metaforce/hecl/lib/Backend/HLSL.cpp

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#include "hecl/Backend/HLSL.hpp"
#include "hecl/Runtime.hpp"
#include <athena/MemoryReader.hpp>
#include <athena/MemoryWriter.hpp>
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#include <boo/graphicsdev/D3D.hpp>
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static logvisor::Module Log("hecl::Backend::HLSL");
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namespace hecl::Backend
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{
std::string HLSL::EmitTexGenSource2(TexGenSrc src, int uvIdx) const
{
switch (src)
{
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case TexGenSrc::Position:
return "vtf.mvPos.xy\n";
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case TexGenSrc::Normal:
return "vtf.mvNorm.xy\n";
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case TexGenSrc::UV:
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return hecl::Format("v.uvIn[%u]", uvIdx);
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default: break;
}
return std::string();
}
std::string HLSL::EmitTexGenSource4(TexGenSrc src, int uvIdx) const
{
switch (src)
{
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case TexGenSrc::Position:
return "float4(vtf.mvPos.xyz, 1.0)\n";
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case TexGenSrc::Normal:
return "float4(vtf.mvNorm.xyz, 1.0)\n";
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case TexGenSrc::UV:
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return hecl::Format("float4(v.uvIn[%u], 0.0, 1.0)", uvIdx);
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default: break;
}
return std::string();
}
std::string HLSL::GenerateVertInStruct(unsigned col, unsigned uv, unsigned w) const
{
std::string retval =
"struct VertData\n"
"{\n"
" float3 posIn : POSITION;\n"
" float3 normIn : NORMAL;\n";
if (col)
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retval += hecl::Format(" float4 colIn[%u] : COLOR;\n", col);
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if (uv)
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retval += hecl::Format(" float2 uvIn[%u] : UV;\n", uv);
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if (w)
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retval += hecl::Format(" float4 weightIn[%u] : WEIGHT;\n", w);
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return retval + "};\n";
}
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std::string HLSL::GenerateVertToFragStruct(size_t extTexCount, bool reflectionCoords) const
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{
std::string retval =
"struct VertToFrag\n"
"{\n"
" float4 mvpPos : SV_Position;\n"
" float4 mvPos : POSITION;\n"
" float4 mvNorm : NORMAL;\n";
if (m_tcgs.size())
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retval += hecl::Format(" float2 tcgs[%u] : UV;\n", unsigned(m_tcgs.size()));
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if (extTexCount)
retval += hecl::Format(" float2 extTcgs[%u] : EXTUV;\n", unsigned(extTexCount));
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if (reflectionCoords)
retval += " float2 reflectTcgs[2] : REFLECTUV;\n"
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" float reflectAlpha : REFLECTALPHA;\n";
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return retval + "};\n";
}
std::string HLSL::GenerateVertUniformStruct(unsigned skinSlots, bool reflectionCoords) const
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{
if (skinSlots == 0)
skinSlots = 1;
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std::string retval = hecl::Format("cbuffer HECLVertUniform : register(b0)\n"
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"{\n"
" float4x4 mv[%u];\n"
" float4x4 mvInv[%u];\n"
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" float4x4 proj;\n"
"};\n",
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skinSlots, skinSlots);
retval += "struct TCGMtx\n"
"{\n"
" float4x4 mtx;\n"
" float4x4 postMtx;\n"
"};\n"
"cbuffer HECLTCGMatrix : register(b1)\n"
"{\n"
" TCGMtx texMtxs[8];\n"
"};\n";
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if (reflectionCoords)
retval += "cbuffer HECLReflectMtx : register(b3)\n"
"{\n"
" float4x4 indMtx;\n"
" float4x4 reflectMtx;\n"
" float reflectAlpha;\n"
"};\n"
"\n";
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return retval;
