mirror of https://github.com/AxioDL/metaforce.git
341 lines
12 KiB
C++
341 lines
12 KiB
C++
#include "hecl/Backend/ProgrammableCommon.hpp"
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#include <map>
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namespace hecl
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{
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namespace Backend
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{
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unsigned ProgrammableCommon::addTexCoordGen(TexGenSrc src, int uvIdx, int mtx, bool normalize)
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{
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for (unsigned i=0 ; i<m_tcgs.size() ; ++i)
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{
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TexCoordGen& tcg = m_tcgs[i];
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if (tcg.m_src == src && tcg.m_uvIdx == uvIdx && tcg.m_mtx == mtx && tcg.m_norm == normalize)
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return i;
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}
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m_tcgs.emplace_back();
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TexCoordGen& newTcg = m_tcgs.back();
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newTcg.m_src = src;
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newTcg.m_uvIdx = uvIdx;
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newTcg.m_mtx = mtx;
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newTcg.m_norm = normalize;
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return m_tcgs.size() - 1;
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}
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unsigned ProgrammableCommon::addTexSampling(unsigned mapIdx, unsigned tcgIdx)
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{
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for (unsigned i=0 ; i<m_texSamplings.size() ; ++i)
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{
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TexSampling& samp = m_texSamplings[i];
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if (samp.mapIdx == mapIdx && samp.tcgIdx == tcgIdx)
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return i;
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}
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m_texSamplings.emplace_back();
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TexSampling& samp = m_texSamplings.back();
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samp.mapIdx = mapIdx;
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samp.tcgIdx = tcgIdx;
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if (m_texMapEnd < mapIdx + 1)
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m_texMapEnd = mapIdx + 1;
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return m_texSamplings.size() - 1;
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}
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unsigned ProgrammableCommon::RecursiveTraceTexGen(const IR& ir, Diagnostics& diag,
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const IR::Instruction& inst, int mtx, bool normalize)
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{
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if (inst.m_op != IR::OpType::Call)
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diag.reportBackendErr(inst.m_loc, "TexCoordGen resolution requires function");
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const std::string& tcgName = inst.m_call.m_name;
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if (!tcgName.compare("UV"))
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{
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if (inst.getChildCount() < 1)
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diag.reportBackendErr(inst.m_loc, "TexCoordGen UV(layerIdx) requires one argument");
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const IR::Instruction& idxInst = inst.getChildInst(ir, 0);
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auto& idxImm = idxInst.getImmVec();
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return addTexCoordGen(TexGenSrc::UV, idxImm.vec[0], mtx, normalize);
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}
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else if (!tcgName.compare("Normal"))
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return addTexCoordGen(TexGenSrc::Normal, -1, mtx, normalize);
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else if (!tcgName.compare("View"))
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return addTexCoordGen(TexGenSrc::Position, -1, mtx, normalize);
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/* Otherwise treat as game-specific function */
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const IR::Instruction& tcgSrcInst = inst.getChildInst(ir, 0);
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unsigned idx = RecursiveTraceTexGen(ir, diag, tcgSrcInst, m_texMtxRefs.size(),
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normalize || tcgName.back() == 'N');
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TexCoordGen& tcg = m_tcgs[idx];
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m_texMtxRefs.push_back(idx);
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tcg.m_gameFunction = tcgName;
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tcg.m_gameArgs.clear();
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for (int i=1 ; i<inst.getChildCount() ; ++i)
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{
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const IR::Instruction& ci = inst.getChildInst(ir, i);
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tcg.m_gameArgs.push_back(ci.getImmVec());
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}
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return idx;
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}
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std::string ProgrammableCommon::RecursiveTraceColor(const IR& ir, Diagnostics& diag,
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const IR::Instruction& inst, bool toSwizzle)
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{
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switch (inst.m_op)
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{
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case IR::OpType::Call:
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{
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const std::string& name = inst.m_call.m_name;
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bool normalize = false;
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if (!name.compare("Texture") || (normalize = true && !name.compare("TextureN")))
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{
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if (inst.getChildCount() < 2)
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diag.reportBackendErr(inst.m_loc, "Texture(map, texgen) requires 2 arguments");
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const IR::Instruction& mapInst = inst.getChildInst(ir, 0);
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auto& mapImm = mapInst.getImmVec();
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unsigned mapIdx = unsigned(mapImm.vec[0]);
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const IR::Instruction& tcgInst = inst.getChildInst(ir, 1);
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unsigned texGenIdx = RecursiveTraceTexGen(ir, diag, tcgInst, -1, normalize);
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return toSwizzle ? EmitSamplingUseRaw(addTexSampling(mapIdx, texGenIdx)) :
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EmitSamplingUseRGB(addTexSampling(mapIdx, texGenIdx));
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}
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else if (!name.compare("ColorReg"))
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{
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const IR::Instruction& idxInst = inst.getChildInst(ir, 0);
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unsigned idx = unsigned(idxInst.getImmVec().vec[0]);
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return toSwizzle ? EmitColorRegUseRaw(idx) : EmitColorRegUseRGB(idx);
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}
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else if (!name.compare("Lighting"))
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{
