height:m_height
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mipmapped:NO];
desc.storageMode = MTLStorageModePrivate;
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if (m_samples > 1)
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{
desc.textureType = MTLTextureType2DMultisample;
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desc.sampleCount = m_samples;
desc.usage = MTLTextureUsageRenderTarget;
m_colorTex = [ctx->m_dev newTextureWithDescriptor:desc];
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desc.pixelFormat = MTLPixelFormatDepth32Float;
m_depthTex = [ctx->m_dev newTextureWithDescriptor:desc];
}
else
{
desc.textureType = MTLTextureType2D;
desc.sampleCount = 1;
desc.usage = MTLTextureUsageRenderTarget;
m_colorTex = [ctx->m_dev newTextureWithDescriptor:desc];
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desc.pixelFormat = MTLPixelFormatDepth32Float;
m_depthTex = [ctx->m_dev newTextureWithDescriptor:desc];
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}
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desc.textureType = MTLTextureType2D;
desc.sampleCount = 1;
desc.usage = MTLTextureUsageShaderRead;
if (m_colorBindCount)
{
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desc.pixelFormat = ctx->m_pixelFormat;
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for (int i=0 ; i<m_colorBindCount ; ++i)
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{
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m_colorBindTex[i] = [ctx->m_dev newTextureWithDescriptor:desc];
if (m_samples > 1)
{
m_blitColor[i] = [MTLRenderPassDescriptor renderPassDescriptor];
m_blitColor[i].colorAttachments[0].texture = m_colorTex;
m_blitColor[i].colorAttachments[0].loadAction = MTLLoadActionLoad;
m_blitColor[i].colorAttachments[0].storeAction = MTLStoreActionMultisampleResolve;
m_blitColor[i].colorAttachments[0].resolveTexture = m_colorBindTex[i];
}
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}
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}
if (m_depthBindCount)
{
desc.pixelFormat = MTLPixelFormatDepth32Float;
for (int i=0 ; i<m_depthBindCount ; ++i)
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{
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m_depthBindTex[i] = [ctx->m_dev newTextureWithDescriptor:desc];
if (m_samples > 1)
{
m_blitDepth[i] = [MTLRenderPassDescriptor renderPassDescriptor];
m_blitDepth[i].depthAttachment.texture = m_colorTex;
m_blitDepth[i].depthAttachment.loadAction = MTLLoadActionLoad;
m_blitDepth[i].depthAttachment.storeAction = MTLStoreActionMultisampleResolve;
m_blitDepth[i].depthAttachment.resolveTexture = m_depthBindTex[i];
}
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}
}
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{
m_passDesc = [MTLRenderPassDescriptor renderPassDescriptor];
m_passDesc.colorAttachments[0].texture = m_colorTex;
m_passDesc.colorAttachments[0].loadAction = MTLLoadActionLoad;
m_passDesc.colorAttachments[0].storeAction = MTLStoreActionStore;
m_passDesc.depthAttachment.texture = m_depthTex;
m_passDesc.depthAttachment.loadAction = MTLLoadActionLoad;
m_passDesc.depthAttachment.storeAction = MTLStoreActionStore;
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m_passDesc.depthAttachment.clearDepth = 0.f;
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}
{
m_clearDepthPassDesc = [MTLRenderPassDescriptor renderPassDescriptor];
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m_clearDepthPassDesc.colorAttachments[0].texture = m_colorTex;
m_clearDepthPassDesc.colorAttachments[0].loadAction = MTLLoadActionLoad;
m_clearDepthPassDesc.colorAttachments[0].storeAction = MTLStoreActionStore;
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m_clearDepthPassDesc.depthAttachment.texture = m_depthTex;
m_clearDepthPassDesc.depthAttachment.loadAction = MTLLoadActionClear;
m_clearDepthPassDesc.depthAttachment.storeAction = MTLStoreActionStore;
m_clearDepthPassDesc.depthAttachment.clearDepth = 0.f;
}
{
m_clearColorPassDesc = [MTLRenderPassDescriptor renderPassDescriptor];
m_clearColorPassDesc.colorAttachments[0].texture = m_colorTex;
m_clearColorPassDesc.colorAttachments[0].loadAction = MTLLoadActionClear;
m_clearColorPassDesc.colorAttachments[0].storeAction = MTLStoreActionStore;
m_clearDepthPassDesc.colorAttachments[0].clearColor = MTLClearColorMake(0.0, 0.0, 0.0, 0.0);
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m_clearColorPassDesc.depthAttachment.texture = m_depthTex;
m_clearColorPassDesc.depthAttachment.loadAction = MTLLoadActionLoad;
m_clearColorPassDesc.depthAttachment.storeAction = MTLStoreActionStore;
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m_clearColorPassDesc.depthAttachment.clearDepth = 0.f;
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}
{
m_clearBothPassDesc = [MTLRenderPassDescriptor renderPassDescriptor];
m_clearBothPassDesc.colorAttachments[0].texture = m_colorTex;
m_clearBothPassDesc.colorAttachments[0].loadAction = MTLLoadActionClear;
m_clearBothPassDesc.colorAttachments[0].storeAction = MTLStoreActionStore;
m_clearBothPassDesc.colorAttachments[0].clearColor = MTLClearColorMake(0.0, 0.0, 0.0, 0.0);
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m_clearBothPassDesc.depthAttachment.texture = m_depthTex;
m_clearBothPassDesc.depthAttachment.loadAction = MTLLoadActionClear;
m_clearBothPassDesc.depthAttachment.storeAction = MTLStoreActionStore;
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m_clearBothPassDesc.depthAttachment.clearDepth = 0.f;
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}
}
}
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MetalTextureR(const ObjToken<BaseGraphicsData>& parent, MetalContext* ctx, size_t width, size_t height,
size_t samples, size_t colorBindCount, size_t depthBindCount)
: GraphicsDataNode<ITextureR>(parent), m_width(width), m_height(height), m_samples(samples),
m_colorBindCount(colorBindCount),
m_depthBindCount(depthBindCount)
{
if (samples == 0) m_samples = 1;
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Setup(ctx);
}
public:
size_t samples() const {return m_samples;}
id<MTLTexture> m_colorTex;
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id<MTLTexture> m_depthTex;
id<MTLTexture> m_colorBindTex[MAX_BIND_TEXS] = {};
id<MTLTexture> m_depthBindTex[MAX_BIND_TEXS] = {};
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MTLRenderPassDescriptor* m_passDesc;
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MTLRenderPassDescriptor* m_clearDepthPassDesc;
