metaforce/hecl/lib/Backend/GLSL.cpp

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#include "HECL/Backend/GLSL.hpp"
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#include "HECL/Runtime.hpp"
#include <Athena/MemoryReader.hpp>
#include <Athena/MemoryWriter.hpp>
#include <boo/graphicsdev/GL.hpp>
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#include <boo/graphicsdev/Vulkan.hpp>
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static LogVisor::LogModule Log("HECL::Backend::GLSL");
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namespace HECL
{
namespace Backend
{
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std::string GLSL::EmitTexGenSource2(TexGenSrc src, int uvIdx) const
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{
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switch (src)
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{
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case TexGenSrc::Position:
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return "posIn.xy\n";
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case TexGenSrc::Normal:
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return "normIn.xy\n";
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case TexGenSrc::UV:
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return HECL::Format("uvIn[%u]", uvIdx);
default: break;
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}
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return std::string();
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}
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std::string GLSL::EmitTexGenSource4(TexGenSrc src, int uvIdx) const
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{
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switch (src)
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{
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case TexGenSrc::Position:
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return "vec4(posIn, 1.0)\n";
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case TexGenSrc::Normal:
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return "vec4(normIn, 1.0)\n";
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case TexGenSrc::UV:
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return HECL::Format("vec4(uvIn[%u], 0.0, 1.0)", uvIdx);
default: break;
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}
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return std::string();
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}
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std::string GLSL::GenerateVertInStruct(unsigned col, unsigned uv, unsigned w) const
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{
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std::string retval =
"layout(location=0) in vec3 posIn;\n"
"layout(location=1) in vec3 normIn;\n";
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unsigned idx = 2;
if (col)
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{
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retval += HECL::Format("layout(location=%u) in vec4 colIn[%u];\n", idx, col);
idx += col;
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}
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if (uv)
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{
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retval += HECL::Format("layout(location=%u) in vec2 uvIn[%u];\n", idx, uv);
idx += uv;
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}
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if (w)
{
retval += HECL::Format("layout(location=%u) in vec4 weightIn[%u];\n", idx, w);
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}
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return retval;
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}
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std::string GLSL::GenerateVertToFragStruct() const
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{
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std::string retval =
"struct VertToFrag\n"
"{\n"
" vec4 mvPos;\n"
" vec4 mvNorm;\n";
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if (m_tcgs.size())
retval += HECL::Format(" vec2 tcgs[%u];\n", unsigned(m_tcgs.size()));
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return retval + "};\n";
}
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std::string GLSL::GenerateVertUniformStruct(unsigned skinSlots, unsigned texMtxs) const
{
if (skinSlots == 0)
skinSlots = 1;
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std::string retval = HECL::Format("uniform HECLVertUniform\n"