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}
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std::string HLSL::GenerateAlphaTest() const
{
return " if (colorOut.a < 0.01)\n"
" {\n"
" discard;\n"
" }\n";
}
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std::string HLSL::GenerateReflectionExpr(ReflectionType type) const
{
switch (type)
{
case ReflectionType::None:
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default:
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return "float3(0.0, 0.0, 0.0)";
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case ReflectionType::Simple:
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return "reflectionTex.Sample(samp, vtf.reflectTcgs[1]).rgb * vtf.reflectAlpha";
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case ReflectionType::Indirect:
return "reflectionTex.Sample(samp, (reflectionIndTex.Sample(samp, vtf.reflectTcgs[0]).rg - "
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"float2(0.5, 0.5)) * float2(0.5, 0.5) + vtf.reflectTcgs[1]).rgb * vtf.reflectAlpha";
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}
}
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void HLSL::reset(const IR& ir, Diagnostics& diag)
{
/* Common programmable interpretation */
ProgrammableCommon::reset(ir, diag, "HLSL");
}
std::string HLSL::makeVert(unsigned col, unsigned uv, unsigned w,
unsigned s, size_t extTexCount,
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const TextureInfo* extTexs, ReflectionType reflectionType) const
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{
std::string retval =
GenerateVertInStruct(col, uv, w) + "\n" +
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GenerateVertToFragStruct(extTexCount, reflectionType != ReflectionType::None) + "\n" +
GenerateVertUniformStruct(s, reflectionType != ReflectionType::None) + "\n" +
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"VertToFrag main(in VertData v)\n"
"{\n"
" VertToFrag vtf;\n";
if (s)
{
/* skinned */
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retval += " float4 posAccum = float4(0.0,0.0,0.0,0.0);\n"
" float4 normAccum = float4(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 += mul(mv[%" PRISize "], float4(v.posIn, 1.0)) * v.weightIn[%" PRISize "][%" PRISize "];\n"
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" normAccum += mul(mvInv[%" PRISize "], float4(v.normIn, 1.0)) * v.weightIn[%" PRISize "][%" PRISize "];\n",
i, i/4, i%4, i, i/4, i%4);
retval += " posAccum[3] = 1.0;\n"
" vtf.mvPos = posAccum;\n"
" vtf.mvNorm = float4(normalize(normAccum.xyz), 0.0);\n"
" vtf.mvpPos = mul(proj, posAccum);\n";
}
else
{
/* non-skinned */
retval += " vtf.mvPos = mul(mv[0], float4(v.posIn, 1.0));\n"
" vtf.mvNorm = mul(mvInv[0], float4(v.normIn, 0.0));\n"
" vtf.mvpPos = mul(proj, vtf.mvPos);\n";
}
retval += " float4 tmpProj;\n";
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int tcgIdx = 0;
for (const TexCoordGen& tcg : m_tcgs)
{
if (tcg.m_mtx < 0)
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retval += hecl::Format(" vtf.tcgs[%u] = %s;\n", tcgIdx,
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EmitTexGenSource2(tcg.m_src, tcg.m_uvIdx).c_str());
else
retval += hecl::Format(" tmpProj = mul(texMtxs[%u].postMtx, float4(%s(mul(texMtxs[%u].mtx, %s).xyz), 1.0));\n"
" vtf.tcgs[%u] = (tmpProj / tmpProj.w).xy;\n", tcg.m_mtx,
tcg.m_norm ? "normalize" : "", tcg.m_mtx,
EmitTexGenSource4(tcg.m_src, tcg.m_uvIdx).c_str(), tcgIdx);
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++tcgIdx;
}
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for (int i=0 ; i<extTexCount ; ++i)
{
const TextureInfo& extTex = extTexs[i];
if (extTex.mtxIdx < 0)
retval += hecl::Format(" vtf.extTcgs[%u] = %s;\n", i,
EmitTexGenSource2(extTex.src, extTex.uvIdx).c_str());
else
retval += hecl::Format(" tmpProj = mul(texMtxs[%u].postMtx, float4(%s(mul(texMtxs[%u].mtx, %s).xyz), 1.0));\n"
" vtf.extTcgs[%u] = (tmpProj / tmpProj.w).xy;\n",
extTex.mtxIdx, extTex.normalize ? "normalize" : "", extTex.mtxIdx,
EmitTexGenSource4(extTex.src, extTex.uvIdx).c_str(), i);
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}
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if (reflectionType != ReflectionType::None)
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retval += " vtf.reflectTcgs[0] = normalize(mul(indMtx, float4(v.posIn, 1.0)).xz) * float2(0.5, 0.5) + float2(0.5, 0.5);\n"