MTLRenderPassDescriptor* m_clearColorPassDesc;
MTLRenderPassDescriptor* m_clearBothPassDesc;
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MTLRenderPassDescriptor* m_blitColor[MAX_BIND_TEXS] = {};
MTLRenderPassDescriptor* m_blitDepth[MAX_BIND_TEXS] = {};
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~MetalTextureR() = default;
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void resize(MetalContext* ctx, size_t width, size_t height)
{
if (width < 1)
width = 1;
if (height < 1)
height = 1;
m_width = width;
m_height = height;
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Setup(ctx);
}
};
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static const size_t SEMANTIC_SIZE_TABLE[] =
{
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0,
12,
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16,
12,
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16,
16,
4,
8,
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16,
16,
16
};
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static const MTLVertexFormat SEMANTIC_TYPE_TABLE[] =
{
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MTLVertexFormatInvalid,
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MTLVertexFormatFloat3,
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MTLVertexFormatFloat4,
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MTLVertexFormatFloat3,
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MTLVertexFormatFloat4,
MTLVertexFormatFloat4,
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MTLVertexFormatUChar4Normalized,
MTLVertexFormatFloat2,
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MTLVertexFormatFloat4,
MTLVertexFormatFloat4,
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MTLVertexFormatFloat4
};
struct MetalVertexFormat : GraphicsDataNode<IVertexFormat>
{
size_t m_elementCount;
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MTLVertexDescriptor* m_vdesc;
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size_t m_stride = 0;
size_t m_instStride = 0;
MetalVertexFormat(const ObjToken<BaseGraphicsData>& parent,
size_t elementCount, const VertexElementDescriptor* elements)
: GraphicsDataNode<IVertexFormat>(parent), m_elementCount(elementCount)
{
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for (size_t i=0 ; i<elementCount ; ++i)
{
const VertexElementDescriptor* elemin = &elements[i];
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int semantic = int(elemin->semantic & VertexSemantic::SemanticMask);
if ((elemin->semantic & VertexSemantic::Instanced) != VertexSemantic::None)
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m_instStride += SEMANTIC_SIZE_TABLE[semantic];
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else
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m_stride += SEMANTIC_SIZE_TABLE[semantic];
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}
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m_vdesc = [MTLVertexDescriptor vertexDescriptor];
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MTLVertexBufferLayoutDescriptor* layoutDesc = m_vdesc.layouts[0];
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layoutDesc.stride = m_stride;
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layoutDesc.stepFunction = MTLVertexStepFunctionPerVertex;
layoutDesc.stepRate = 1;
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layoutDesc = m_vdesc.layouts[1];
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layoutDesc.stride = m_instStride;
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layoutDesc.stepFunction = MTLVertexStepFunctionPerInstance;
layoutDesc.stepRate = 1;
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size_t offset = 0;
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size_t instOffset = 0;
for (size_t i=0 ; i<elementCount ; ++i)
{
const VertexElementDescriptor* elemin = &elements[i];
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MTLVertexAttributeDescriptor* attrDesc = m_vdesc.attributes[i];
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int semantic = int(elemin->semantic & VertexSemantic::SemanticMask);
if ((elemin->semantic & VertexSemantic::Instanced) != VertexSemantic::None)
{
attrDesc.offset = instOffset;
attrDesc.bufferIndex = 1;
instOffset += SEMANTIC_SIZE_TABLE[semantic];
}
else
{
attrDesc.offset = offset;
attrDesc.bufferIndex = 0;
offset += SEMANTIC_SIZE_TABLE[semantic];
}
attrDesc.format = SEMANTIC_TYPE_TABLE[semantic];
}
}
};
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static const MTLBlendFactor BLEND_FACTOR_TABLE[] =
{
MTLBlendFactorZero,
MTLBlendFactorOne,
MTLBlendFactorSourceColor,
MTLBlendFactorOneMinusSourceColor,
MTLBlendFactorDestinationColor,
MTLBlendFactorOneMinusDestinationColor,
MTLBlendFactorSourceAlpha,
MTLBlendFactorOneMinusSourceAlpha,
MTLBlendFactorDestinationAlpha,
MTLBlendFactorOneMinusDestinationAlpha,
#if __MAC_OS_X_VERSION_MAX_ALLOWED >= 101200
MTLBlendFactorSource1Color,
MTLBlendFactorOneMinusSource1Color,
#else
MTLBlendFactorSourceColor,
MTLBlendFactorOneMinusSourceColor,
#endif
};
static const MTLPrimitiveType PRIMITIVE_TABLE[] =
{
MTLPrimitiveTypeTriangle,
MTLPrimitiveTypeTriangleStrip
};
#define COLOR_WRITE_MASK (MTLColorWriteMaskRed | MTLColorWriteMaskGreen | MTLColorWriteMaskBlue)
class MetalShaderPipeline : public GraphicsDataNode<IShaderPipeline>
{
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friend class MetalDataFactory;
friend struct MetalCommandQueue;
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friend struct MetalShaderDataBinding;
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MTLCullMode m_cullMode = MTLCullModeNone;
MTLPrimitiveType m_drawPrim;
MetalShareableShader::Token m_vert;
MetalShareableShader::Token m_frag;
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MetalShaderPipeline(const ObjToken<BaseGraphicsData>& parent,
MetalContext* ctx,
MetalShareableShader::Token&& vert,
MetalShareableShader::Token&& frag,
const ObjToken<IVertexFormat>& vtxFmt, NSUInteger targetSamples,
BlendFactor srcFac, BlendFactor dstFac, Primitive prim,
ZTest depthTest, bool depthWrite, bool colorWrite,
bool alphaWrite, bool overwriteAlpha, CullMode culling,
bool depthAttachment = true)
: GraphicsDataNode<IShaderPipeline>(parent),
m_drawPrim(PRIMITIVE_TABLE[int(prim)]),
m_vert(std::move(vert)), m_frag(std::move(frag))
{
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switch (culling)
{
case CullMode::None:
default:
m_cullMode = MTLCullModeNone;
break;