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"{\n"
" mat4 mv[%u];\n"
" mat4 mvInv[%u];\n"
" mat4 proj;\n",
skinSlots, skinSlots);
if (texMtxs)
retval += HECL::Format(" mat4 texMtxs[%u];\n", texMtxs);
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return retval + "};\n";
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}
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void GLSL::reset(const IR& ir, Diagnostics& diag)
{
/* Common programmable interpretation */
ProgrammableCommon::reset(ir, diag, "GLSL");
}
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std::string GLSL::makeVert(const char* glslVer, unsigned col, unsigned uv, unsigned w,
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unsigned s, unsigned tm) const
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{
std::string retval = std::string(glslVer) + "\n" +
GenerateVertInStruct(col, uv, w) + "\n" +
GenerateVertToFragStruct() + "\n" +
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GenerateVertUniformStruct(s, tm) +
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"out VertToFrag vtf;\n\n"
"void main()\n{\n";
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if (s)
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{
/* skinned */
retval += " vec4 posAccum = vec4(0.0,0.0,0.0,0.0);\n"
" vec4 normAccum = vec4(0.0,0.0,0.0,0.0);\n";
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for (size_t i=0 ; i<s ; ++i)
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retval += HECL::Format(" posAccum += (mv[%" PRISize "] * vec4(posIn, 1.0)) * weightIn[%" PRISize "][%" PRISize "];\n"
" normAccum += (mvInv[%" PRISize "] * vec4(normIn, 1.0)) * weightIn[%" PRISize "][%" PRISize "];\n",
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i, i/4, i%4, i, i/4, i%4);
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retval += " posAccum[3] = 1.0;\n"
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" vtf.mvPos = posAccum;\n"
" vtf.mvNorm = vec4(normalize(normAccum.xyz), 0.0);\n"
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" gl_Position = proj * posAccum;\n";
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}
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else
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{
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/* non-skinned */
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retval += " vtf.mvPos = mv[0] * vec4(posIn, 1.0);\n"
" vtf.mvNorm = mvInv[0] * vec4(normIn, 0.0);\n"
" gl_Position = proj * vtf.mvPos;\n";
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}
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int tcgIdx = 0;
for (const TexCoordGen& tcg : m_tcgs)
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{
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if (tcg.m_mtx < 0)
retval += HECL::Format(" vtf.tcgs[%u] = %s;\n", tcgIdx,
EmitTexGenSource2(tcg.m_src, tcg.m_uvIdx).c_str());
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else
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retval += HECL::Format(" vtf.tcgs[%u] = (texMtxs[%u] * %s).xy;\n", tcgIdx, tcg.m_mtx,
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EmitTexGenSource4(tcg.m_src, tcg.m_uvIdx).c_str());
++tcgIdx;
}
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return retval + "}\n";
}
std::string GLSL::makeFrag(const char* glslVer,
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const ShaderFunction& lighting) const
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{
std::string lightingSrc;
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if (lighting.m_source)
lightingSrc = lighting.m_source;
std::string texMapDecl;
if (m_texMapEnd)
texMapDecl = HECL::Format("uniform sampler2D texs[%u];\n", m_texMapEnd);
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std::string retval = std::string(glslVer) + "\n" +
GenerateVertToFragStruct() +
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"\nlayout(location=0) out vec4 colorOut;\n" +
texMapDecl +
"in VertToFrag vtf;\n\n" +
lightingSrc + "\n" +
"void main()\n{\n";
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if (m_lighting)
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{
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if (lighting.m_entry)
retval += HECL::Format(" vec4 lighting = %s();\n", lighting.m_entry);
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else
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retval += " vec4 lighting = vec4(1.0,1.0,1.0,1.0);\n";
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}
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unsigned sampIdx = 0;