" vtf.reflectTcgs[1] = mul(reflectMtx, float4(v.posIn, 1.0)).xy;\n"
" vtf.reflectAlpha = reflectAlpha;\n";
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return retval + " return vtf;\n"
"}\n";
}
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std::string HLSL::makeFrag(bool alphaTest, ReflectionType reflectionType,
const ShaderFunction& lighting) const
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{
std::string lightingSrc;
if (lighting.m_source)
lightingSrc = lighting.m_source;
else
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lightingSrc = "static const float4 colorReg0 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 colorReg1 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 colorReg2 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 mulColor = float4(1.0, 1.0, 1.0, 1.0);\n";
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std::string texMapDecl;
if (m_texMapEnd)
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texMapDecl = hecl::Format("Texture2D texs[%u] : register(t0);\n", m_texMapEnd);
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if (reflectionType == ReflectionType::Indirect)
texMapDecl += hecl::Format("Texture2D reflectionIndTex : register(t%u);\n"
"Texture2D reflectionTex : register(t%u);\n",
m_texMapEnd, m_texMapEnd+1);
else if (reflectionType == ReflectionType::Simple)
texMapDecl += hecl::Format("Texture2D reflectionTex : register(t%u);\n",
m_texMapEnd);
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std::string retval =
"SamplerState samp : register(s0);\n"
"SamplerState clampSamp : register(s1);\n" +
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GenerateVertToFragStruct(0, reflectionType != ReflectionType::None) +
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texMapDecl + "\n" +
lightingSrc + "\n" +
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(!alphaTest ? "\n[earlydepthstencil]\n" : "\n") +
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"float4 main(in VertToFrag vtf) : SV_Target0\n{\n";
if (m_lighting)
{
if (lighting.m_entry)
retval += hecl::Format(" float4 lighting = %s(vtf.mvPos, vtf.mvNorm, vtf);\n", lighting.m_entry);
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else
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retval += " float4 lighting = float4(1.0,1.0,1.0,1.0);\n";
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}
unsigned sampIdx = 0;
for (const TexSampling& sampling : m_texSamplings)
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retval += hecl::Format(" float4 sampling%u = texs[%u].Sample(samp, vtf.tcgs[%u]);\n",
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sampIdx++, sampling.mapIdx, sampling.tcgIdx);
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std::string reflectionExpr = GenerateReflectionExpr(reflectionType);
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retval += " float4 colorOut;\n";
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if (m_alphaExpr.size())
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retval += " colorOut = float4(" + m_colorExpr + " + " + reflectionExpr + ", " + m_alphaExpr + ") * mulColor;\n";
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else
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retval += " colorOut = float4(" + m_colorExpr + " + " + reflectionExpr + ", 1.0) * mulColor;\n";
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return retval + (alphaTest ? GenerateAlphaTest() : "") + " return colorOut;\n}\n";
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}
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std::string HLSL::makeFrag(bool alphaTest, ReflectionType reflectionType,
const ShaderFunction& lighting,
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const ShaderFunction& post, size_t extTexCount,
const TextureInfo* extTexs) const
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{
std::string lightingSrc;
if (lighting.m_source)
lightingSrc = lighting.m_source;
else
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lightingSrc = "static const float4 colorReg0 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 colorReg1 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 colorReg2 = float4(1.0, 1.0, 1.0, 1.0);\n"
"static const float4 mulColor = float4(1.0, 1.0, 1.0, 1.0);\n";