case CullMode::Backface:
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m_cullMode = MTLCullModeBack;
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break;
case CullMode::Frontface:
m_cullMode = MTLCullModeFront;
break;
}
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MTLRenderPipelineDescriptor* desc = [MTLRenderPipelineDescriptor new];
desc.vertexFunction = m_vert.get().m_shader;
desc.fragmentFunction = m_frag.get().m_shader;
desc.vertexDescriptor = vtxFmt.cast<MetalVertexFormat>()->m_vdesc;
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desc.sampleCount = targetSamples;
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desc.colorAttachments[0].pixelFormat = ctx->m_pixelFormat;
desc.colorAttachments[0].writeMask = (colorWrite ? COLOR_WRITE_MASK : 0) |
(alphaWrite ? MTLColorWriteMaskAlpha : 0);
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desc.colorAttachments[0].blendingEnabled = dstFac != BlendFactor::Zero;
if (srcFac == BlendFactor::Subtract || dstFac == BlendFactor::Subtract)
{
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desc.colorAttachments[0].sourceRGBBlendFactor = MTLBlendFactorSourceAlpha;
desc.colorAttachments[0].destinationRGBBlendFactor = MTLBlendFactorOne;
desc.colorAttachments[0].rgbBlendOperation = MTLBlendOperationReverseSubtract;
if (overwriteAlpha)
{
desc.colorAttachments[0].sourceAlphaBlendFactor = MTLBlendFactorOne;
desc.colorAttachments[0].destinationAlphaBlendFactor = MTLBlendFactorZero;
desc.colorAttachments[0].alphaBlendOperation = MTLBlendOperationAdd;
}
else
{
desc.colorAttachments[0].sourceAlphaBlendFactor = MTLBlendFactorSourceAlpha;
desc.colorAttachments[0].destinationAlphaBlendFactor = MTLBlendFactorOne;
desc.colorAttachments[0].alphaBlendOperation = MTLBlendOperationReverseSubtract;
}
}
else
{
desc.colorAttachments[0].sourceRGBBlendFactor = BLEND_FACTOR_TABLE[int(srcFac)];
desc.colorAttachments[0].destinationRGBBlendFactor = BLEND_FACTOR_TABLE[int(dstFac)];
desc.colorAttachments[0].rgbBlendOperation = MTLBlendOperationAdd;
if (overwriteAlpha)
{
desc.colorAttachments[0].sourceAlphaBlendFactor = MTLBlendFactorOne;
desc.colorAttachments[0].destinationAlphaBlendFactor = MTLBlendFactorZero;
}
else
{
desc.colorAttachments[0].sourceAlphaBlendFactor = BLEND_FACTOR_TABLE[int(srcFac)];
desc.colorAttachments[0].destinationAlphaBlendFactor = BLEND_FACTOR_TABLE[int(dstFac)];
}
desc.colorAttachments[0].alphaBlendOperation = MTLBlendOperationAdd;
}
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desc.depthAttachmentPixelFormat = depthAttachment ? MTLPixelFormatDepth32Float : MTLPixelFormatInvalid;
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desc.inputPrimitiveTopology = MTLPrimitiveTopologyClassTriangle;
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NSError* err = nullptr;
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m_state = [ctx->m_dev newRenderPipelineStateWithDescriptor:desc error:&err];
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if (err)
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Log.report(logvisor::Fatal, "error making shader pipeline: %s",
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[[err localizedDescription] UTF8String]);
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MTLDepthStencilDescriptor* dsDesc = [MTLDepthStencilDescriptor new];
switch (depthTest)
{
case ZTest::None:
default:
dsDesc.depthCompareFunction = MTLCompareFunctionAlways;
break;
case ZTest::LEqual:
dsDesc.depthCompareFunction = MTLCompareFunctionGreaterEqual;
break;
case ZTest::Greater:
dsDesc.depthCompareFunction = MTLCompareFunctionLess;
break;
case ZTest::GEqual:
dsDesc.depthCompareFunction = MTLCompareFunctionLessEqual;
break;
case ZTest::Equal:
dsDesc.depthCompareFunction = MTLCompareFunctionEqual;
break;
}
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dsDesc.depthWriteEnabled = depthWrite;
m_dsState = [ctx->m_dev newDepthStencilStateWithDescriptor:dsDesc];
}
public:
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id<MTLRenderPipelineState> m_state;
id<MTLDepthStencilState> m_dsState;
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~MetalShaderPipeline() = default;
MetalShaderPipeline& operator=(const MetalShaderPipeline&) = delete;
MetalShaderPipeline(const MetalShaderPipeline&) = delete;
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void bind(id<MTLRenderCommandEncoder> enc)
{
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[enc setRenderPipelineState:m_state];
[enc setDepthStencilState:m_dsState];
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[enc setCullMode:m_cullMode];
}
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};
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static id<MTLBuffer> GetBufferGPUResource(const ObjToken<IGraphicsBuffer>& buf, int idx)
{
if (buf->dynamic())
{
const MetalGraphicsBufferD<BaseGraphicsData>* cbuf = buf.cast<MetalGraphicsBufferD<BaseGraphicsData>>();
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return cbuf->m_bufs[idx];
}
else
{
const MetalGraphicsBufferS* cbuf = buf.cast<MetalGraphicsBufferS>();
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return cbuf->m_buf;
}
}
static id<MTLTexture> GetTextureGPUResource(const ObjToken<ITexture>& tex, int idx, int bindIdx, bool depth)
{
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switch (tex->type())
{
case TextureType::Dynamic:
{
const MetalTextureD* ctex = tex.cast<MetalTextureD>();
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return ctex->m_texs[idx];
}
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case TextureType::Static:
{
const MetalTextureS* ctex = tex.cast<MetalTextureS>();
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return ctex->m_tex;
}
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case TextureType::StaticArray:
{
const MetalTextureSA* ctex = tex.cast<MetalTextureSA>();
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return ctex->m_tex;
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}
case TextureType::Render:
{
const MetalTextureR* ctex = tex.cast<MetalTextureR>();
return depth ? ctex->m_depthBindTex[bindIdx] : ctex->m_colorBindTex[bindIdx];
}
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default: break;
}
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return nullptr;
}
struct MetalShaderDataBinding : GraphicsDataNode<IShaderDataBinding>
{
ObjToken<IShaderPipeline> m_pipeline;
ObjToken<IGraphicsBuffer> m_vbuf;
ObjToken<IGraphicsBuffer> m_instVbo;
ObjToken<IGraphicsBuffer> m_ibuf;