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m_lighting = true;
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return toSwizzle ? EmitLightingRaw() : EmitLightingRGB();
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}
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else if (!name.compare("vec3"))
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{
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if (inst.getChildCount() < 3)
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diag.reportBackendErr(inst.m_loc, "vec3(r,g,b) requires 3 arguments");
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const IR::Instruction& aInst = inst.getChildInst(ir, 0);
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const IR::Instruction& bInst = inst.getChildInst(ir, 1);
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const IR::Instruction& cInst = inst.getChildInst(ir, 2);
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return EmitVec3(RecursiveTraceAlpha(ir, diag, aInst, false),
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RecursiveTraceAlpha(ir, diag, bInst, false),
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RecursiveTraceAlpha(ir, diag, cInst, false));
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}
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else
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diag.reportBackendErr(inst.m_loc, "unable to interpret '%s'", name.c_str());
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break;
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}
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case IR::OpType::LoadImm:
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{
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const atVec4f& vec = inst.m_loadImm.m_immVec;
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return EmitVec3(vec);
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}
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case IR::OpType::Arithmetic:
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{
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ArithmeticOp op = inst.m_arithmetic.m_op;
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const IR::Instruction& aInst = inst.getChildInst(ir, 0);
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const IR::Instruction& bInst = inst.getChildInst(ir, 1);
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std::string aTrace = RecursiveTraceColor(ir, diag, aInst, false);
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std::string bTrace = RecursiveTraceColor(ir, diag, bInst, false);
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switch (op)
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{
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case ArithmeticOp::Add:
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{
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return EmitAdd(aTrace, bTrace);
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}
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case ArithmeticOp::Subtract:
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{
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return EmitSub(aTrace, bTrace);
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}
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case ArithmeticOp::Multiply:
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{
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return EmitMult(aTrace, bTrace);
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}
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case ArithmeticOp::Divide:
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{
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return EmitDiv(aTrace, bTrace);
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}
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default:
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diag.reportBackendErr(inst.m_loc, "invalid arithmetic op");
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}
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}
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case IR::OpType::Swizzle:
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{
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const IR::Instruction& aInst = inst.getChildInst(ir, 0);
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std::string aTrace = RecursiveTraceColor(ir, diag, aInst, true);
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return EmitSwizzle3(diag, inst.m_loc, aTrace, inst.m_swizzle.m_idxs);
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}
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default:
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diag.reportBackendErr(inst.m_loc, "invalid color op");
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}
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return std::string();
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}
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std::string ProgrammableCommon::RecursiveTraceAlpha(const IR& ir, Diagnostics& diag,
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const IR::Instruction& inst, bool toSwizzle)
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{
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switch (inst.m_op)
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{
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case IR::OpType::Call:
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{
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const std::string& name = inst.m_call.m_name;
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bool normalize = false;
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if (!name.compare("Texture") || (normalize = true && !name.compare("TextureN")))
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{
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if (inst.getChildCount() < 2)
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diag.reportBackendErr(inst.m_loc, "Texture(map, texgen) requires 2 arguments");
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const IR::Instruction& mapInst = inst.getChildInst(ir, 0);
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const atVec4f& mapImm = mapInst.getImmVec();
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unsigned mapIdx = unsigned(mapImm.vec[0]);
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const IR::Instruction& tcgInst = inst.getChildInst(ir, 1);
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unsigned texGenIdx = RecursiveTraceTexGen(ir, diag, tcgInst, -1, normalize);
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return toSwizzle ? EmitSamplingUseRaw(addTexSampling(mapIdx, texGenIdx)) :
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EmitSamplingUseAlpha(addTexSampling(mapIdx, texGenIdx));
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}
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else if (!name.compare("ColorReg"))
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{
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const IR::Instruction& idxInst = inst.getChildInst(ir, 0);
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unsigned idx = unsigned(idxInst.getImmVec().vec[0]);
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return toSwizzle ? EmitColorRegUseRaw(idx) : EmitColorRegUseAlpha(idx);
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}
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else if (!name.compare("Lighting"))
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{
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m_lighting = true;
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return toSwizzle ? EmitLightingRaw() : EmitLightingAlpha();
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}
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else
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diag.reportBackendErr(inst.m_loc, "unable to interpret '%s'", name.c_str());
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break;
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}
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case IR::OpType::LoadImm:
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{
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const atVec4f& vec = inst.m_loadImm.m_immVec;
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return EmitVal(vec.vec[0]);
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}
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case IR::OpType::Arithmetic:
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{
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ArithmeticOp op = inst.m_arithmetic.m_op;
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const IR::Instruction& aInst = inst.getChildInst(ir, 0);
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const IR::Instruction& bInst = inst.getChildInst(ir, 1);
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std::string aTrace = RecursiveTraceAlpha(ir, diag, aInst, false);
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std::string bTrace = RecursiveTraceAlpha(ir, diag, bInst, false);
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switch (op)
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{
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case ArithmeticOp::Add:
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{
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return EmitAdd(aTrace, bTrace);
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}
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case ArithmeticOp::Subtract:
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{
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return EmitSub(aTrace, bTrace);
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}
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case ArithmeticOp::Multiply:
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{
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return EmitMult(aTrace, bTrace);
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}
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case ArithmeticOp::Divide:
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{
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return EmitDiv(aTrace, bTrace);
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}
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default:
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diag.reportBackendErr(inst.m_loc, "invalid arithmetic op");
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}
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}
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case IR::OpType::Swizzle:
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{
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const IR::Instruction& aInst = inst.getChildInst(ir, 0);
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std::string aTrace = RecursiveTraceAlpha(ir, diag, aInst, true);
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return EmitSwizzle1(diag, inst.m_loc, aTrace, inst.m_swizzle.m_idxs);
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}
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default:
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diag.reportBackendErr(inst.m_loc, "invalid alpha op");
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}
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return std::string();
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}
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void ProgrammableCommon::reset(const IR& ir, Diagnostics& diag, const char* backendName)
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{
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m_lighting = false;
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m_texSamplings.clear();
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m_texMapEnd = 0;
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m_tcgs.clear();
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m_texMtxRefs.clear();
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m_colorExpr.clear();
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m_alphaExpr.clear();
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diag.setBackend(backendName);
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/* Final instruction is the root call by hecl convention */
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const IR::Instruction& rootCall = ir.m_instructions.back();
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if (!rootCall.m_call.m_name.compare("HECLOpaque"))
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{
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m_blendSrc = BlendFactor::One;
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m_blendDst = BlendFactor::Zero;
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}
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else if (!rootCall.m_call.m_name.compare("HECLAlpha"))
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{
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m_blendSrc = BlendFactor::SrcAlpha;
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m_blendDst = BlendFactor::InvSrcAlpha;
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}
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else if (!rootCall.m_call.m_name.compare("HECLAdditive"))
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{
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m_blendSrc = BlendFactor::SrcAlpha;
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m_blendDst = BlendFactor::One;
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}
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else
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{
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diag.reportBackendErr(rootCall.m_loc, "%s backend doesn't handle '%s' root",
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backendName, rootCall.m_call.m_name.c_str());
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return;
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}
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/* Follow Color Chain */
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const IR::Instruction& colorRoot =
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ir.m_instructions.at(rootCall.m_call.m_argInstIdxs.at(0));
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m_colorExpr = RecursiveTraceColor(ir, diag, colorRoot, false);
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/* Follow Alpha Chain */
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if (rootCall.m_call.m_argInstIdxs.size() > 1)
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{
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const IR::Instruction& alphaRoot =
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ir.m_instructions.at(rootCall.m_call.m_argInstIdxs.at(1));
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m_alphaExpr = RecursiveTraceAlpha(ir, diag, alphaRoot, false);
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}
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}
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static const char SWIZZLE_CHARS[] = "rgba";
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std::string ProgrammableCommon::EmitSwizzle3(Diagnostics& diag, const SourceLocation& loc,
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const std::string& a, const atInt8 swiz[4]) const
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{
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std::string retval = a + '.';
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for (int i=0 ; i<3 ; ++i)
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{
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if (swiz[i] < 0 || swiz[i] > 3)
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diag.reportBackendErr(loc, "unable to use swizzle as RGB value");
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retval += SWIZZLE_CHARS[swiz[i]];
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}
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return retval;
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}
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std::string ProgrammableCommon::EmitSwizzle1(Diagnostics& diag, const SourceLocation& loc,
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const std::string& a, const atInt8 swiz[4]) const
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{
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std::string retval = a + '.';
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if (swiz[0] < 0 || swiz[0] > 3)
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diag.reportBackendErr(loc, "unable to use swizzle as Alpha value");
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retval += SWIZZLE_CHARS[swiz[0]];
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return retval;
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}
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}
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}
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