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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)
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texMapDecl = hecl::Format("Texture2D texs[%u] : register(t0);\n", m_texMapEnd);
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if (reflectionType == ReflectionType::Indirect)
texMapDecl += hecl::Format("Texture2D reflectionIndTex : register(t%u);\n"
"Texture2D reflectionTex : register(t%u);\n",
m_texMapEnd, m_texMapEnd+1);
else if (reflectionType == ReflectionType::Simple)
texMapDecl += hecl::Format("Texture2D reflectionTex : register(t%u);\n",
m_texMapEnd);
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for (int i=0 ; i<extTexCount ; ++i)
{
const TextureInfo& extTex = extTexs[i];
texMapDecl += hecl::Format("Texture2D extTex%u : register(t%u);\n",
extTex.mapIdx, extTex.mapIdx);
}
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std::string retval =
"SamplerState samp : register(s0);\n"
"SamplerState clampSamp : register(s1);\n" +
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GenerateVertToFragStruct(extTexCount, reflectionType != ReflectionType::None) +
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texMapDecl + "\n" +
lightingSrc + "\n" +
postSrc +
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(!alphaTest ? "\n[earlydepthstencil]\n" : "\n") +
"float4 main(in VertToFrag vtf) : SV_Target0\n{\n";
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if (m_lighting)
{
if (lighting.m_entry)
retval += hecl::Format(" float4 lighting = %s(vtf.mvPos, vtf.mvNorm, vtf);\n", lighting.m_entry);
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else
retval += " float4 lighting = float4(1.0,1.0,1.0,1.0);\n";
}
unsigned sampIdx = 0;
for (const TexSampling& sampling : m_texSamplings)
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retval += hecl::Format(" float4 sampling%u = texs[%u].Sample(samp, vtf.tcgs[%u]);\n",
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sampIdx++, sampling.mapIdx, sampling.tcgIdx);
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std::string reflectionExpr = GenerateReflectionExpr(reflectionType);
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retval += " float4 colorOut;\n";
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if (m_alphaExpr.size())
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retval += " colorOut = " + postEntry + "(" + (postEntry.size() ? "vtf, " : "") + "float4(" + m_colorExpr + " + " + reflectionExpr + ", " + m_alphaExpr + ")) * mulColor;\n";
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else
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retval += " colorOut = " + postEntry + "(" + (postEntry.size() ? "vtf, " : "") + "float4(" + m_colorExpr + " + " + reflectionExpr + ", 1.0)) * mulColor;\n";
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return retval + (alphaTest ? GenerateAlphaTest() : "") + " return colorOut;\n}\n";
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}
}
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namespace hecl::Runtime
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{
struct HLSLBackendFactory : IShaderBackendFactory
{
Backend::HLSL m_backend;
ShaderCachedData buildShaderFromIR(const ShaderTag& tag,
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const hecl::Frontend::IR& ir,
hecl::Frontend::Diagnostics& diag,
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boo::IGraphicsDataFactory::Context& ctx,
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boo::ObjToken<boo::IShaderPipeline>& objOut)
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{
m_backend.reset(ir, diag);
std::string vertSource =
m_backend.makeVert(tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), 0, nullptr,
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tag.getReflectionType());
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std::string fragSource = m_backend.makeFrag(tag.getDepthWrite() && m_backend.m_blendDst == hecl::Backend::BlendFactor::InvSrcAlpha,
tag.getReflectionType());
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ComPtr<ID3DBlob> vertBlob;
ComPtr<ID3DBlob> fragBlob;
ComPtr<ID3DBlob> pipelineBlob;
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objOut =
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static_cast<boo::D3DDataFactory::Context&>(ctx).