std::vector<ObjToken<IGraphicsBuffer>> m_ubufs;
std::vector<size_t> m_ubufOffs;
std::vector<bool> m_fubufs;
struct BoundTex
{
ObjToken<ITexture> tex;
int idx;
bool depth;
};
std::vector<BoundTex> m_texs;
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size_t m_baseVert;
size_t m_baseInst;
MetalShaderDataBinding(const ObjToken<BaseGraphicsData>& d,
MetalContext* ctx,
const ObjToken<IShaderPipeline>& pipeline,
const ObjToken<IGraphicsBuffer>& vbuf,
const ObjToken<IGraphicsBuffer>& instVbo,
const ObjToken<IGraphicsBuffer>& ibuf,
size_t ubufCount, const ObjToken<IGraphicsBuffer>* ubufs, const PipelineStage* ubufStages,
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const size_t* ubufOffs, const size_t* ubufSizes,
size_t texCount, const ObjToken<ITexture>* texs,
const int* texBindIdxs, const bool* depthBind,
size_t baseVert, size_t baseInst)
: GraphicsDataNode<IShaderDataBinding>(d),
m_pipeline(pipeline),
m_vbuf(vbuf),
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m_instVbo(instVbo),
m_ibuf(ibuf),
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m_baseVert(baseVert),
m_baseInst(baseInst)
{
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if (ubufCount && ubufStages)
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{
m_fubufs.reserve(ubufCount);
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for (size_t i=0 ; i<ubufCount ; ++i)
m_fubufs.push_back(ubufStages[i] == PipelineStage::Fragment);
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}
if (ubufCount && ubufOffs && ubufSizes)
{
m_ubufOffs.reserve(ubufCount);
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for (size_t i=0 ; i<ubufCount ; ++i)
{
#ifndef NDEBUG
if (ubufOffs[i] % 256)
Log.report(logvisor::Fatal, "non-256-byte-aligned uniform-offset %d provided to newShaderDataBinding", int(i));
#endif
m_ubufOffs.push_back(ubufOffs[i]);
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}
}
m_ubufs.reserve(ubufCount);
for (size_t i=0 ; i<ubufCount ; ++i)
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{
#ifndef NDEBUG
if (!ubufs[i])
Log.report(logvisor::Fatal, "null uniform-buffer %d provided to newShaderDataBinding", int(i));
#endif
m_ubufs.push_back(ubufs[i]);
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}
m_texs.reserve(texCount);
for (size_t i=0 ; i<texCount ; ++i)
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{
m_texs.push_back({texs[i], texBindIdxs ? texBindIdxs[i] : 0, depthBind ? depthBind[i] : false});
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}
}
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void bind(id<MTLRenderCommandEncoder> enc, int b)
{
m_pipeline.cast<MetalShaderPipeline>()->bind(enc);
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if (m_vbuf)
{
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id<MTLBuffer> buf = GetBufferGPUResource(m_vbuf, b);
[enc setVertexBuffer:buf offset:0 atIndex:0];
}
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if (m_instVbo)
{
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id<MTLBuffer> buf = GetBufferGPUResource(m_instVbo, b);
[enc setVertexBuffer:buf offset:0 atIndex:1];
}
if (m_ubufOffs.size())
for (size_t i=0 ; i<m_ubufs.size() ; ++i)
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{
if (m_fubufs.size() && m_fubufs[i])
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[enc setFragmentBuffer:GetBufferGPUResource(m_ubufs[i], b) offset:m_ubufOffs[i] atIndex:i+2];
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else
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[enc setVertexBuffer:GetBufferGPUResource(m_ubufs[i], b) offset:m_ubufOffs[i] atIndex:i+2];
}
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else
for (size_t i=0 ; i<m_ubufs.size() ; ++i)
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{
if (m_fubufs.size() && m_fubufs[i])
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[enc setFragmentBuffer:GetBufferGPUResource(m_ubufs[i], b) offset:0 atIndex:i+2];
else
[enc setVertexBuffer:GetBufferGPUResource(m_ubufs[i], b) offset:0 atIndex:i+2];
}
for (size_t i=0 ; i<m_texs.size() ; ++i)
if (m_texs[i].tex)
[enc setFragmentTexture:GetTextureGPUResource(m_texs[i].tex, b, m_texs[i].idx, m_texs[i].depth) atIndex:i];
}
};
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struct MetalCommandQueue : IGraphicsCommandQueue
{
Platform platform() const { return IGraphicsDataFactory::Platform::Metal; }
const char* platformName() const { return "Metal"; }
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MetalContext* m_ctx;
IWindow* m_parentWindow;
IGraphicsContext* m_parent;
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id<MTLCommandBuffer> m_cmdBuf;
id<MTLRenderCommandEncoder> m_enc;
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id<MTLSamplerState> m_samplers[4];
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bool m_running = true;
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int m_fillBuf = 0;
int m_drawBuf = 0;
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MetalCommandQueue(MetalContext* ctx, IWindow* parentWindow, IGraphicsContext* parent)
: m_ctx(ctx), m_parentWindow(parentWindow), m_parent(parent)
{
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@autoreleasepool
{
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m_cmdBuf = [ctx->m_q commandBuffer];
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MTLSamplerDescriptor* sampDesc = [MTLSamplerDescriptor new];
sampDesc.rAddressMode = MTLSamplerAddressModeRepeat;
sampDesc.sAddressMode = MTLSamplerAddressModeRepeat;
sampDesc.tAddressMode = MTLSamplerAddressModeRepeat;
sampDesc.minFilter = MTLSamplerMinMagFilterLinear;
sampDesc.magFilter = MTLSamplerMinMagFilterLinear;
sampDesc.mipFilter = MTLSamplerMipFilterLinear;
sampDesc.maxAnisotropy = ctx->m_anisotropy;
sampDesc.borderColor = MTLSamplerBorderColorOpaqueWhite;
m_samplers[0] = [ctx->m_dev newSamplerStateWithDescriptor:sampDesc];
sampDesc.rAddressMode = MTLSamplerAddressModeClampToBorderColor;
sampDesc.sAddressMode = MTLSamplerAddressModeClampToBorderColor;
sampDesc.tAddressMode = MTLSamplerAddressModeClampToBorderColor;
m_samplers[1] = [ctx->m_dev newSamplerStateWithDescriptor:sampDesc];
sampDesc.rAddressMode = MTLSamplerAddressModeClampToEdge;
sampDesc.sAddressMode = MTLSamplerAddressModeClampToEdge;
sampDesc.tAddressMode = MTLSamplerAddressModeClampToEdge;
m_samplers[2] = [ctx->m_dev newSamplerStateWithDescriptor:sampDesc];
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sampDesc.rAddressMode = MTLSamplerAddressModeClampToEdge;
