diff options
Diffstat (limited to 'src/gallium/auxiliary/gallivm')
-rw-r--r-- | src/gallium/auxiliary/gallivm/gallivm_cpu.cpp | 1 | ||||
-rw-r--r-- | src/gallium/auxiliary/gallivm/instructions.cpp | 1168 | ||||
-rw-r--r-- | src/gallium/auxiliary/gallivm/instructions.h | 26 | ||||
-rw-r--r-- | src/gallium/auxiliary/gallivm/tgsitollvm.cpp | 60 |
4 files changed, 770 insertions, 485 deletions
diff --git a/src/gallium/auxiliary/gallivm/gallivm_cpu.cpp b/src/gallium/auxiliary/gallivm/gallivm_cpu.cpp index e64bfb1c6cb..3a4a41e5445 100644 --- a/src/gallium/auxiliary/gallivm/gallivm_cpu.cpp +++ b/src/gallium/auxiliary/gallivm/gallivm_cpu.cpp @@ -46,6 +46,7 @@ #include "tgsi/tgsi_dump.h" #include "util/u_memory.h" +#include "util/u_math.h" #include <llvm/Module.h> #include <llvm/CallingConv.h> diff --git a/src/gallium/auxiliary/gallivm/instructions.cpp b/src/gallium/auxiliary/gallivm/instructions.cpp index a82dc30306d..5fdfe09d182 100644 --- a/src/gallium/auxiliary/gallivm/instructions.cpp +++ b/src/gallium/auxiliary/gallivm/instructions.cpp @@ -83,6 +83,7 @@ Instructions::Instructions(llvm::Module *mod, llvm::Function *func, llvm::BasicB m_llvmPow = 0; m_llvmFloor = 0; m_llvmFlog = 0; + m_llvmFexp = 0; m_llvmLit = 0; m_fmtPtr = 0; @@ -92,194 +93,247 @@ Instructions::Instructions(llvm::Module *mod, llvm::Function *func, llvm::BasicB m_mod = ParseBitcodeFile(buffer); } -llvm::Value * Instructions::add(llvm::Value *in1, llvm::Value *in2) +llvm::BasicBlock * Instructions::currentBlock() const { - return m_builder.CreateAdd(in1, in2, name("add")); + return m_builder.GetInsertBlock(); } -llvm::Value * Instructions::madd(llvm::Value *in1, llvm::Value *in2, - llvm::Value *in3) +llvm::Value * Instructions::abs(llvm::Value *in) { - Value *mulRes = mul(in1, in2); - return add(mulRes, in3); + std::vector<llvm::Value*> vec = extractVector(in); + Value *xabs = callFAbs(vec[0]); + Value *yabs = callFAbs(vec[1]); + Value *zabs = callFAbs(vec[2]); + Value *wabs = callFAbs(vec[3]); + return vectorFromVals(xabs, yabs, zabs, wabs); } - -llvm::Value * Instructions::mul(llvm::Value *in1, llvm::Value *in2) + +llvm::Value * Instructions::add(llvm::Value *in1, llvm::Value *in2) { - return m_builder.CreateMul(in1, in2, name("mul")); + return m_builder.CreateAdd(in1, in2, name("add")); } -const char * Instructions::name(const char *prefix) +llvm::Value * Instructions::arl(llvm::Value *in) { - ++m_idx; - snprintf(m_name, 32, "%s%d", prefix, m_idx); - return m_name; + return floor(in); } -llvm::Value * Instructions::dp3(llvm::Value *in1, llvm::Value *in2) +void Instructions::beginLoop() { - Value *mulRes = mul(in1, in2); - Value *x = m_builder.CreateExtractElement(mulRes, - m_storage->constantInt(0), - name("extractx")); - Value *y = m_builder.CreateExtractElement(mulRes, - m_storage->constantInt(1), - name("extracty")); - Value *z = m_builder.CreateExtractElement(mulRes, - m_storage->constantInt(2), - name("extractz")); - Value *xy = m_builder.CreateAdd(x, y,name("xy")); - Value *dot3 = m_builder.CreateAdd(xy, z, name("dot3")); - return vectorFromVals(dot3, dot3, dot3, dot3); + BasicBlock *begin = BasicBlock::Create(name("loop"), m_func,0); + BasicBlock *end = BasicBlock::Create(name("endloop"), m_func,0); + + m_builder.CreateBr(begin); + Loop loop; + loop.begin = begin; + loop.end = end; + m_builder.SetInsertPoint(begin); + m_loopStack.push(loop); } -llvm::Value *Instructions::callFSqrt(llvm::Value *val) +void Instructions::bgnSub(unsigned label) { - if (!m_llvmFSqrt) { - // predeclare the intrinsic - std::vector<const Type*> fsqrtArgs; - fsqrtArgs.push_back(Type::FloatTy); - PAListPtr fsqrtPal; - FunctionType* fsqrtType = FunctionType::get( - /*Result=*/Type::FloatTy, - /*Params=*/fsqrtArgs, - /*isVarArg=*/false); - m_llvmFSqrt = Function::Create( - /*Type=*/fsqrtType, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"llvm.sqrt.f32", m_mod); - m_llvmFSqrt->setCallingConv(CallingConv::C); - m_llvmFSqrt->setParamAttrs(fsqrtPal); - } - CallInst *call = m_builder.CreateCall(m_llvmFSqrt, val, - name("sqrt")); - call->setCallingConv(CallingConv::C); - call->setTailCall(false); - return call; + llvm::Function *func = findFunction(label); + + Function::arg_iterator args = func->arg_begin(); + Value *ptr_INPUT = args++; + ptr_INPUT->setName("INPUT"); + m_storage->pushArguments(ptr_INPUT); + + llvm::BasicBlock *entry = BasicBlock::Create("entry", func, 0); + + m_func = func; + m_builder.SetInsertPoint(entry); } -llvm::Value * Instructions::rsq(llvm::Value *in1) +void Instructions::brk() { - Value *x = m_builder.CreateExtractElement(in1, - m_storage->constantInt(0), - name("extractx")); - Value *abs = callFAbs(x); - Value *sqrt = callFSqrt(abs); + assert(!m_loopStack.empty()); + BasicBlock *unr = BasicBlock::Create(name("unreachable"), m_func,0); + m_builder.CreateBr(m_loopStack.top().end); + m_builder.SetInsertPoint(unr); +} - Value *rsqrt = m_builder.CreateFDiv(ConstantFP::get(APFloat(1.f)), - sqrt, - name("rsqrt")); - return vectorFromVals(rsqrt, rsqrt, rsqrt, rsqrt); +void Instructions::cal(int label, llvm::Value *input) +{ + std::vector<Value*> params; + params.push_back(input); + llvm::Function *func = findFunction(label); + + m_builder.CreateCall(func, params.begin(), params.end()); } -llvm::Value * Instructions::vectorFromVals(llvm::Value *x, llvm::Value *y, - llvm::Value *z, llvm::Value *w) +llvm::Value * Instructions::clamp(llvm::Value *in1) { - Constant *const_vec = Constant::getNullValue(m_floatVecType); - Value *res = m_builder.CreateInsertElement(const_vec, x, - m_storage->constantInt(0), - name("vecx")); - res = m_builder.CreateInsertElement(res, y, m_storage->constantInt(1), - name("vecxy")); - res = m_builder.CreateInsertElement(res, z, m_storage->constantInt(2), - name("vecxyz")); - if (w) - res = m_builder.CreateInsertElement(res, w, m_storage->constantInt(3), - name("vecxyzw")); - return res; + // FIXME } -llvm::Value *Instructions::callFAbs(llvm::Value *val) +llvm::Value * Instructions::cmp(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) { - if (!m_llvmFAbs) { - // predeclare the intrinsic - std::vector<const Type*> fabsArgs; - fabsArgs.push_back(Type::FloatTy); - PAListPtr fabsPal; - FunctionType* fabsType = FunctionType::get( - /*Result=*/Type::FloatTy, - /*Params=*/fabsArgs, - /*isVarArg=*/false); - m_llvmFAbs = Function::Create( - /*Type=*/fabsType, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"fabs", m_mod); - m_llvmFAbs->setCallingConv(CallingConv::C); - m_llvmFAbs->setParamAttrs(fabsPal); - } - CallInst *call = m_builder.CreateCall(m_llvmFAbs, val, - name("fabs")); - call->setCallingConv(CallingConv::C); + llvm::Function *func = m_mod->getFunction("cmp"); + assert(func); + + std::vector<Value*> params; + params.push_back(in1); + params.push_back(in2); + params.push_back(in3); + CallInst *call = m_builder.CreateCall(func, params.begin(), params.end(), name("cmpres")); call->setTailCall(false); return call; } -llvm::Value * Instructions::lit(llvm::Value *in) +llvm::Value * Instructions::cnd(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) { - if (!m_llvmLit) { - m_llvmLit = m_mod->getFunction("lit"); - } - CallInst *call = m_builder.CreateCall(m_llvmLit, in, name("litres")); - call->setCallingConv(CallingConv::C); - call->setTailCall(false); - return call; + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); + std::vector<llvm::Value*> vec3 = extractVector(in3); + Constant *half = ConstantFP::get(APFloat(0.5f)); + + Value *xcmp = m_builder.CreateFCmpOGT(vec1[0], half, name("xcmp")); + Value *selx = m_builder.CreateSelect(xcmp, vec2[0], vec3[0], + name("selx")); + + Value *ycmp = m_builder.CreateFCmpOGT(vec1[1], half, name("ycmp")); + Value *sely = m_builder.CreateSelect(ycmp, vec2[1], vec3[1], + name("sely")); + + Value *zcmp = m_builder.CreateFCmpOGT(vec1[2], half, name("zcmp")); + Value *selz = m_builder.CreateSelect(zcmp, vec2[2], vec3[2], + name("selz")); + + Value *wcmp = m_builder.CreateFCmpOGT(vec1[3], half, name("wcmp")); + Value *selw = m_builder.CreateSelect(wcmp, vec2[3], vec3[3], + name("selw")); + + return vectorFromVals(selx, sely, selz, selw); } -llvm::Value * Instructions::sub(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::cnd0(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) { - Value *res = m_builder.CreateSub(in1, in2, name("sub")); - return res; + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); + std::vector<llvm::Value*> vec3 = extractVector(in3); + Constant *zero = Constant::getNullValue(Type::FloatTy); + + Value *xcmp = m_builder.CreateFCmpOGE(vec1[0], zero, name("xcmp")); + Value *selx = m_builder.CreateSelect(xcmp, vec2[0], vec3[0], + name("selx")); + + Value *ycmp = m_builder.CreateFCmpOGE(vec1[1], zero, name("ycmp")); + Value *sely = m_builder.CreateSelect(ycmp, vec2[1], vec3[1], + name("sely")); + + Value *zcmp = m_builder.CreateFCmpOGE(vec1[2], zero, name("zcmp")); + Value *selz = m_builder.CreateSelect(zcmp, vec2[2], vec3[2], + name("selz")); + + Value *wcmp = m_builder.CreateFCmpOGE(vec1[3], zero, name("wcmp")); + Value *selw = m_builder.CreateSelect(wcmp, vec2[3], vec3[3], + name("selw")); + + return vectorFromVals(selx, sely, selz, selw); } -llvm::Value * Instructions::callPow(llvm::Value *val1, llvm::Value *val2) +llvm::Value * Instructions::cos(llvm::Value *in) { - if (!m_llvmPow) { - // predeclare the intrinsic - std::vector<const Type*> powArgs; - powArgs.push_back(Type::FloatTy); - powArgs.push_back(Type::FloatTy); - PAListPtr powPal; - FunctionType* powType = FunctionType::get( - /*Result=*/Type::FloatTy, - /*Params=*/powArgs, - /*isVarArg=*/false); - m_llvmPow = Function::Create( - /*Type=*/powType, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"llvm.pow.f32", m_mod); - m_llvmPow->setCallingConv(CallingConv::C); - m_llvmPow->setParamAttrs(powPal); - } - std::vector<Value*> params; - params.push_back(val1); - params.push_back(val2); - CallInst *call = m_builder.CreateCall(m_llvmPow, params.begin(), params.end(), - name("pow")); - call->setCallingConv(CallingConv::C); +#if 0 + llvm::Function *func = m_mod->getFunction("vcos"); + assert(func); + + CallInst *call = m_builder.CreateCall(func, in, name("cosres")); call->setTailCall(false); return call; +#else + std::vector<llvm::Value*> elems = extractVector(in); + Function *func = m_mod->getFunction("cosf"); + assert(func); + CallInst *cos = m_builder.CreateCall(func, elems[0], name("cosres")); + cos->setCallingConv(CallingConv::C); + cos->setTailCall(true); + return vectorFromVals(cos, cos, cos, cos); +#endif } -llvm::Value * Instructions::pow(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::cross(llvm::Value *in1, llvm::Value *in2) { Value *x1 = m_builder.CreateExtractElement(in1, m_storage->constantInt(0), name("x1")); + Value *y1 = m_builder.CreateExtractElement(in1, + m_storage->constantInt(1), + name("y1")); + Value *z1 = m_builder.CreateExtractElement(in1, + m_storage->constantInt(2), + name("z1")); + Value *x2 = m_builder.CreateExtractElement(in2, m_storage->constantInt(0), name("x2")); - llvm::Value *val = callPow(x1, x2); - return vectorFromVals(val, val, val, val); + Value *y2 = m_builder.CreateExtractElement(in2, + m_storage->constantInt(1), + name("y2")); + Value *z2 = m_builder.CreateExtractElement(in2, + m_storage->constantInt(2), + name("z2")); + Value *y1z2 = mul(y1, z2); + Value *z1y2 = mul(z1, y2); + + Value *z1x2 = mul(z1, x2); + Value *x1z2 = mul(x1, z2); + + Value *x1y2 = mul(x1, y2); + Value *y1x2 = mul(y1, x2); + + return vectorFromVals(sub(y1z2, z1y2), sub(z1x2, x1z2), sub(x1y2, y1x2)); } -llvm::Value * Instructions::rcp(llvm::Value *in1) +llvm::Value * Instructions::ddx(llvm::Value *in) { - Value *x1 = m_builder.CreateExtractElement(in1, - m_storage->constantInt(0), - name("x1")); - Value *res = m_builder.CreateFDiv(ConstantFP::get(APFloat(1.f)), - x1, name("rcp")); - return vectorFromVals(res, res, res, res); + // FIXME +} + +llvm::Value * Instructions::ddy(llvm::Value *in) +{ + // FIXME +} + +llvm::Value * Instructions::div(llvm::Value *in1, llvm::Value *in2) +{ + return m_builder.CreateFDiv(in1, in2, name("div")); +} + +llvm::Value * Instructions::dot2add(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) +{ + Value *mulRes = mul(in1, in2); + Value *x = m_builder.CreateExtractElement(mulRes, + m_storage->constantInt(0), + name("extractx")); + Value *y = m_builder.CreateExtractElement(mulRes, + m_storage->constantInt(1), + name("extracty")); + Value *z = m_builder.CreateExtractElement(in3, + m_storage->constantInt(2), + name("extractz")); + Value *xy = m_builder.CreateAdd(x, y,name("xy")); + Value *dot2add = m_builder.CreateAdd(xy, z, name("dot2add")); + return vectorFromVals(dot2add, dot2add, dot2add, dot2add); +} + +llvm::Value * Instructions::dp3(llvm::Value *in1, llvm::Value *in2) +{ + Value *mulRes = mul(in1, in2); + Value *x = m_builder.CreateExtractElement(mulRes, + m_storage->constantInt(0), + name("extractx")); + Value *y = m_builder.CreateExtractElement(mulRes, + m_storage->constantInt(1), + name("extracty")); + Value *z = m_builder.CreateExtractElement(mulRes, + m_storage->constantInt(2), + name("extractz")); + Value *xy = m_builder.CreateAdd(x, y,name("xy")); + Value *dot3 = m_builder.CreateAdd(xy, z, name("dot3")); + return vectorFromVals(dot3, dot3, dot3, dot3); } llvm::Value * Instructions::dp4(llvm::Value *in1, llvm::Value *in2) @@ -321,6 +375,53 @@ llvm::Value * Instructions::dst(llvm::Value *in1, llvm::Value *in2) ry, z, w); } +void Instructions::elseop() +{ + assert(!m_ifStack.empty()); + BasicBlock *ifend = BasicBlock::Create(name("ifend"), m_func,0); + m_builder.CreateBr(ifend); + m_builder.SetInsertPoint(m_ifStack.top()); + currentBlock()->setName(name("ifelse")); + m_ifStack.pop(); + m_ifStack.push(ifend); +} + +void Instructions::endif() +{ + assert(!m_ifStack.empty()); + m_builder.CreateBr(m_ifStack.top()); + m_builder.SetInsertPoint(m_ifStack.top()); + m_ifStack.pop(); +} + +void Instructions::endLoop() +{ + assert(!m_loopStack.empty()); + Loop loop = m_loopStack.top(); + m_builder.CreateBr(loop.begin); + loop.end->moveAfter(currentBlock()); + m_builder.SetInsertPoint(loop.end); + m_loopStack.pop(); +} + +void Instructions::end() +{ + m_builder.CreateRetVoid(); +} + +void Instructions::endSub() +{ + m_func = 0; + m_builder.SetInsertPoint(0); +} + +llvm::Value * Instructions::exp(llvm::Value *in) +{ + std::vector<llvm::Value*> vec = extractVector(in); + return vectorFromVals(callFExp(vec[0]), callFExp(vec[1]), + callFExp(vec[2]), callFExp(vec[3])); +} + llvm::Value * Instructions::ex2(llvm::Value *in) { llvm::Value *val = callPow(ConstantFP::get(APFloat(2.f)), @@ -330,31 +431,6 @@ llvm::Value * Instructions::ex2(llvm::Value *in) return vectorFromVals(val, val, val, val); } -llvm::Value * Instructions::callFloor(llvm::Value *val) -{ - if (!m_llvmFloor) { - // predeclare the intrinsic - std::vector<const Type*> floorArgs; - floorArgs.push_back(Type::FloatTy); - PAListPtr floorPal; - FunctionType* floorType = FunctionType::get( - /*Result=*/Type::FloatTy, - /*Params=*/floorArgs, - /*isVarArg=*/false); - m_llvmFloor = Function::Create( - /*Type=*/floorType, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"floorf", m_mod); - m_llvmFloor->setCallingConv(CallingConv::C); - m_llvmFloor->setParamAttrs(floorPal); - } - CallInst *call = m_builder.CreateCall(m_llvmFloor, val, - name("floorf")); - call->setCallingConv(CallingConv::C); - call->setTailCall(false); - return call; -} - llvm::Value * Instructions::floor(llvm::Value *in) { std::vector<llvm::Value*> vec = extractVector(in); @@ -362,42 +438,52 @@ llvm::Value * Instructions::floor(llvm::Value *in) callFloor(vec[2]), callFloor(vec[3])); } -llvm::Value * Instructions::arl(llvm::Value *in) -{ - return floor(in); -} - llvm::Value * Instructions::frc(llvm::Value *in) { llvm::Value *flr = floor(in); return sub(in, flr); } -llvm::Value * Instructions::callFLog(llvm::Value *val) +void Instructions::ifop(llvm::Value *in) { - if (!m_llvmFlog) { - // predeclare the intrinsic - std::vector<const Type*> flogArgs; - flogArgs.push_back(Type::FloatTy); - PAListPtr flogPal; - FunctionType* flogType = FunctionType::get( - /*Result=*/Type::FloatTy, - /*Params=*/flogArgs, - /*isVarArg=*/false); - m_llvmFlog = Function::Create( - /*Type=*/flogType, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"logf", m_mod); - m_llvmFlog->setCallingConv(CallingConv::C); - m_llvmFlog->setParamAttrs(flogPal); - } - CallInst *call = m_builder.CreateCall(m_llvmFlog, val, - name("logf")); - call->setCallingConv(CallingConv::C); + BasicBlock *ifthen = BasicBlock::Create(name("ifthen"), m_func,0); + BasicBlock *ifend = BasicBlock::Create(name("ifthenend"), m_func,0); + + //BasicBlock *yblock = new BasicBlock(name("yblock"), m_func,0); + //BasicBlock *zblock = new BasicBlock(name("zblock"), m_func,0); + //BasicBlock *wblock = new BasicBlock(name("wblock"), m_func,0); + + Constant *float0 = Constant::getNullValue(Type::FloatTy); + + Value *x = m_builder.CreateExtractElement(in, m_storage->constantInt(0), + name("extractx")); + Value *xcmp = m_builder.CreateFCmpUNE(x, float0, name("xcmp")); + m_builder.CreateCondBr(xcmp, ifthen, ifend); + //m_builder.SetInsertPoint(yblock); + + m_builder.SetInsertPoint(ifthen); + m_ifStack.push(ifend); +} + +llvm::Value * Instructions::kil(llvm::Value *in) +{ + llvm::Function *func = m_mod->getFunction("kil"); + assert(func); + + CallInst *call = m_builder.CreateCall(func, in, name("kilpres")); call->setTailCall(false); return call; } +llvm::Value * Instructions::lerp(llvm::Value *in1, llvm::Value *in2, + llvm::Value *in3) +{ + llvm::Value *m = mul(in1, in2); + llvm::Value *vec1 = constVector(1.f, 1.f, 1.f, 1.f); + llvm::Value *s = sub(vec1, in1); + return add(m, mul(s, in3)); +} + llvm::Value * Instructions::lg2(llvm::Value *in) { std::vector<llvm::Value*> vec = extractVector(in); @@ -407,142 +493,170 @@ llvm::Value * Instructions::lg2(llvm::Value *in) callFLog(vec[2]), callFLog(vec[3])), const_vec); } -llvm::Value * Instructions::min(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::lit(llvm::Value *in) +{ + if (!m_llvmLit) { + m_llvmLit = m_mod->getFunction("lit"); + } + CallInst *call = m_builder.CreateCall(m_llvmLit, in, name("litres")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::log(llvm::Value *in) +{ + std::vector<llvm::Value*> vec = extractVector(in); + return vectorFromVals(callFLog(vec[0]), callFLog(vec[1]), + callFLog(vec[2]), callFLog(vec[3])); +} + +llvm::Value * Instructions::madd(llvm::Value *in1, llvm::Value *in2, + llvm::Value *in3) +{ + Value *mulRes = mul(in1, in2); + return add(mulRes, in3); +} + +llvm::Value * Instructions::max(llvm::Value *in1, llvm::Value *in2) { std::vector<llvm::Value*> vec1 = extractVector(in1); std::vector<llvm::Value*> vec2 = extractVector(in2); - Value *xcmp = m_builder.CreateFCmpOLT(vec1[0], vec2[0], name("xcmp")); + Value *xcmp = m_builder.CreateFCmpOGT(vec1[0], vec2[0], + name("xcmp")); Value *selx = m_builder.CreateSelect(xcmp, vec1[0], vec2[0], name("selx")); - Value *ycmp = m_builder.CreateFCmpOLT(vec1[1], vec2[1], name("ycmp")); + Value *ycmp = m_builder.CreateFCmpOGT(vec1[1], vec2[1], + name("ycmp")); Value *sely = m_builder.CreateSelect(ycmp, vec1[1], vec2[1], name("sely")); - Value *zcmp = m_builder.CreateFCmpOLT(vec1[2], vec2[2], name("zcmp")); + Value *zcmp = m_builder.CreateFCmpOGT(vec1[2], vec2[2], + name("zcmp")); Value *selz = m_builder.CreateSelect(zcmp, vec1[2], vec2[2], name("selz")); - Value *wcmp = m_builder.CreateFCmpOLT(vec1[3], vec2[3], name("wcmp")); + Value *wcmp = m_builder.CreateFCmpOGT(vec1[3], vec2[3], + name("wcmp")); Value *selw = m_builder.CreateSelect(wcmp, vec1[3], vec2[3], name("selw")); return vectorFromVals(selx, sely, selz, selw); } -llvm::Value * Instructions::max(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::min(llvm::Value *in1, llvm::Value *in2) { std::vector<llvm::Value*> vec1 = extractVector(in1); std::vector<llvm::Value*> vec2 = extractVector(in2); - Value *xcmp = m_builder.CreateFCmpOGT(vec1[0], vec2[0], - name("xcmp")); + Value *xcmp = m_builder.CreateFCmpOLT(vec1[0], vec2[0], name("xcmp")); Value *selx = m_builder.CreateSelect(xcmp, vec1[0], vec2[0], name("selx")); - Value *ycmp = m_builder.CreateFCmpOGT(vec1[1], vec2[1], - name("ycmp")); + Value *ycmp = m_builder.CreateFCmpOLT(vec1[1], vec2[1], name("ycmp")); Value *sely = m_builder.CreateSelect(ycmp, vec1[1], vec2[1], name("sely")); - Value *zcmp = m_builder.CreateFCmpOGT(vec1[2], vec2[2], - name("zcmp")); + Value *zcmp = m_builder.CreateFCmpOLT(vec1[2], vec2[2], name("zcmp")); Value *selz = m_builder.CreateSelect(zcmp, vec1[2], vec2[2], name("selz")); - Value *wcmp = m_builder.CreateFCmpOGT(vec1[3], vec2[3], - name("wcmp")); + Value *wcmp = m_builder.CreateFCmpOLT(vec1[3], vec2[3], name("wcmp")); Value *selw = m_builder.CreateSelect(wcmp, vec1[3], vec2[3], name("selw")); return vectorFromVals(selx, sely, selz, selw); } -void Instructions::printVector(llvm::Value *val) +llvm::Value * Instructions::mul(llvm::Value *in1, llvm::Value *in2) { - static const char *frmt = "Vector is [%f, %f, %f, %f]\x0A"; + return m_builder.CreateMul(in1, in2, name("mul")); +} - if (!m_fmtPtr) { - Constant *format = ConstantArray::get(frmt, true); - ArrayType *arrayTy = ArrayType::get(IntegerType::get(8), strlen(frmt) + 1); - GlobalVariable* globalFormat = new GlobalVariable( - /*Type=*/arrayTy, - /*isConstant=*/true, - /*Linkage=*/GlobalValue::InternalLinkage, - /*Initializer=*/0, // has initializer, specified below - /*Name=*/name(".str"), - m_mod); - globalFormat->setInitializer(format); +llvm::Value * Instructions::neg(llvm::Value *in) +{ + Value *neg = m_builder.CreateNeg(in, name("neg")); + return neg; +} - Constant* const_int0 = Constant::getNullValue(IntegerType::get(32)); - std::vector<Constant*> const_ptr_21_indices; - const_ptr_21_indices.push_back(const_int0); - const_ptr_21_indices.push_back(const_int0); - m_fmtPtr = ConstantExpr::getGetElementPtr(globalFormat, - &const_ptr_21_indices[0], const_ptr_21_indices.size()); - } +llvm::Value * Instructions::pow(llvm::Value *in1, llvm::Value *in2) +{ + Value *x1 = m_builder.CreateExtractElement(in1, + m_storage->constantInt(0), + name("x1")); + Value *x2 = m_builder.CreateExtractElement(in2, + m_storage->constantInt(0), + name("x2")); + llvm::Value *val = callPow(x1, x2); + return vectorFromVals(val, val, val, val); +} - Function *func_printf = m_mod->getFunction("printf"); - if (!func_printf) - func_printf = declarePrintf(); - assert(func_printf); - std::vector<llvm::Value*> vec = extractVector(val); - Value *dx = m_builder.CreateFPExt(vec[0], Type::DoubleTy, name("dx")); - Value *dy = m_builder.CreateFPExt(vec[1], Type::DoubleTy, name("dy")); - Value *dz = m_builder.CreateFPExt(vec[2], Type::DoubleTy, name("dz")); - Value *dw = m_builder.CreateFPExt(vec[3], Type::DoubleTy, name("dw")); - std::vector<Value*> params; - params.push_back(m_fmtPtr); - params.push_back(dx); - params.push_back(dy); - params.push_back(dz); - params.push_back(dw); - CallInst *call = m_builder.CreateCall(func_printf, params.begin(), params.end(), - name("printf")); - call->setCallingConv(CallingConv::C); - call->setTailCall(true); +llvm::Value * Instructions::rcp(llvm::Value *in1) +{ + Value *x1 = m_builder.CreateExtractElement(in1, + m_storage->constantInt(0), + name("x1")); + Value *res = m_builder.CreateFDiv(ConstantFP::get(APFloat(1.f)), + x1, name("rcp")); + return vectorFromVals(res, res, res, res); } -llvm::Function * Instructions::declarePrintf() +llvm::Value * Instructions::rsq(llvm::Value *in1) { - std::vector<const Type*> args; - PAListPtr params; - FunctionType* funcTy = FunctionType::get( - /*Result=*/IntegerType::get(32), - /*Params=*/args, - /*isVarArg=*/true); - Function* func_printf = Function::Create( - /*Type=*/funcTy, - /*Linkage=*/GlobalValue::ExternalLinkage, - /*Name=*/"printf", m_mod); - func_printf->setCallingConv(CallingConv::C); - func_printf->setParamAttrs(params); - return func_printf; + Value *x = m_builder.CreateExtractElement(in1, + m_storage->constantInt(0), + name("extractx")); + Value *abs = callFAbs(x); + Value *sqrt = callFSqrt(abs); + + Value *rsqrt = m_builder.CreateFDiv(ConstantFP::get(APFloat(1.f)), + sqrt, + name("rsqrt")); + return vectorFromVals(rsqrt, rsqrt, rsqrt, rsqrt); } +llvm::Value * Instructions::scs(llvm::Value *in) +{ + llvm::Function *func = m_mod->getFunction("scs"); + assert(func); -llvm::Value * Instructions::sgt(llvm::Value *in1, llvm::Value *in2) + CallInst *call = m_builder.CreateCall(func, in, name("scsres")); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::seq(llvm::Value *in1, llvm::Value *in2) { Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); Constant *const0f = Constant::getNullValue(Type::FloatTy); std::vector<llvm::Value*> vec1 = extractVector(in1); std::vector<llvm::Value*> vec2 = extractVector(in2); - Value *xcmp = m_builder.CreateFCmpOGT(vec1[0], vec2[0], name("xcmp")); + + Value *xcmp = m_builder.CreateFCmpOEQ(vec1[0], vec2[0], name("xcmp")); Value *x = m_builder.CreateSelect(xcmp, const1f, const0f, name("xsel")); - Value *ycmp = m_builder.CreateFCmpOGT(vec1[1], vec2[1], name("ycmp")); + Value *ycmp = m_builder.CreateFCmpOEQ(vec1[1], vec2[1], name("ycmp")); Value *y = m_builder.CreateSelect(ycmp, const1f, const0f, name("ysel")); - Value *zcmp = m_builder.CreateFCmpOGT(vec1[2], vec2[2], name("zcmp")); + Value *zcmp = m_builder.CreateFCmpOEQ(vec1[2], vec2[2], name("zcmp")); Value *z = m_builder.CreateSelect(zcmp, const1f, const0f, name("zsel")); - Value *wcmp = m_builder.CreateFCmpOGT(vec1[3], vec2[3], name("wcmp")); + Value *wcmp = m_builder.CreateFCmpOEQ(vec1[3], vec2[3], name("wcmp")); Value *w = m_builder.CreateSelect(wcmp, const1f, const0f, name("wsel")); return vectorFromVals(x, y, z, w); } + +llvm::Value * Instructions::sfl(llvm::Value *in1, llvm::Value *in2) +{ + Constant *const0f = Constant::getNullValue(Type::FloatTy); + + return vectorFromVals(const0f, const0f, const0f, const0f); +} + llvm::Value * Instructions::sge(llvm::Value *in1, llvm::Value *in2) { Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); @@ -566,157 +680,118 @@ llvm::Value * Instructions::sge(llvm::Value *in1, llvm::Value *in2) return vectorFromVals(x, y, z, w); } - -llvm::Value * Instructions::slt(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::sgt(llvm::Value *in1, llvm::Value *in2) { Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); Constant *const0f = Constant::getNullValue(Type::FloatTy); std::vector<llvm::Value*> vec1 = extractVector(in1); std::vector<llvm::Value*> vec2 = extractVector(in2); - - Value *xcmp = m_builder.CreateFCmpOLT(vec1[0], vec2[0], name("xcmp")); + Value *xcmp = m_builder.CreateFCmpOGT(vec1[0], vec2[0], name("xcmp")); Value *x = m_builder.CreateSelect(xcmp, const1f, const0f, name("xsel")); - Value *ycmp = m_builder.CreateFCmpOLT(vec1[1], vec2[1], name("ycmp")); + Value *ycmp = m_builder.CreateFCmpOGT(vec1[1], vec2[1], name("ycmp")); Value *y = m_builder.CreateSelect(ycmp, const1f, const0f, name("ysel")); - Value *zcmp = m_builder.CreateFCmpOLT(vec1[2], vec2[2], name("zcmp")); + Value *zcmp = m_builder.CreateFCmpOGT(vec1[2], vec2[2], name("zcmp")); Value *z = m_builder.CreateSelect(zcmp, const1f, const0f, name("zsel")); - Value *wcmp = m_builder.CreateFCmpOLT(vec1[3], vec2[3], name("wcmp")); + Value *wcmp = m_builder.CreateFCmpOGT(vec1[3], vec2[3], name("wcmp")); Value *w = m_builder.CreateSelect(wcmp, const1f, const0f, name("wsel")); return vectorFromVals(x, y, z, w); } -llvm::Value * Instructions::cross(llvm::Value *in1, llvm::Value *in2) +llvm::Value * Instructions::sin(llvm::Value *in) { - Value *x1 = m_builder.CreateExtractElement(in1, - m_storage->constantInt(0), - name("x1")); - Value *y1 = m_builder.CreateExtractElement(in1, - m_storage->constantInt(1), - name("y1")); - Value *z1 = m_builder.CreateExtractElement(in1, - m_storage->constantInt(2), - name("z1")); + llvm::Function *func = m_mod->getFunction("vsin"); + assert(func); - Value *x2 = m_builder.CreateExtractElement(in2, - m_storage->constantInt(0), - name("x2")); - Value *y2 = m_builder.CreateExtractElement(in2, - m_storage->constantInt(1), - name("y2")); - Value *z2 = m_builder.CreateExtractElement(in2, - m_storage->constantInt(2), - name("z2")); - Value *y1z2 = mul(y1, z2); - Value *z1y2 = mul(z1, y2); + CallInst *call = m_builder.CreateCall(func, in, name("sinres")); + call->setTailCall(false); + return call; +} - Value *z1x2 = mul(z1, x2); - Value *x1z2 = mul(x1, z2); +llvm::Value * Instructions::sle(llvm::Value *in1, llvm::Value *in2) +{ + Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); + Constant *const0f = Constant::getNullValue(Type::FloatTy); - Value *x1y2 = mul(x1, y2); - Value *y1x2 = mul(y1, x2); + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); - return vectorFromVals(sub(y1z2, z1y2), sub(z1x2, x1z2), sub(x1y2, y1x2)); -} + Value *xcmp = m_builder.CreateFCmpOLE(vec1[0], vec2[0], name("xcmp")); + Value *x = m_builder.CreateSelect(xcmp, const1f, const0f, name("xsel")); + Value *ycmp = m_builder.CreateFCmpOLE(vec1[1], vec2[1], name("ycmp")); + Value *y = m_builder.CreateSelect(ycmp, const1f, const0f, name("ysel")); -llvm::Value * Instructions::abs(llvm::Value *in) -{ - std::vector<llvm::Value*> vec = extractVector(in); - Value *xabs = callFAbs(vec[0]); - Value *yabs = callFAbs(vec[1]); - Value *zabs = callFAbs(vec[2]); - Value *wabs = callFAbs(vec[3]); - return vectorFromVals(xabs, yabs, zabs, wabs); + Value *zcmp = m_builder.CreateFCmpOLE(vec1[2], vec2[2], name("zcmp")); + Value *z = m_builder.CreateSelect(zcmp, const1f, const0f, name("zsel")); + + Value *wcmp = m_builder.CreateFCmpOLE(vec1[3], vec2[3], name("wcmp")); + Value *w = m_builder.CreateSelect(wcmp, const1f, const0f, name("wsel")); + + return vectorFromVals(x, y, z, w); } -void Instructions::ifop(llvm::Value *in) +llvm::Value * Instructions::slt(llvm::Value *in1, llvm::Value *in2) { - BasicBlock *ifthen = BasicBlock::Create(name("ifthen"), m_func,0); - BasicBlock *ifend = BasicBlock::Create(name("ifthenend"), m_func,0); + Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); + Constant *const0f = Constant::getNullValue(Type::FloatTy); - //BasicBlock *yblock = new BasicBlock(name("yblock"), m_func,0); - //BasicBlock *zblock = new BasicBlock(name("zblock"), m_func,0); - //BasicBlock *wblock = new BasicBlock(name("wblock"), m_func,0); + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); - Constant *float0 = Constant::getNullValue(Type::FloatTy); + Value *xcmp = m_builder.CreateFCmpOLT(vec1[0], vec2[0], name("xcmp")); + Value *x = m_builder.CreateSelect(xcmp, const1f, const0f, name("xsel")); - Value *x = m_builder.CreateExtractElement(in, m_storage->constantInt(0), - name("extractx")); - Value *xcmp = m_builder.CreateFCmpUNE(x, float0, name("xcmp")); - m_builder.CreateCondBr(xcmp, ifthen, ifend); - //m_builder.SetInsertPoint(yblock); + Value *ycmp = m_builder.CreateFCmpOLT(vec1[1], vec2[1], name("ycmp")); + Value *y = m_builder.CreateSelect(ycmp, const1f, const0f, name("ysel")); - m_builder.SetInsertPoint(ifthen); - m_ifStack.push(ifend); -} + Value *zcmp = m_builder.CreateFCmpOLT(vec1[2], vec2[2], name("zcmp")); + Value *z = m_builder.CreateSelect(zcmp, const1f, const0f, name("zsel")); -llvm::BasicBlock * Instructions::currentBlock() const -{ - return m_builder.GetInsertBlock(); -} + Value *wcmp = m_builder.CreateFCmpOLT(vec1[3], vec2[3], name("wcmp")); + Value *w = m_builder.CreateSelect(wcmp, const1f, const0f, name("wsel")); -void Instructions::elseop() -{ - assert(!m_ifStack.empty()); - BasicBlock *ifend = BasicBlock::Create(name("ifend"), m_func,0); - m_builder.CreateBr(ifend); - m_builder.SetInsertPoint(m_ifStack.top()); - currentBlock()->setName(name("ifelse")); - m_ifStack.pop(); - m_ifStack.push(ifend); + return vectorFromVals(x, y, z, w); } -void Instructions::endif() +llvm::Value * Instructions::sne(llvm::Value *in1, llvm::Value *in2) { - assert(!m_ifStack.empty()); - m_builder.CreateBr(m_ifStack.top()); - m_builder.SetInsertPoint(m_ifStack.top()); - m_ifStack.pop(); -} + Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); + Constant *const0f = Constant::getNullValue(Type::FloatTy); -llvm::Value * Instructions::lerp(llvm::Value *in1, llvm::Value *in2, - llvm::Value *in3) -{ - llvm::Value *m = mul(in1, in2); - llvm::Value *vec1 = constVector(1.f, 1.f, 1.f, 1.f); - llvm::Value *s = sub(vec1, in1); - return add(m, mul(s, in3)); -} + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); -void Instructions::beginLoop() -{ - BasicBlock *begin = BasicBlock::Create(name("loop"), m_func,0); - BasicBlock *end = BasicBlock::Create(name("endloop"), m_func,0); + Value *xcmp = m_builder.CreateFCmpONE(vec1[0], vec2[0], name("xcmp")); + Value *x = m_builder.CreateSelect(xcmp, const1f, const0f, name("xsel")); - m_builder.CreateBr(begin); - Loop loop; - loop.begin = begin; - loop.end = end; - m_builder.SetInsertPoint(begin); - m_loopStack.push(loop); + Value *ycmp = m_builder.CreateFCmpONE(vec1[1], vec2[1], name("ycmp")); + Value *y = m_builder.CreateSelect(ycmp, const1f, const0f, name("ysel")); + + Value *zcmp = m_builder.CreateFCmpONE(vec1[2], vec2[2], name("zcmp")); + Value *z = m_builder.CreateSelect(zcmp, const1f, const0f, name("zsel")); + + Value *wcmp = m_builder.CreateFCmpONE(vec1[3], vec2[3], name("wcmp")); + Value *w = m_builder.CreateSelect(wcmp, const1f, const0f, name("wsel")); + + return vectorFromVals(x, y, z, w); } -void Instructions::endLoop() +llvm::Value * Instructions::str(llvm::Value *in1, llvm::Value *in2) { - assert(!m_loopStack.empty()); - Loop loop = m_loopStack.top(); - m_builder.CreateBr(loop.begin); - loop.end->moveAfter(currentBlock()); - m_builder.SetInsertPoint(loop.end); - m_loopStack.pop(); + Constant *const1f = ConstantFP::get(APFloat(1.000000e+00f)); + + return vectorFromVals(const1f, const1f, const1f, const1f); } -void Instructions::brk() +llvm::Value * Instructions::sub(llvm::Value *in1, llvm::Value *in2) { - assert(!m_loopStack.empty()); - BasicBlock *unr = BasicBlock::Create(name("unreachable"), m_func,0); - m_builder.CreateBr(m_loopStack.top().end); - m_builder.SetInsertPoint(unr); + Value *res = m_builder.CreateSub(in1, in2, name("sub")); + return res; } llvm::Value * Instructions::trunc(llvm::Value *in) @@ -741,18 +816,273 @@ llvm::Value * Instructions::trunc(llvm::Value *in) return vectorFromVals(fx, fy, fz, fw); } -void Instructions::end() +llvm::Value * Instructions::x2d(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) { - m_builder.CreateRetVoid(); + std::vector<llvm::Value*> vec1 = extractVector(in1); + std::vector<llvm::Value*> vec2 = extractVector(in2); + std::vector<llvm::Value*> vec3 = extractVector(in3); + + Value *x2x3 = m_builder.CreateMul( vec2[0], vec3[0], name("x2x3")); + Value *y2y3 = m_builder.CreateMul( vec2[1], vec3[1], name("y2y3")); + Value *x1px2x3 = m_builder.CreateAdd (vec1[0], x2x3, name("x1 + x2x3")); + Value *x1px2x3py2y3 = m_builder.CreateAdd (x1px2x3, y2y3, name("x1 + x2x3 + y2y3")); + + Value *x2z3 = m_builder.CreateMul( vec2[0], vec3[2], name("x2z3")); + Value *y2w3 = m_builder.CreateMul( vec2[1], vec3[3], name("y2w3")); + Value *y1px2z3 = m_builder.CreateAdd (vec1[1], x2z3, name("y1 + x2z3")); + Value *y1px2z3py2w3 = m_builder.CreateAdd (y1px2z3, y2w3, name("y1 + x2z3 + y2w3")); + + return vectorFromVals(x1px2x3py2y3, y1px2z3py2w3, x1px2x3py2y3, y1px2z3py2w3); } -void Instructions::cal(int label, llvm::Value *input) +void Instructions::printVector(llvm::Value *val) { + static const char *frmt = "Vector is [%f, %f, %f, %f]\x0A"; + + if (!m_fmtPtr) { + Constant *format = ConstantArray::get(frmt, true); + ArrayType *arrayTy = ArrayType::get(IntegerType::get(8), strlen(frmt) + 1); + GlobalVariable* globalFormat = new GlobalVariable( + /*Type=*/arrayTy, + /*isConstant=*/true, + /*Linkage=*/GlobalValue::InternalLinkage, + /*Initializer=*/0, // has initializer, specified below + /*Name=*/name(".str"), + m_mod); + globalFormat->setInitializer(format); + + Constant* const_int0 = Constant::getNullValue(IntegerType::get(32)); + std::vector<Constant*> const_ptr_21_indices; + const_ptr_21_indices.push_back(const_int0); + const_ptr_21_indices.push_back(const_int0); + m_fmtPtr = ConstantExpr::getGetElementPtr(globalFormat, + &const_ptr_21_indices[0], const_ptr_21_indices.size()); + } + + Function *func_printf = m_mod->getFunction("printf"); + if (!func_printf) + func_printf = declarePrintf(); + assert(func_printf); + std::vector<llvm::Value*> vec = extractVector(val); + Value *dx = m_builder.CreateFPExt(vec[0], Type::DoubleTy, name("dx")); + Value *dy = m_builder.CreateFPExt(vec[1], Type::DoubleTy, name("dy")); + Value *dz = m_builder.CreateFPExt(vec[2], Type::DoubleTy, name("dz")); + Value *dw = m_builder.CreateFPExt(vec[3], Type::DoubleTy, name("dw")); std::vector<Value*> params; - params.push_back(input); - llvm::Function *func = findFunction(label); + params.push_back(m_fmtPtr); + params.push_back(dx); + params.push_back(dy); + params.push_back(dz); + params.push_back(dw); + CallInst *call = m_builder.CreateCall(func_printf, params.begin(), params.end(), + name("printf")); + call->setCallingConv(CallingConv::C); + call->setTailCall(true); +} - m_builder.CreateCall(func, params.begin(), params.end()); +const char * Instructions::name(const char *prefix) +{ + ++m_idx; + snprintf(m_name, 32, "%s%d", prefix, m_idx); + return m_name; +} + +llvm::Value *Instructions::callFAbs(llvm::Value *val) +{ + if (!m_llvmFAbs) { + // predeclare the intrinsic + std::vector<const Type*> fabsArgs; + fabsArgs.push_back(Type::FloatTy); + PAListPtr fabsPal; + FunctionType* fabsType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/fabsArgs, + /*isVarArg=*/false); + m_llvmFAbs = Function::Create( + /*Type=*/fabsType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"fabs", m_mod); + m_llvmFAbs->setCallingConv(CallingConv::C); + m_llvmFAbs->setParamAttrs(fabsPal); + } + CallInst *call = m_builder.CreateCall(m_llvmFAbs, val, + name("fabs")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::callFExp(llvm::Value *val) +{ + if (!m_llvmFexp) { + // predeclare the intrinsic + std::vector<const Type*> fexpArgs; + fexpArgs.push_back(Type::FloatTy); + PAListPtr fexpPal; + FunctionType* fexpType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/fexpArgs, + /*isVarArg=*/false); + m_llvmFexp = Function::Create( + /*Type=*/fexpType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"expf", m_mod); + m_llvmFexp->setCallingConv(CallingConv::C); + m_llvmFexp->setParamAttrs(fexpPal); + } + CallInst *call = m_builder.CreateCall(m_llvmFexp, val, + name("expf")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::callFLog(llvm::Value *val) +{ + if (!m_llvmFlog) { + // predeclare the intrinsic + std::vector<const Type*> flogArgs; + flogArgs.push_back(Type::FloatTy); + PAListPtr flogPal; + FunctionType* flogType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/flogArgs, + /*isVarArg=*/false); + m_llvmFlog = Function::Create( + /*Type=*/flogType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"logf", m_mod); + m_llvmFlog->setCallingConv(CallingConv::C); + m_llvmFlog->setParamAttrs(flogPal); + } + CallInst *call = m_builder.CreateCall(m_llvmFlog, val, + name("logf")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::callFloor(llvm::Value *val) +{ + if (!m_llvmFloor) { + // predeclare the intrinsic + std::vector<const Type*> floorArgs; + floorArgs.push_back(Type::FloatTy); + PAListPtr floorPal; + FunctionType* floorType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/floorArgs, + /*isVarArg=*/false); + m_llvmFloor = Function::Create( + /*Type=*/floorType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"floorf", m_mod); + m_llvmFloor->setCallingConv(CallingConv::C); + m_llvmFloor->setParamAttrs(floorPal); + } + CallInst *call = m_builder.CreateCall(m_llvmFloor, val, + name("floorf")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value *Instructions::callFSqrt(llvm::Value *val) +{ + if (!m_llvmFSqrt) { + // predeclare the intrinsic + std::vector<const Type*> fsqrtArgs; + fsqrtArgs.push_back(Type::FloatTy); + PAListPtr fsqrtPal; + FunctionType* fsqrtType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/fsqrtArgs, + /*isVarArg=*/false); + m_llvmFSqrt = Function::Create( + /*Type=*/fsqrtType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"llvm.sqrt.f32", m_mod); + m_llvmFSqrt->setCallingConv(CallingConv::C); + m_llvmFSqrt->setParamAttrs(fsqrtPal); + } + CallInst *call = m_builder.CreateCall(m_llvmFSqrt, val, + name("sqrt")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::callPow(llvm::Value *val1, llvm::Value *val2) +{ + if (!m_llvmPow) { + // predeclare the intrinsic + std::vector<const Type*> powArgs; + powArgs.push_back(Type::FloatTy); + powArgs.push_back(Type::FloatTy); + PAListPtr powPal; + FunctionType* powType = FunctionType::get( + /*Result=*/Type::FloatTy, + /*Params=*/powArgs, + /*isVarArg=*/false); + m_llvmPow = Function::Create( + /*Type=*/powType, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"llvm.pow.f32", m_mod); + m_llvmPow->setCallingConv(CallingConv::C); + m_llvmPow->setParamAttrs(powPal); + } + std::vector<Value*> params; + params.push_back(val1); + params.push_back(val2); + CallInst *call = m_builder.CreateCall(m_llvmPow, params.begin(), params.end(), + name("pow")); + call->setCallingConv(CallingConv::C); + call->setTailCall(false); + return call; +} + +llvm::Value * Instructions::vectorFromVals(llvm::Value *x, llvm::Value *y, + llvm::Value *z, llvm::Value *w) +{ + Constant *const_vec = Constant::getNullValue(m_floatVecType); + Value *res = m_builder.CreateInsertElement(const_vec, x, + m_storage->constantInt(0), + name("vecx")); + res = m_builder.CreateInsertElement(res, y, m_storage->constantInt(1), + name("vecxy")); + res = m_builder.CreateInsertElement(res, z, m_storage->constantInt(2), + name("vecxyz")); + if (w) + res = m_builder.CreateInsertElement(res, w, m_storage->constantInt(3), + name("vecxyzw")); + return res; +} + +llvm::Value * Instructions::constVector(float x, float y, float z, float w) +{ + std::vector<Constant*> vec(4); + vec[0] = ConstantFP::get(APFloat(x)); + vec[1] = ConstantFP::get(APFloat(y)); + vec[2] = ConstantFP::get(APFloat(z)); + vec[3] = ConstantFP::get(APFloat(w)); + return ConstantVector::get(m_floatVecType, vec); +} + +llvm::Function * Instructions::declarePrintf() +{ + std::vector<const Type*> args; + PAListPtr params; + FunctionType* funcTy = FunctionType::get( + /*Result=*/IntegerType::get(32), + /*Params=*/args, + /*isVarArg=*/true); + Function* func_printf = Function::Create( + /*Type=*/funcTy, + /*Linkage=*/GlobalValue::ExternalLinkage, + /*Name=*/"printf", m_mod); + func_printf->setCallingConv(CallingConv::C); + func_printf->setParamAttrs(params); + return func_printf; } llvm::Function * Instructions::declareFunc(int label) @@ -778,27 +1108,6 @@ llvm::Function * Instructions::declareFunc(int label) return func; } -void Instructions::bgnSub(unsigned label) -{ - llvm::Function *func = findFunction(label); - - Function::arg_iterator args = func->arg_begin(); - Value *ptr_INPUT = args++; - ptr_INPUT->setName("INPUT"); - m_storage->pushArguments(ptr_INPUT); - - llvm::BasicBlock *entry = BasicBlock::Create("entry", func, 0); - - m_func = func; - m_builder.SetInsertPoint(entry); -} - -void Instructions::endSub() -{ - m_func = 0; - m_builder.SetInsertPoint(0); -} - llvm::Function * Instructions::findFunction(int label) { llvm::Function *func = m_functions[label]; @@ -809,17 +1118,6 @@ llvm::Function * Instructions::findFunction(int label) return func; } -llvm::Value * Instructions::constVector(float x, float y, float z, float w) -{ - std::vector<Constant*> vec(4); - vec[0] = ConstantFP::get(APFloat(x)); - vec[1] = ConstantFP::get(APFloat(y)); - vec[2] = ConstantFP::get(APFloat(z)); - vec[3] = ConstantFP::get(APFloat(w)); - return ConstantVector::get(m_floatVecType, vec); -} - - std::vector<llvm::Value*> Instructions::extractVector(llvm::Value *vec) { std::vector<llvm::Value*> elems(4); @@ -834,69 +1132,7 @@ std::vector<llvm::Value*> Instructions::extractVector(llvm::Value *vec) return elems; } -llvm::Value * Instructions::cmp(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3) -{ - llvm::Function *func = m_mod->getFunction("cmp"); - assert(func); - - std::vector<Value*> params; - params.push_back(in1); - params.push_back(in2); - params.push_back(in3); - CallInst *call = m_builder.CreateCall(func, params.begin(), params.end(), name("cmpres")); - call->setTailCall(false); - return call; -} - -llvm::Value * Instructions::cos(llvm::Value *in) -{ -#if 0 - llvm::Function *func = m_mod->getFunction("vcos"); - assert(func); - CallInst *call = m_builder.CreateCall(func, in, name("cosres")); - call->setTailCall(false); - return call; -#else - std::vector<llvm::Value*> elems = extractVector(in); - Function *func = m_mod->getFunction("cosf"); - assert(func); - CallInst *cos = m_builder.CreateCall(func, elems[0], name("cosres")); - cos->setCallingConv(CallingConv::C); - cos->setTailCall(true); - return vectorFromVals(cos, cos, cos, cos); -#endif -} - -llvm::Value * Instructions::scs(llvm::Value *in) -{ - llvm::Function *func = m_mod->getFunction("scs"); - assert(func); - - CallInst *call = m_builder.CreateCall(func, in, name("scsres")); - call->setTailCall(false); - return call; -} - -llvm::Value * Instructions::kil(llvm::Value *in) -{ - llvm::Function *func = m_mod->getFunction("kil"); - assert(func); - - CallInst *call = m_builder.CreateCall(func, in, name("kilpres")); - call->setTailCall(false); - return call; -} - -llvm::Value * Instructions::sin(llvm::Value *in) -{ - llvm::Function *func = m_mod->getFunction("vsin"); - assert(func); - - CallInst *call = m_builder.CreateCall(func, in, name("sinres")); - call->setTailCall(false); - return call; -} #endif //MESA_LLVM diff --git a/src/gallium/auxiliary/gallivm/instructions.h b/src/gallium/auxiliary/gallivm/instructions.h index d286ce80c78..8df30f62c8a 100644 --- a/src/gallium/auxiliary/gallivm/instructions.h +++ b/src/gallium/auxiliary/gallivm/instructions.h @@ -57,15 +57,22 @@ public: llvm::BasicBlock *currentBlock() const; llvm::Value *abs(llvm::Value *in1); - llvm::Value *arl(llvm::Value *in1); llvm::Value *add(llvm::Value *in1, llvm::Value *in2); + llvm::Value *arl(llvm::Value *in1); void beginLoop(); void bgnSub(unsigned); void brk(); void cal(int label, llvm::Value *input); + llvm::Value *clamp(llvm::Value *in); llvm::Value *cmp(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); + llvm::Value *cnd(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); + llvm::Value *cnd0(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); llvm::Value *cos(llvm::Value *in); llvm::Value *cross(llvm::Value *in1, llvm::Value *in2); + llvm::Value *ddx(llvm::Value *in); + llvm::Value *ddy(llvm::Value *in); + llvm::Value *div(llvm::Value *in1, llvm::Value *in2); + llvm::Value *dot2add(llvm::Value *in, llvm::Value *in2, llvm::Value *in3); llvm::Value *dp3(llvm::Value *in1, llvm::Value *in2); llvm::Value *dp4(llvm::Value *in1, llvm::Value *in2); llvm::Value *dph(llvm::Value *in1, llvm::Value *in2); @@ -75,6 +82,7 @@ public: void endLoop(); void end(); void endSub(); + llvm::Value *exp(llvm::Value *in); llvm::Value *ex2(llvm::Value *in); llvm::Value *floor(llvm::Value *in); llvm::Value *frc(llvm::Value *in); @@ -82,32 +90,41 @@ public: llvm::Value *kil(llvm::Value *in); llvm::Value *lerp(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); - llvm::Value *lit(llvm::Value *in); llvm::Value *lg2(llvm::Value *in); + llvm::Value *lit(llvm::Value *in); + llvm::Value *log(llvm::Value *in); llvm::Value *madd(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); - llvm::Value *min(llvm::Value *in1, llvm::Value *in2); llvm::Value *max(llvm::Value *in1, llvm::Value *in2); + llvm::Value *min(llvm::Value *in1, llvm::Value *in2); llvm::Value *mul(llvm::Value *in1, llvm::Value *in2); + llvm::Value *neg(llvm::Value *in); llvm::Value *pow(llvm::Value *in1, llvm::Value *in2); llvm::Value *rcp(llvm::Value *in); llvm::Value *rsq(llvm::Value *in); llvm::Value *scs(llvm::Value *in); + llvm::Value *seq(llvm::Value *in1, llvm::Value *in2); + llvm::Value *sfl(llvm::Value *in1, llvm::Value *in2); llvm::Value *sge(llvm::Value *in1, llvm::Value *in2); llvm::Value *sgt(llvm::Value *in1, llvm::Value *in2); llvm::Value *sin(llvm::Value *in); + llvm::Value *sle(llvm::Value *in1, llvm::Value *in2); llvm::Value *slt(llvm::Value *in1, llvm::Value *in2); + llvm::Value *sne(llvm::Value *in1, llvm::Value *in2); + llvm::Value *str(llvm::Value *in1, llvm::Value *in2); llvm::Value *sub(llvm::Value *in1, llvm::Value *in2); llvm::Value *trunc(llvm::Value *in); + llvm::Value *x2d(llvm::Value *in1, llvm::Value *in2, llvm::Value *in3); void printVector(llvm::Value *val); private: const char *name(const char *prefix); llvm::Value *callFAbs(llvm::Value *val); + llvm::Value *callFExp(llvm::Value *val); + llvm::Value *callFLog(llvm::Value *val); llvm::Value *callFloor(llvm::Value *val); llvm::Value *callFSqrt(llvm::Value *val); - llvm::Value *callFLog(llvm::Value *val); llvm::Value *callPow(llvm::Value *val1, llvm::Value *val2); llvm::Value *vectorFromVals(llvm::Value *x, llvm::Value *y, @@ -135,6 +152,7 @@ private: llvm::Function *m_llvmPow; llvm::Function *m_llvmFloor; llvm::Function *m_llvmFlog; + llvm::Function *m_llvmFexp; llvm::Function *m_llvmLit; llvm::Constant *m_fmtPtr; diff --git a/src/gallium/auxiliary/gallivm/tgsitollvm.cpp b/src/gallium/auxiliary/gallivm/tgsitollvm.cpp index cc1516a45e0..398fbd67bd1 100644 --- a/src/gallium/auxiliary/gallivm/tgsitollvm.cpp +++ b/src/gallium/auxiliary/gallivm/tgsitollvm.cpp @@ -286,9 +286,13 @@ translate_instruction(llvm::Module *module, out = instr->rsq(inputs[0]); } break; - case TGSI_OPCODE_EXP: + case TGSI_OPCODE_EXP: { + out = instr->exp(inputs[0]); + } break; - case TGSI_OPCODE_LOG: + case TGSI_OPCODE_LOG: { + out = instr->log(inputs[0]); + } break; case TGSI_OPCODE_MUL: { out = instr->mul(inputs[0], inputs[1]); @@ -338,21 +342,31 @@ translate_instruction(llvm::Module *module, out = instr->lerp(inputs[0], inputs[1], inputs[2]); } break; - case TGSI_OPCODE_CND: + case TGSI_OPCODE_CND: { + out = instr->cnd(inputs[0], inputs[1], inputs[2]); + } break; - case TGSI_OPCODE_CND0: + case TGSI_OPCODE_CND0: { + out = instr->cnd0(inputs[0], inputs[1], inputs[2]); + } break; - case TGSI_OPCODE_DOT2ADD: + case TGSI_OPCODE_DOT2ADD: { + out = instr->dot2add(inputs[0], inputs[1], inputs[2]); + } break; case TGSI_OPCODE_INDEX: break; - case TGSI_OPCODE_NEGATE: + case TGSI_OPCODE_NEGATE: { + out = instr->neg(inputs[0]); + } break; case TGSI_OPCODE_FRAC: { out = instr->frc(inputs[0]); } break; - case TGSI_OPCODE_CLAMP: + case TGSI_OPCODE_CLAMP: { + out = instr->clamp(inputs[0]); + } break; case TGSI_OPCODE_FLOOR: { out = instr->floor(inputs[0]); @@ -392,9 +406,13 @@ translate_instruction(llvm::Module *module, out = instr->cos(inputs[0]); } break; - case TGSI_OPCODE_DDX: + case TGSI_OPCODE_DDX: { + out = instr->ddx(inputs[0]); + } break; - case TGSI_OPCODE_DDY: + case TGSI_OPCODE_DDY: { + out = instr->ddy(inputs[0]); + } break; case TGSI_OPCODE_KILP: break; @@ -408,9 +426,13 @@ translate_instruction(llvm::Module *module, break; case TGSI_OPCODE_RFL: break; - case TGSI_OPCODE_SEQ: + case TGSI_OPCODE_SEQ: { + out = instr->seq(inputs[0], inputs[1]); + } break; - case TGSI_OPCODE_SFL: + case TGSI_OPCODE_SFL: { + out = instr->sfl(inputs[0], inputs[1]); + } break; case TGSI_OPCODE_SGT: { out = instr->sgt(inputs[0], inputs[1]); @@ -420,11 +442,17 @@ translate_instruction(llvm::Module *module, out = instr->sin(inputs[0]); } break; - case TGSI_OPCODE_SLE: + case TGSI_OPCODE_SLE: { + out = instr->sle(inputs[0], inputs[1]); + } break; - case TGSI_OPCODE_SNE: + case TGSI_OPCODE_SNE: { + out = instr->sne(inputs[0], inputs[1]); + } break; - case TGSI_OPCODE_STR: + case TGSI_OPCODE_STR: { + out = instr->str(inputs[0], inputs[1]); + } break; case TGSI_OPCODE_TEX: break; @@ -438,7 +466,9 @@ translate_instruction(llvm::Module *module, break; case TGSI_OPCODE_UP4UB: break; - case TGSI_OPCODE_X2D: + case TGSI_OPCODE_X2D: { + out = instr->x2d(inputs[0], inputs[1], inputs[2]); + } break; case TGSI_OPCODE_ARA: break; |