for (const TexSampling& sampling : m_texSamplings)
retval += HECL::Format(" vec4 sampling%u = texture(texs[%u], vtf.tcgs[%u]);\n",
sampIdx++, sampling.mapIdx, sampling.tcgIdx);
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if (m_alphaExpr.size())
retval += " colorOut = vec4(" + m_colorExpr + ", " + m_alphaExpr + ");\n";
else
retval += " colorOut = vec4(" + m_colorExpr + ", 1.0);\n";
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return retval + "}\n";
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}
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std::string GLSL::makeFrag(const char* glslVer,
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const ShaderFunction& lighting,
const ShaderFunction& post) const
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{
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std::string lightingSrc;
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if (lighting.m_source)
lightingSrc = lighting.m_source;
std::string postSrc;
if (post.m_source)
postSrc = post.m_source;
std::string postEntry;
if (post.m_entry)
postEntry = post.m_entry;
std::string texMapDecl;
if (m_texMapEnd)
texMapDecl = HECL::Format("uniform sampler2D texs[%u];\n", m_texMapEnd);
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std::string retval = std::string(glslVer) + "\n" +
GenerateVertToFragStruct() +
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"\nlayout(location=0) out vec4 colorOut;\n" +
texMapDecl +
"in VertToFrag vtf;\n\n" +
lightingSrc + "\n" +
postSrc +
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"\nvoid main()\n{\n";
if (m_lighting)
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{
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if (lighting.m_entry)
retval += HECL::Format(" vec4 lighting = %s();\n", lighting.m_entry);
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else
retval += " vec4 lighting = vec4(1.0,1.0,1.0,1.0);\n";
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}
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unsigned sampIdx = 0;
for (const TexSampling& sampling : m_texSamplings)
retval += HECL::Format(" vec4 sampling%u = texture(texs[%u], vtf.tcgs[%u]);\n",
sampIdx++, sampling.mapIdx, sampling.tcgIdx);
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if (m_alphaExpr.size())
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retval += " colorOut = " + postEntry + "(vec4(" + m_colorExpr + ", " + m_alphaExpr + "));\n";
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else
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retval += " colorOut = " + postEntry + "(vec4(" + m_colorExpr + ", 1.0));\n";
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return retval + "}\n";
}
}
namespace Runtime
{
static const char* STD_BLOCKNAMES[] = {"HECLVertUniform"};
struct GLSLBackendFactory : IShaderBackendFactory
{
Backend::GLSL m_backend;
boo::GLDataFactory* m_gfxFactory;
GLSLBackendFactory(boo::IGraphicsDataFactory* gfxFactory)
: m_gfxFactory(dynamic_cast<boo::GLDataFactory*>(gfxFactory)) {}
ShaderCachedData buildShaderFromIR(const ShaderTag& tag,
const HECL::Frontend::IR& ir,
HECL::Frontend::Diagnostics& diag,
boo::IShaderPipeline** objOut)
{
m_backend.reset(ir, diag);
size_t cachedSz = 3;
std::string vertSource =
m_backend.makeVert("#version 330",
tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), tag.getTexMtxCount());
cachedSz += vertSource.size() + 1;
std::string fragSource = m_backend.makeFrag("#version 330");
cachedSz += fragSource.size() + 1;
*objOut =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
m_backend.m_texMapEnd, "texs",
1, STD_BLOCKNAMES,
m_backend.m_blendSrc, m_backend.m_blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!*objOut)
Log.report(LogVisor::FatalError, "unable to build shader");
ShaderCachedData dataOut(tag, cachedSz);
Athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
w.writeUByte(m_backend.m_texMapEnd);
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w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
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w.writeString(vertSource);
w.writeString(fragSource);
return dataOut;
}
boo::IShaderPipeline* buildShaderFromCache(const ShaderCachedData& data)
{
const ShaderTag& tag = data.m_tag;
Athena::io::MemoryReader r(data.m_data.get(), data.m_sz);
atUint8 texMapEnd = r.readUByte();
boo::BlendFactor blendSrc = boo::BlendFactor(r.readUByte());
boo::BlendFactor blendDst = boo::BlendFactor(r.readUByte());
std::string vertSource = r.readString();
std::string fragSource = r.readString();
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