sampDesc.sAddressMode = MTLSamplerAddressModeClampToEdge;
sampDesc.tAddressMode = MTLSamplerAddressModeClampToEdge;
sampDesc.minFilter = MTLSamplerMinMagFilterNearest;
sampDesc.magFilter = MTLSamplerMinMagFilterNearest;
m_samplers[3] = [ctx->m_dev newSamplerStateWithDescriptor:sampDesc];
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}
}
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void startRenderer()
{
static_cast<MetalDataFactoryImpl*>(m_parent->getDataFactory())->SetupGammaResources();
}
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void stopRenderer()
{
m_running = false;
if (m_inProgress && m_cmdBuf.status != MTLCommandBufferStatusNotEnqueued)
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[m_cmdBuf waitUntilCompleted];
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}
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~MetalCommandQueue()
{
if (m_running) stopRenderer();
}
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MetalShaderDataBinding* m_boundData = nullptr;
MTLPrimitiveType m_currentPrimitive = MTLPrimitiveTypeTriangle;
void setShaderDataBinding(const ObjToken<IShaderDataBinding>& binding)
{
@autoreleasepool
{
MetalShaderDataBinding* cbind = binding.cast<MetalShaderDataBinding>();
cbind->bind(m_enc, m_fillBuf);
m_boundData = cbind;
m_currentPrimitive = cbind->m_pipeline.cast<MetalShaderPipeline>()->m_drawPrim;
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[m_enc setFragmentSamplerStates:m_samplers withRange:NSMakeRange(0, 4)];
}
}
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ObjToken<ITextureR> m_boundTarget;
void _setRenderTarget(const ObjToken<ITextureR>& target, bool clearColor, bool clearDepth)
{
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@autoreleasepool
{
MetalTextureR* ctarget = target.cast<MetalTextureR>();
[m_enc endEncoding];
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if (clearColor && clearDepth)
m_enc = [m_cmdBuf renderCommandEncoderWithDescriptor:ctarget->m_clearBothPassDesc];
else if (clearColor)
m_enc = [m_cmdBuf renderCommandEncoderWithDescriptor:ctarget->m_clearColorPassDesc];
else if (clearDepth)
m_enc = [m_cmdBuf renderCommandEncoderWithDescriptor:ctarget->m_clearDepthPassDesc];
else
m_enc = [m_cmdBuf renderCommandEncoderWithDescriptor:ctarget->m_passDesc];
[m_enc setFrontFacingWinding:MTLWindingCounterClockwise];
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if (ctarget == m_boundTarget.get())
{
if (m_boundVp.width || m_boundVp.height)
[m_enc setViewport:m_boundVp];
if (m_boundScissor.width || m_boundScissor.height)
[m_enc setScissorRect:m_boundScissor];
}
else
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m_boundTarget = target;
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}
}
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void setRenderTarget(const ObjToken<ITextureR>& target)
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{
_setRenderTarget(target, false, false);
}
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MTLViewport m_boundVp = {};
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void setViewport(const SWindowRect& rect, float znear, float zfar)
{
m_boundVp = MTLViewport{double(rect.location[0]), double(rect.location[1]),
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double(rect.size[0]), double(rect.size[1]), 1.f - zfar, 1.f - znear};
[m_enc setViewport:m_boundVp];
}
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MTLScissorRect m_boundScissor = {};
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void setScissor(const SWindowRect& rect)
{
if (m_boundTarget)
{
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MetalTextureR* ctarget = m_boundTarget.cast<MetalTextureR>();
SWindowRect intersectRect = rect.intersect(SWindowRect(0, 0, ctarget->m_width, ctarget->m_height));
m_boundScissor = MTLScissorRect{NSUInteger(intersectRect.location[0]),
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NSUInteger(ctarget->m_height - intersectRect.location[1] - intersectRect.size[1]),
NSUInteger(intersectRect.size[0]), NSUInteger(intersectRect.size[1])};
[m_enc setScissorRect:m_boundScissor];
}
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}
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std::unordered_map<MetalTextureR*, std::pair<size_t, size_t>> m_texResizes;
void resizeRenderTexture(const ObjToken<ITextureR>& tex, size_t width, size_t height)
{
MetalTextureR* ctex = tex.cast<MetalTextureR>();
m_texResizes[ctex] = std::make_pair(width, height);
}
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void schedulePostFrameHandler(std::function<void(void)>&& func)
{
func();
}
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void flushBufferUpdates() {}
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float m_clearColor[4] = {0.f,0.f,0.f,0.f};
void setClearColor(const float rgba[4])
{
m_clearColor[0] = rgba[0];
m_clearColor[1] = rgba[1];
m_clearColor[2] = rgba[2];
m_clearColor[3] = rgba[3];
}
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void clearTarget(bool render=true, bool depth=true)
{
if (!m_boundTarget)
return;
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_setRenderTarget(m_boundTarget, render, depth);
}
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void draw(size_t start, size_t count)
{
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[m_enc drawPrimitives:m_currentPrimitive
vertexStart:start + m_boundData->m_baseVert
vertexCount:count];
}
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void drawIndexed(size_t start, size_t count)
{
[m_enc drawIndexedPrimitives:m_currentPrimitive
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indexCount:count
indexType:MTLIndexTypeUInt32
indexBuffer:GetBufferGPUResource(m_boundData->m_ibuf, m_fillBuf)
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indexBufferOffset:start*4
instanceCount:1
baseVertex:m_boundData->m_baseVert
baseInstance:0];
}
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void drawInstances(size_t start, size_t count, size_t instCount)
{
[m_enc drawPrimitives:m_currentPrimitive
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vertexStart:start + m_boundData->m_baseVert
vertexCount:count
instanceCount:instCount
baseInstance:m_boundData->m_baseInst];
}
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void drawInstancesIndexed(size_t start, size_t count, size_t instCount)
{
[m_enc drawIndexedPrimitives:m_currentPrimitive