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newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
ReferenceComPtr(vertBlob), ReferenceComPtr(fragBlob), ReferenceComPtr(pipelineBlob),
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tag.newVertexFormat(ctx),
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boo::BlendFactor(m_backend.m_blendSrc),
boo::BlendFactor(m_backend.m_blendDst),
tag.getPrimType(),
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tag.getDepthTest() ? boo::ZTest::LEqual : boo::ZTest::None, tag.getDepthWrite(), true, false,
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tag.getBackfaceCulling() ? boo::CullMode::Backface : boo::CullMode::None);
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if (!objOut)
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Log.report(logvisor::Fatal, "unable to build shader");
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atUint32 vertSz = 0;
atUint32 fragSz = 0;
atUint32 pipelineSz = 0;
if (vertBlob)
vertSz = vertBlob->GetBufferSize();
if (fragBlob)
fragSz = fragBlob->GetBufferSize();
if (pipelineBlob)
pipelineSz = pipelineBlob->GetBufferSize();
size_t cachedSz = 14 + vertSz + fragSz + pipelineSz;
ShaderCachedData dataOut(tag, cachedSz);
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athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
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w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
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if (vertBlob)
{
w.writeUint32Big(vertSz);
w.writeUBytes((atUint8*)vertBlob->GetBufferPointer(), vertSz);
}
else
w.writeUint32Big(0);
if (fragBlob)
{
w.writeUint32Big(fragSz);
w.writeUBytes((atUint8*)fragBlob->GetBufferPointer(), fragSz);
}
else
w.writeUint32Big(0);
if (pipelineBlob)
{
w.writeUint32Big(pipelineSz);
w.writeUBytes((atUint8*)pipelineBlob->GetBufferPointer(), pipelineSz);
}
else
w.writeUint32Big(0);
return dataOut;
}
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boo::ObjToken<boo::IShaderPipeline>
buildShaderFromCache(const ShaderCachedData& data,
boo::IGraphicsDataFactory::Context& ctx)
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{
const ShaderTag& tag = data.m_tag;
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athena::io::MemoryReader r(data.m_data.get(), data.m_sz, false, false);
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boo::BlendFactor blendSrc = boo::BlendFactor(r.readUByte());
boo::BlendFactor blendDst = boo::BlendFactor(r.readUByte());
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if (r.hasError())
return nullptr;
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atUint32 vertSz = r.readUint32Big();
ComPtr<ID3DBlob> vertBlob;
if (vertSz)
{
D3DCreateBlobPROC(vertSz, &vertBlob);
r.readUBytesToBuf(vertBlob->GetBufferPointer(), vertSz);
}
atUint32 fragSz = r.readUint32Big();
ComPtr<ID3DBlob> fragBlob;
if (fragSz)
{
D3DCreateBlobPROC(fragSz, &fragBlob);
r.readUBytesToBuf(fragBlob->GetBufferPointer(), fragSz);
}
atUint32 pipelineSz = r.readUint32Big();
ComPtr<ID3DBlob> pipelineBlob;
if (pipelineSz)
{
D3DCreateBlobPROC(pipelineSz, &pipelineBlob);
r.readUBytesToBuf(pipelineBlob->GetBufferPointer(), pipelineSz);
}
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if (r.hasError())
return nullptr;
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boo::ObjToken<boo::IShaderPipeline> ret =
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static_cast<boo::D3DDataFactory::Context&>(ctx).