texMapEnd, "texs",
1, STD_BLOCKNAMES,
blendSrc, blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
return ret;
}
ShaderCachedData buildExtendedShaderFromIR(const ShaderTag& tag,
const HECL::Frontend::IR& ir,
HECL::Frontend::Diagnostics& diag,
const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
FReturnExtensionShader returnFunc)
{
m_backend.reset(ir, diag);
size_t cachedSz = 3;
std::string vertSource =
m_backend.makeVert("#version 330",
tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), tag.getTexMtxCount());
cachedSz += vertSource.size() + 1;
std::vector<std::string> fragSources;
fragSources.reserve(extensionSlots.size());
for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
fragSources.push_back(m_backend.makeFrag("#version 330", slot.lighting, slot.post));
cachedSz += fragSources.back().size() + 1;
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSources.back().c_str(),
m_backend.m_texMapEnd, "texs",
1, STD_BLOCKNAMES,
m_backend.m_blendSrc, m_backend.m_blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
returnFunc(ret);
}
ShaderCachedData dataOut(tag, cachedSz);
Athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
w.writeUByte(m_backend.m_texMapEnd);
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w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
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w.writeString(vertSource);
for (const std::string src : fragSources)
w.writeString(src);
return dataOut;
}
void buildExtendedShaderFromCache(const ShaderCachedData& data,
const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
FReturnExtensionShader returnFunc)
{
const ShaderTag& tag = data.m_tag;
Athena::io::MemoryReader r(data.m_data.get(), data.m_sz);
atUint8 texMapEnd = r.readUByte();
boo::BlendFactor blendSrc = boo::BlendFactor(r.readUByte());
boo::BlendFactor blendDst = boo::BlendFactor(r.readUByte());
std::string vertSource = r.readString();
for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
std::string fragSource = r.readString();
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
texMapEnd, "texs",
1, STD_BLOCKNAMES,
blendSrc, blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
returnFunc(ret);
}
}
};
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struct SPIRVBackendFactory : IShaderBackendFactory
{
Backend::GLSL m_backend;
boo::VulkanDataFactory* m_gfxFactory;
SPIRVBackendFactory(boo::IGraphicsDataFactory* gfxFactory)
: m_gfxFactory(dynamic_cast<boo::VulkanDataFactory*>(gfxFactory)) {}
ShaderCachedData buildShaderFromIR(const ShaderTag& tag,
const HECL::Frontend::IR& ir,
HECL::Frontend::Diagnostics& diag,
boo::IShaderPipeline** objOut)
{
m_backend.reset(ir, diag);
std::string vertSource =
m_backend.makeVert("#version 330",
tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), tag.getTexMtxCount());
std::string fragSource = m_backend.makeFrag("#version 330");
std::vector<unsigned int> vertBlob;
std::vector<unsigned int> fragBlob;
std::vector<unsigned int> pipelineBlob;
*objOut =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
vertBlob, fragBlob, pipelineBlob,
m_backend.m_texMapEnd, "texs",
1, STD_BLOCKNAMES,
m_backend.m_blendSrc, m_backend.m_blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!*objOut)
Log.report(LogVisor::FatalError, "unable to build shader");
atUint32 vertSz = vertBlob.size() * sizeof(unsigned int);
atUint32 fragSz = fragBlob.size() * sizeof(unsigned int);
atUint32 pipelineSz = pipelineBlob.size() * sizeof(unsigned int);
size_t cachedSz = 15 + vertSz + fragSz + pipelineSz;
ShaderCachedData dataOut(tag, cachedSz);
Athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
w.writeUByte(atUint8(m_backend.m_texMapEnd));
w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
if (vertBlob.size())
{
w.writeUint32Big(vertSz);
w.writeUBytes((atUint8*)vertBlob.data(), vertSz);
}
else
w.writeUint32Big(0);
if (fragBlob.size())
{
w.writeUint32Big(fragSz);
w.writeUBytes((atUint8*)fragBlob.data(), fragSz);
}
else
w.writeUint32Big(0);
if (pipelineBlob.size())
{
w.writeUint32Big(pipelineSz);
w.writeUBytes((atUint8*)pipelineBlob.data(), pipelineSz);
}
else
w.writeUint32Big(0);
return dataOut;
}
boo::IShaderPipeline* buildShaderFromCache(const ShaderCachedData& data)
{
const ShaderTag& tag = data.m_tag;
Athena::io::MemoryReader r(data.m_data.get(), data.m_sz);
size_t texCount = size_t(r.readByte());
boo::BlendFactor blendSrc = boo::BlendFactor(r.readUByte());
boo::BlendFactor blendDst = boo::BlendFactor(r.readUByte());
atUint32 vertSz = r.readUint32Big();
std::vector<unsigned int> vertBlob(vertSz / sizeof(unsigned int));
if (vertSz)
r.readUBytesToBuf(vertBlob.data(), vertSz);