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indexCount:count
indexType:MTLIndexTypeUInt32
indexBuffer:GetBufferGPUResource(m_boundData->m_ibuf, m_fillBuf)
indexBufferOffset:start*4
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instanceCount:instCount
baseVertex:m_boundData->m_baseVert
baseInstance:m_boundData->m_baseInst];
}
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void _resolveBindTexture(MetalTextureR* tex, const SWindowRect& rect, bool tlOrigin,
int bindIdx, bool color, bool depth)
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{
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if (tex->samples() > 1)
{
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if (color && tex->m_colorBindTex[bindIdx])
[[m_cmdBuf renderCommandEncoderWithDescriptor:tex->m_blitColor[bindIdx]] endEncoding];
if (depth && tex->m_depthBindTex[bindIdx])
[[m_cmdBuf renderCommandEncoderWithDescriptor:tex->m_blitDepth[bindIdx]] endEncoding];
}
else
{
SWindowRect intersectRect = rect.intersect(SWindowRect(0, 0, tex->m_width, tex->m_height));
NSUInteger y = tlOrigin ? intersectRect.location[1] : int(tex->m_height) -
intersectRect.location[1] - intersectRect.size[1];
MTLOrigin origin = {NSUInteger(intersectRect.location[0]), y, 0};
id<MTLBlitCommandEncoder> blitEnc = [m_cmdBuf blitCommandEncoder];
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if (color && tex->m_colorBindTex[bindIdx])
{
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[blitEnc copyFromTexture:tex->m_colorTex
sourceSlice:0
sourceLevel:0
sourceOrigin:origin
sourceSize:MTLSizeMake(intersectRect.size[0], intersectRect.size[1], 1)
toTexture:tex->m_colorBindTex[bindIdx]
destinationSlice:0
destinationLevel:0
destinationOrigin:origin];
}
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if (depth && tex->m_depthBindTex[bindIdx])
{
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[blitEnc copyFromTexture:tex->m_depthTex
sourceSlice:0
sourceLevel:0
sourceOrigin:origin
sourceSize:MTLSizeMake(intersectRect.size[0], intersectRect.size[1], 1)
toTexture:tex->m_depthBindTex[bindIdx]
destinationSlice:0
destinationLevel:0
destinationOrigin:origin];
}
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[blitEnc endEncoding];
}
}
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void resolveBindTexture(const ObjToken<ITextureR>& texture, const SWindowRect& rect, bool tlOrigin,
int bindIdx, bool color, bool depth, bool clearDepth)
{
MetalTextureR* tex = texture.cast<MetalTextureR>();
@autoreleasepool
{
[m_enc endEncoding];
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_resolveBindTexture(tex, rect, tlOrigin, bindIdx, color, depth);
m_enc = [m_cmdBuf renderCommandEncoderWithDescriptor:clearDepth ? tex->m_clearDepthPassDesc : tex->m_passDesc];
[m_enc setFrontFacingWinding:MTLWindingCounterClockwise];
if (m_boundVp.width || m_boundVp.height)
[m_enc setViewport:m_boundVp];
if (m_boundScissor.width || m_boundScissor.height)
[m_enc setScissorRect:m_boundScissor];
}
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}
ObjToken<ITextureR> m_needsDisplay;
void resolveDisplay(const ObjToken<ITextureR>& source)
{
m_needsDisplay = source;
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}
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bool m_inProgress = false;
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std::unordered_map<uintptr_t, MTLRenderPassDescriptor*> m_resolvePasses;
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std::unordered_map<uintptr_t, MTLRenderPassDescriptor*> m_gammaPasses;
void execute()
{
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if (!m_running)
return;
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@autoreleasepool
2015-12-02 22:25:30 +00:00
{
/* Update dynamic data here */
MetalDataFactoryImpl* gfxF = static_cast<MetalDataFactoryImpl*>(m_parent->getDataFactory());
std::unique_lock<std::recursive_mutex> datalk(gfxF->m_dataMutex);
if (gfxF->m_dataHead)
{
for (BaseGraphicsData& d : *gfxF->m_dataHead)
{
if (d.m_DBufs)
for (IGraphicsBufferD& b : *d.m_DBufs)
static_cast<MetalGraphicsBufferD<BaseGraphicsData>&>(b).update(m_fillBuf);
if (d.m_DTexs)
for (ITextureD& t : *d.m_DTexs)
static_cast<MetalTextureD&>(t).update(m_fillBuf);
}
}
if (gfxF->m_poolHead)
{
for (BaseGraphicsPool& p : *gfxF->m_poolHead)
{
if (p.m_DBufs)
for (IGraphicsBufferD& b : *p.m_DBufs)
static_cast<MetalGraphicsBufferD<BaseGraphicsData>&>(b).update(m_fillBuf);
}
}
datalk.unlock();
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[m_enc endEncoding];
m_enc = nullptr;
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/* Abandon if in progress (renderer too slow) */
if (m_inProgress)
{
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m_cmdBuf = [m_ctx->m_q commandBuffer];
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return;
}
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/* Perform texture resizes */
if (m_texResizes.size())
{
for (const auto& resize : m_texResizes)
resize.first->resize(m_ctx, resize.second.first, resize.second.second);
m_texResizes.clear();
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m_cmdBuf = [m_ctx->m_q commandBuffer];
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return;
}
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/* Wrap up and present if needed */
if (m_needsDisplay)
{
MetalContext::Window& w = m_ctx->m_windows[m_parentWindow];
{
std::unique_lock<std::mutex> lk(w.m_resizeLock);
if (w.m_needsResize)
{
w.m_metalLayer.drawableSize = w.m_size;
w.m_needsResize = NO;
m_needsDisplay.reset();
return;
}
}
id<CAMetalDrawable> drawable = [w.m_metalLayer nextDrawable];
if (drawable)
{
MetalTextureR* src = m_needsDisplay.cast<MetalTextureR>();
id<MTLTexture> dest = drawable.texture;
if (src->m_colorTex.width == dest.width &&
src->m_colorTex.height == dest.height)
{
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if (gfxF->m_gamma != 1.f)
{
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SWindowRect rect(0, 0, src->m_width, src->m_height);
_resolveBindTexture(src, rect, true, 0, true, false);
uintptr_t key = uintptr_t(dest);
auto passSearch = m_gammaPasses.find(key);
if (passSearch == m_gammaPasses.end())
{
MTLRenderPassDescriptor* desc = [MTLRenderPassDescriptor renderPassDescriptor];
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desc.colorAttachments[0].texture = dest;
desc.colorAttachments[0].loadAction = MTLLoadActionLoad;
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desc.colorAttachments[0].storeAction = MTLStoreActionStore;