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newShaderPipeline(nullptr, nullptr,
ReferenceComPtr(vertBlob), ReferenceComPtr(fragBlob), ReferenceComPtr(pipelineBlob),
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tag.newVertexFormat(ctx),
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blendSrc, blendDst, tag.getPrimType(),
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tag.getDepthTest() ? boo::ZTest::LEqual : boo::ZTest::None, tag.getDepthWrite(), true, false,
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tag.getBackfaceCulling() ? boo::CullMode::Backface : boo::CullMode::None);
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if (!ret)
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Log.report(logvisor::Fatal, "unable to build shader");
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return ret;
}
ShaderCachedData buildExtendedShaderFromIR(const ShaderTag& tag,
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const hecl::Frontend::IR& ir,
hecl::Frontend::Diagnostics& diag,
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const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
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boo::IGraphicsDataFactory::Context& ctx,
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FReturnExtensionShader returnFunc)
{
m_backend.reset(ir, diag);
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struct Blobs
{
ComPtr<ID3DBlob> vert;
ComPtr<ID3DBlob> frag;
ComPtr<ID3DBlob> pipeline;
};
std::vector<Blobs> pipeBlobs;
pipeBlobs.reserve(extensionSlots.size());
size_t cachedSz = 2 + 12 * extensionSlots.size();
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for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
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std::string vertSource =
m_backend.makeVert(tag.getColorCount(), tag.getUvCount(), tag.getWeightCount(),
tag.getSkinSlotCount(), slot.texCount, slot.texs,
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tag.getReflectionType());
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std::string fragSource = m_backend.makeFrag(tag.getDepthWrite() && m_backend.m_blendDst == hecl::Backend::BlendFactor::InvSrcAlpha,
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tag.getReflectionType(), slot.lighting, slot.post, slot.texCount, slot.texs);
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pipeBlobs.emplace_back();
Blobs& thisPipeBlobs = pipeBlobs.back();
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boo::ZTest zTest;
switch (slot.depthTest)
{
case hecl::Backend::ZTest::Original:
default:
zTest = tag.getDepthTest() ? boo::ZTest::LEqual : boo::ZTest::None;
break;
case hecl::Backend::ZTest::None:
zTest = boo::ZTest::None;
break;
case hecl::Backend::ZTest::LEqual:
zTest = boo::ZTest::LEqual;
break;
case hecl::Backend::ZTest::Greater:
zTest = boo::ZTest::Greater;
break;
case hecl::Backend::ZTest::Equal:
zTest = boo::ZTest::Equal;
break;
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case hecl::Backend::ZTest::GEqual:
zTest = boo::ZTest::GEqual;
break;
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}
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boo::ObjToken<boo::IShaderPipeline> ret =
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static_cast<boo::D3DDataFactory::Context&>(ctx).
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newShaderPipeline(vertSource.c_str(), fragSource.c_str(),
ReferenceComPtr(thisPipeBlobs.vert), ReferenceComPtr(thisPipeBlobs.frag), ReferenceComPtr(thisPipeBlobs.pipeline),
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tag.newVertexFormat(ctx),
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boo::BlendFactor((slot.srcFactor == hecl::Backend::BlendFactor::Original) ? m_backend.m_blendSrc : slot.srcFactor),
boo::BlendFactor((slot.dstFactor == hecl::Backend::BlendFactor::Original) ? m_backend.m_blendDst : slot.dstFactor),
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tag.getPrimType(), zTest, slot.noDepthWrite ? false : tag.getDepthWrite(),
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!slot.noColorWrite, !slot.noAlphaWrite,
(slot.cullMode == hecl::Backend::CullMode::Original) ?
(tag.getBackfaceCulling() ? boo::CullMode::Backface : boo::CullMode::None) :
boo::CullMode(slot.cullMode), !slot.noAlphaOverwrite);
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if (!ret)
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Log.report(logvisor::Fatal, "unable to build shader");
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if (thisPipeBlobs.vert)
cachedSz += thisPipeBlobs.vert->GetBufferSize();
if (thisPipeBlobs.frag)
cachedSz += thisPipeBlobs.frag->GetBufferSize();
if (thisPipeBlobs.pipeline)
cachedSz += thisPipeBlobs.pipeline->GetBufferSize();
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returnFunc(ret);
}
ShaderCachedData dataOut(tag, cachedSz);
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athena::io::MemoryWriter w(dataOut.m_data.get(), dataOut.m_sz);
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w.writeUByte(atUint8(m_backend.m_blendSrc));
w.writeUByte(atUint8(m_backend.m_blendDst));
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for (const Blobs& blobs : pipeBlobs)
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{