atUint32 fragSz = r.readUint32Big();
std::vector<unsigned int> fragBlob(fragSz / sizeof(unsigned int));
if (fragSz)
r.readUBytesToBuf(fragBlob.data(), fragSz);
atUint32 pipelineSz = r.readUint32Big();
std::vector<unsigned int> pipelineBlob(pipelineSz / sizeof(unsigned int));
if (pipelineSz)
r.readUBytesToBuf(pipelineBlob.data(), pipelineSz);
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(nullptr, nullptr,
vertBlob, fragBlob, pipelineBlob,
texCount, "texs",
1, STD_BLOCKNAMES,
blendSrc, blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
return ret;
}
ShaderCachedData buildExtendedShaderFromIR(const ShaderTag& tag,
const HECL::Frontend::IR& ir,
HECL::Frontend::Diagnostics& diag,
const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
FReturnExtensionShader returnFunc)
{
m_backend.reset(ir, diag);
std::string vertSource =
m_backend.makeVert("#version 330",
tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), tag.getTexMtxCount());
std::vector<unsigned int> vertBlob;
std::vector<std::pair<std::vector<unsigned int>, std::vector<unsigned int>>> fragPipeBlobs;
fragPipeBlobs.reserve(extensionSlots.size());
size_t cachedSz = 7 + 8 * extensionSlots.size();
for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
std::string fragSource = m_backend.makeFrag("#version 330", slot.lighting, slot.post);
fragPipeBlobs.emplace_back();
std::pair<std::vector<unsigned int>, std::vector<unsigned int>>& fragPipeBlob = fragPipeBlobs.back();
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
vertBlob, fragPipeBlob.first, fragPipeBlob.second,
m_backend.m_texMapEnd, "texs",
1, STD_BLOCKNAMES,
m_backend.m_blendSrc, m_backend.m_blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
cachedSz += fragPipeBlob.first.size() * sizeof(unsigned int);
cachedSz += fragPipeBlob.second.size() * sizeof(unsigned int);
returnFunc(ret);
}
size_t vertBlobSz = vertBlob.size() * sizeof(unsigned int);
cachedSz += vertBlobSz;
ShaderCachedData dataOut(tag, cachedSz);
Athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
w.writeUByte(atUint8(m_backend.m_texMapEnd));
w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
if (vertBlobSz)
{
w.writeUint32Big(vertBlobSz);
w.writeUBytes((atUint8*)vertBlob.data(), vertBlobSz);
}
else
w.writeUint32Big(0);
for (const std::pair<std::vector<unsigned int>, std::vector<unsigned int>>& fragPipeBlob : fragPipeBlobs)
{
size_t fragBlobSz = fragPipeBlob.first.size() * sizeof(unsigned int);
size_t pipeBlobSz = fragPipeBlob.second.size() * sizeof(unsigned int);
if (fragBlobSz)
{
w.writeUint32Big(fragBlobSz);
w.writeUBytes((atUint8*)fragPipeBlob.first.data(), fragBlobSz);
}
else
w.writeUint32Big(0);
if (pipeBlobSz)
{
w.writeUint32Big(pipeBlobSz);
w.writeUBytes((atUint8*)fragPipeBlob.second.data(), pipeBlobSz);
}
else
w.writeUint32Big(0);
}
return dataOut;
}
void buildExtendedShaderFromCache(const ShaderCachedData& data,
const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
FReturnExtensionShader returnFunc)
{
const ShaderTag& tag = data.m_tag;
Athena::io::MemoryReader r(data.m_data.get(), data.m_sz);
size_t texCount = size_t(r.readByte());
boo::BlendFactor blendSrc = boo::BlendFactor(r.readUByte());
boo::BlendFactor blendDst = boo::BlendFactor(r.readUByte());
atUint32 vertSz = r.readUint32Big();
std::vector<unsigned int> vertBlob(vertSz / sizeof(unsigned int));
if (vertSz)
r.readUBytesToBuf(vertBlob.data(), vertSz);
for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
atUint32 fragSz = r.readUint32Big();
std::vector<unsigned int> fragBlob(fragSz / sizeof(unsigned int));
if (fragSz)
r.readUBytesToBuf(fragBlob.data(), fragSz);
atUint32 pipelineSz = r.readUint32Big();
std::vector<unsigned int> pipelineBlob(pipelineSz / sizeof(unsigned int));
if (pipelineSz)
r.readUBytesToBuf(pipelineBlob.data(), pipelineSz);
boo::IShaderPipeline* ret =
m_gfxFactory->newShaderPipeline(nullptr, nullptr,
vertBlob, fragBlob, pipelineBlob,
texCount, "texs",
1, STD_BLOCKNAMES,
blendSrc, blendDst,
tag.getDepthTest(), tag.getDepthWrite(),
tag.getBackfaceCulling());
if (!ret)
Log.report(LogVisor::FatalError, "unable to build shader");
returnFunc(ret);
}
}
};
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IShaderBackendFactory* _NewGLSLBackendFactory(boo::IGraphicsDataFactory* gfxFactory)
{
return new struct GLSLBackendFactory(gfxFactory);
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}
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IShaderBackendFactory* _NewSPIRVBackendFactory(boo::IGraphicsDataFactory* gfxFactory)
{
//return new struct SPIRVBackendFactory(gfxFactory);
return nullptr;
}
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}
}