passSearch = m_gammaPasses.insert(std::make_pair(key, desc)).first;
}
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id<MTLRenderCommandEncoder> enc = [m_cmdBuf renderCommandEncoderWithDescriptor:passSearch->second];
MetalShaderDataBinding* gammaBinding = gfxF->m_gammaBinding.cast<MetalShaderDataBinding>();
gammaBinding->m_texs[0].tex = m_needsDisplay.get();
gammaBinding->bind(enc, m_drawBuf);
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[enc setFragmentSamplerStates:m_samplers withRange:NSMakeRange(0, 4)];
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[enc drawPrimitives:MTLPrimitiveTypeTriangleStrip vertexStart:0 vertexCount:4];
gammaBinding->m_texs[0].tex.reset();
[enc endEncoding];
}
else
{
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if (src->samples() > 1)
{
uintptr_t key = uintptr_t(src->m_colorTex) ^ uintptr_t(dest);
auto passSearch = m_resolvePasses.find(key);
if (passSearch == m_resolvePasses.end())
{
MTLRenderPassDescriptor* desc = [MTLRenderPassDescriptor renderPassDescriptor];
desc.colorAttachments[0].texture = src->m_colorTex;
desc.colorAttachments[0].loadAction = MTLLoadActionLoad;
desc.colorAttachments[0].storeAction = MTLStoreActionMultisampleResolve;
desc.colorAttachments[0].resolveTexture = dest;
passSearch = m_resolvePasses.insert(std::make_pair(key, desc)).first;
}
[[m_cmdBuf renderCommandEncoderWithDescriptor:passSearch->second] endEncoding];
}
else
{
id<MTLBlitCommandEncoder> blitEnc = [m_cmdBuf blitCommandEncoder];
[blitEnc copyFromTexture:src->m_colorTex
sourceSlice:0
sourceLevel:0
sourceOrigin:MTLOriginMake(0, 0, 0)
sourceSize:MTLSizeMake(dest.width, dest.height, 1)
toTexture:dest
destinationSlice:0
destinationLevel:0
destinationOrigin:MTLOriginMake(0, 0, 0)];
[blitEnc endEncoding];
}
}
[m_cmdBuf presentDrawable:drawable];
}
}
m_needsDisplay.reset();
}
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m_drawBuf = m_fillBuf;
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m_fillBuf ^= 1;
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[m_cmdBuf addCompletedHandler:^(id<MTLCommandBuffer> buf) {m_inProgress = false;}];
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m_inProgress = true;
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[m_cmdBuf commit];
m_cmdBuf = [m_ctx->m_q commandBuffer];
}
}
};
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MetalDataFactory::Context::Context(MetalDataFactory& parent)
: m_parent(parent), m_data(new BaseGraphicsData(static_cast<MetalDataFactoryImpl&>(parent))) {}
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MetalDataFactory::Context::~Context() {}
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ObjToken<IGraphicsBufferS>
MetalDataFactory::Context::newStaticBuffer(BufferUse use, const void* data, size_t stride, size_t count)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
return {new MetalGraphicsBufferS(m_data, use, factory.m_ctx, data, stride, count)};
}
}
ObjToken<IGraphicsBufferD>
MetalDataFactory::Context::newDynamicBuffer(BufferUse use, size_t stride, size_t count)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
MetalCommandQueue* q = static_cast<MetalCommandQueue*>(factory.m_parent->getCommandQueue());
return {new MetalGraphicsBufferD<BaseGraphicsData>(m_data, q, use, factory.m_ctx, stride, count)};
}
}
ObjToken<ITextureS>
MetalDataFactory::Context::newStaticTexture(size_t width, size_t height, size_t mips, TextureFormat fmt,
TextureClampMode clampMode, const void* data, size_t sz)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
return {new MetalTextureS(m_data, factory.m_ctx, width, height, mips, fmt, data, sz)};
}
}
ObjToken<ITextureSA>
MetalDataFactory::Context::newStaticArrayTexture(size_t width, size_t height, size_t layers, size_t mips,
TextureFormat fmt, TextureClampMode clampMode,
const void* data, size_t sz)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
return {new MetalTextureSA(m_data, factory.m_ctx, width, height, layers, mips, fmt, data, sz)};
}
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}
ObjToken<ITextureD>
MetalDataFactory::Context::newDynamicTexture(size_t width, size_t height, TextureFormat fmt,
TextureClampMode clampMode)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
MetalCommandQueue* q = static_cast<MetalCommandQueue*>(factory.m_parent->getCommandQueue());
return {new MetalTextureD(m_data, q, factory.m_ctx, width, height, fmt)};
}
}
ObjToken<ITextureR>
MetalDataFactory::Context::newRenderTexture(size_t width, size_t height, TextureClampMode clampMode,
size_t colorBindCount, size_t depthBindCount)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
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return {new MetalTextureR(m_data, factory.m_ctx, width, height, factory.m_ctx->m_sampleCount,
colorBindCount, depthBindCount)};
}
}
ObjToken<IVertexFormat>
MetalDataFactory::Context::newVertexFormat(size_t elementCount, const VertexElementDescriptor* elements,
size_t baseVert, size_t baseInst)
{
@autoreleasepool
{
return {new struct MetalVertexFormat(m_data, elementCount, elements)};
}
}
ObjToken<IShaderPipeline>
MetalDataFactory::Context::newShaderPipeline(const char* vertSource, const char* fragSource,
std::vector<uint8_t>* vertBlobOut,
std::vector<uint8_t>* fragBlobOut,
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const ObjToken<IVertexFormat>& vtxFmt,
BlendFactor srcFac, BlendFactor dstFac, Primitive prim,
ZTest depthTest, bool depthWrite, bool colorWrite,
bool alphaWrite, CullMode culling, bool overwriteAlpha,
bool depthAttachment)
{
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@autoreleasepool
{
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MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
MTLCompileOptions* compOpts = [MTLCompileOptions new];
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compOpts.languageVersion = MTLLanguageVersion1_1;
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NSError* err = nullptr;
XXH64_state_t hashState;
uint64_t srcHashes[2] = {};
uint64_t binHashes[2] = {};
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XXH64_reset(&hashState, 0);
if (vertSource)
{
XXH64_update(&hashState, vertSource, strlen(vertSource));
srcHashes[0] = XXH64_digest(&hashState);
auto binSearch = factory.m_sourceToBinary.find(srcHashes[0]);
if (binSearch != factory.m_sourceToBinary.cend())
binHashes[0] = binSearch->second;
}
else if (vertBlobOut && !vertBlobOut->empty())
{
XXH64_update(&hashState, vertBlobOut->data(), vertBlobOut->size());