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if (blobs.vert)
{
w.writeUint32Big(blobs.vert->GetBufferSize());
w.writeUBytes((atUint8*)blobs.vert->GetBufferPointer(), blobs.vert->GetBufferSize());
}
else
w.writeUint32Big(0);
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if (blobs.frag)
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{
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w.writeUint32Big(blobs.frag->GetBufferSize());
w.writeUBytes((atUint8*)blobs.frag->GetBufferPointer(), blobs.frag->GetBufferSize());
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}
else
w.writeUint32Big(0);
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if (blobs.pipeline)
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{
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w.writeUint32Big(blobs.pipeline->GetBufferSize());
w.writeUBytes((atUint8*)blobs.pipeline->GetBufferPointer(), blobs.pipeline->GetBufferSize());
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}
else
w.writeUint32Big(0);
}
return dataOut;
}
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bool buildExtendedShaderFromCache(const ShaderCachedData& data,
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const std::vector<ShaderCacheExtensions::ExtensionSlot>& extensionSlots,
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boo::IGraphicsDataFactory::Context& ctx,
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FReturnExtensionShader returnFunc)
{
const ShaderTag& tag = data.m_tag;
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athena::io::MemoryReader r(data.m_data.get(), data.m_sz, false, false);
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hecl::Backend::BlendFactor blendSrc = hecl::Backend::BlendFactor(r.readUByte());
hecl::Backend::BlendFactor blendDst = hecl::Backend::BlendFactor(r.readUByte());
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if (r.hasError())
return false;
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for (const ShaderCacheExtensions::ExtensionSlot& slot : extensionSlots)
{
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atUint32 vertSz = r.readUint32Big();
ComPtr<ID3DBlob> vertBlob;
if (vertSz)
{
D3DCreateBlobPROC(vertSz, &vertBlob);
r.readUBytesToBuf(vertBlob->GetBufferPointer(), vertSz);
}
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atUint32 fragSz = r.readUint32Big();
ComPtr<ID3DBlob> fragBlob;
if (fragSz)
{
D3DCreateBlobPROC(fragSz, &fragBlob);
r.readUBytesToBuf(fragBlob->GetBufferPointer(), fragSz);
}
atUint32 pipelineSz = r.readUint32Big();
ComPtr<ID3DBlob> pipelineBlob;
if (pipelineSz)
{
D3DCreateBlobPROC(pipelineSz, &pipelineBlob);
r.readUBytesToBuf(pipelineBlob->GetBufferPointer(), pipelineSz);
}
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if (r.hasError())
return false;
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boo::ZTest zTest;
switch (slot.depthTest)
{
case hecl::Backend::ZTest::Original:
default:
zTest = tag.getDepthTest() ? boo::ZTest::LEqual : boo::ZTest::None;
break;
case hecl::Backend::ZTest::None:
zTest = boo::ZTest::None;
break;
case hecl::Backend::ZTest::LEqual:
zTest = boo::ZTest::LEqual;
break;
case hecl::Backend::ZTest::Greater:
zTest = boo::ZTest::Greater;
break;
case hecl::Backend::ZTest::Equal:
zTest = boo::ZTest::Equal;
break;
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case hecl::Backend::ZTest::GEqual:
zTest = boo::ZTest::GEqual;
break;
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}
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boo::ObjToken<boo::IShaderPipeline> ret =
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static_cast<boo::D3DDataFactory::Context&>(ctx).
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newShaderPipeline(nullptr, nullptr,
ReferenceComPtr(vertBlob), ReferenceComPtr(fragBlob), ReferenceComPtr(pipelineBlob),
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tag.newVertexFormat(ctx),
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boo::BlendFactor((slot.srcFactor == hecl::Backend::BlendFactor::Original) ? blendSrc : slot.srcFactor),
boo::BlendFactor((slot.dstFactor == hecl::Backend::BlendFactor::Original) ? blendDst : slot.dstFactor),
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tag.getPrimType(), zTest, slot.noDepthWrite ? false : tag.getDepthWrite(),
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!slot.noColorWrite, !slot.noAlphaWrite,
(slot.cullMode == hecl::Backend::CullMode::Original) ?
(tag.getBackfaceCulling() ? boo::CullMode::Backface : boo::CullMode::None) :
boo::CullMode(slot.cullMode), !slot.noAlphaOverwrite);
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if (!ret)
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Log.report(logvisor::Fatal, "unable to build shader");
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returnFunc(ret);
}
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return true;
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}
};
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IShaderBackendFactory* _NewHLSLBackendFactory()
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{
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return new struct HLSLBackendFactory();
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}
}