binHashes[0] = XXH64_digest(&hashState);
}
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XXH64_reset(&hashState, 0);
if (fragSource)
{
XXH64_update(&hashState, fragSource, strlen(fragSource));
srcHashes[1] = XXH64_digest(&hashState);
auto binSearch = factory.m_sourceToBinary.find(srcHashes[1]);
if (binSearch != factory.m_sourceToBinary.cend())
binHashes[1] = binSearch->second;
}
else if (fragBlobOut && !fragBlobOut->empty())
{
XXH64_update(&hashState, fragBlobOut->data(), fragBlobOut->size());
binHashes[1] = XXH64_digest(&hashState);
}
if (vertBlobOut && vertBlobOut->empty())
binHashes[0] = factory.CompileLib(*vertBlobOut, vertSource, srcHashes[0]);
if (fragBlobOut && fragBlobOut->empty())
binHashes[1] = factory.CompileLib(*fragBlobOut, fragSource, srcHashes[1]);
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MetalShareableShader::Token vertShader;
MetalShareableShader::Token fragShader;
auto vertFind = binHashes[0] ? factory.m_sharedShaders.find(binHashes[0]) :
factory.m_sharedShaders.end();
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if (vertFind != factory.m_sharedShaders.end())
{
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vertShader = vertFind->second->lock();
}
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else
{
id<MTLLibrary> vertShaderLib;
if (vertBlobOut && !vertBlobOut->empty())
{
if ((*vertBlobOut)[0] == 1)
{
dispatch_data_t vertData = dispatch_data_create(vertBlobOut->data() + 1, vertBlobOut->size() - 1, nullptr, nullptr);
vertShaderLib = [factory.m_ctx->m_dev newLibraryWithData:vertData error:&err];
if (!vertShaderLib)
Log.report(logvisor::Fatal, "error loading vert library: %s", [[err localizedDescription] UTF8String]);
}
else
{
factory.CompileLib(vertShaderLib, (char*)vertBlobOut->data() + 1, 0, compOpts, &err);
}
}
else
binHashes[0] = factory.CompileLib(vertShaderLib, vertSource, srcHashes[0], compOpts, &err);
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if (!vertShaderLib)
{
printf("%s\n", vertSource);
Log.report(logvisor::Fatal, "error compiling vert shader: %s", [[err localizedDescription] UTF8String]);
}
id<MTLFunction> vertFunc = [vertShaderLib newFunctionWithName:@"vmain"];
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auto it =
factory.m_sharedShaders.emplace(std::make_pair(binHashes[0],
std::make_unique<MetalShareableShader>(factory, srcHashes[0], binHashes[0], vertFunc))).first;
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vertShader = it->second->lock();
}
auto fragFind = binHashes[1] ? factory.m_sharedShaders.find(binHashes[1]) :
factory.m_sharedShaders.end();
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if (fragFind != factory.m_sharedShaders.end())
{
fragShader = fragFind->second->lock();
}
else
{
id<MTLLibrary> fragShaderLib;
if (fragBlobOut && !fragBlobOut->empty())
{
if ((*fragBlobOut)[0] == 1)
{
dispatch_data_t fragData = dispatch_data_create(fragBlobOut->data() + 1, fragBlobOut->size() - 1, nullptr, nullptr);
fragShaderLib = [factory.m_ctx->m_dev newLibraryWithData:fragData error:&err];
if (!fragShaderLib)
Log.report(logvisor::Fatal, "error loading frag library: %s", [[err localizedDescription] UTF8String]);
}
else
{
factory.CompileLib(fragShaderLib, (char*)fragBlobOut->data() + 1, 0, compOpts, &err);
}
}
else
binHashes[1] = factory.CompileLib(fragShaderLib, fragSource, srcHashes[1], compOpts, &err);
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if (!fragShaderLib)
{
printf("%s\n", fragSource);
Log.report(logvisor::Fatal, "error compiling frag shader: %s", [[err localizedDescription] UTF8String]);
}
id<MTLFunction> fragFunc = [fragShaderLib newFunctionWithName:@"fmain"];
auto it =
factory.m_sharedShaders.emplace(std::make_pair(binHashes[1],
std::make_unique<MetalShareableShader>(factory, srcHashes[1], binHashes[1], fragFunc))).first;
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fragShader = it->second->lock();
}
return {new MetalShaderPipeline(m_data, factory.m_ctx, std::move(vertShader), std::move(fragShader),
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vtxFmt, depthAttachment ? factory.m_ctx->m_sampleCount : 1,
srcFac, dstFac, prim, depthTest, depthWrite,
colorWrite, alphaWrite, overwriteAlpha, culling, depthAttachment)};
}
}
ObjToken<IShaderDataBinding>
MetalDataFactory::Context::newShaderDataBinding(const ObjToken<IShaderPipeline>& pipeline,
const ObjToken<IVertexFormat>& vtxFormat,
const ObjToken<IGraphicsBuffer>& vbo,
const ObjToken<IGraphicsBuffer>& instVbo,
const ObjToken<IGraphicsBuffer>& ibo,
size_t ubufCount, const ObjToken<IGraphicsBuffer>* ubufs, const PipelineStage* ubufStages,
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const size_t* ubufOffs, const size_t* ubufSizes,
size_t texCount, const ObjToken<ITexture>* texs,
const int* texBindIdxs, const bool* depthBind,
size_t baseVert, size_t baseInst)
{
@autoreleasepool
{
MetalDataFactoryImpl& factory = static_cast<MetalDataFactoryImpl&>(m_parent);
return {new MetalShaderDataBinding(m_data,
factory.m_ctx, pipeline, vbo, instVbo, ibo,
ubufCount, ubufs, ubufStages, ubufOffs,
ubufSizes, texCount, texs, texBindIdxs,
depthBind, baseVert, baseInst)};
}
}
void MetalDataFactoryImpl::commitTransaction(const FactoryCommitFunc& trans)
{
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MetalDataFactory::Context ctx(*this);
trans(ctx);
}
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ObjToken<IGraphicsBufferD> MetalDataFactoryImpl::newPoolBuffer(BufferUse use, size_t stride, size_t count)
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{
ObjToken<BaseGraphicsPool> pool(new BaseGraphicsPool(*this));
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MetalCommandQueue* q = static_cast<MetalCommandQueue*>(m_parent->getCommandQueue());
return {new MetalGraphicsBufferD<BaseGraphicsPool>(pool, q, use, m_ctx, stride, count)};
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}
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IGraphicsCommandQueue* _NewMetalCommandQueue(MetalContext* ctx, IWindow* parentWindow,
IGraphicsContext* parent)
{
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return new struct MetalCommandQueue(ctx, parentWindow, parent);
}
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IGraphicsDataFactory* _NewMetalDataFactory(IGraphicsContext* parent, MetalContext* ctx)
{
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return new class MetalDataFactoryImpl(parent, ctx);
}
}
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#endif