186de486dSMatt Arsenault //===-- AMDGPUCodeGenPrepare.cpp ------------------------------------------===// 286de486dSMatt Arsenault // 386de486dSMatt Arsenault // The LLVM Compiler Infrastructure 486de486dSMatt Arsenault // 586de486dSMatt Arsenault // This file is distributed under the University of Illinois Open Source 686de486dSMatt Arsenault // License. See LICENSE.TXT for details. 786de486dSMatt Arsenault // 886de486dSMatt Arsenault //===----------------------------------------------------------------------===// 986de486dSMatt Arsenault // 1086de486dSMatt Arsenault /// \file 1186de486dSMatt Arsenault /// This pass does misc. AMDGPU optimizations on IR before instruction 1286de486dSMatt Arsenault /// selection. 1386de486dSMatt Arsenault // 1486de486dSMatt Arsenault //===----------------------------------------------------------------------===// 1586de486dSMatt Arsenault 1686de486dSMatt Arsenault #include "AMDGPU.h" 17a1fe17c9SMatt Arsenault #include "AMDGPUIntrinsicInfo.h" 1886de486dSMatt Arsenault #include "AMDGPUSubtarget.h" 19a1fe17c9SMatt Arsenault #include "AMDGPUTargetMachine.h" 20734bb7bbSEugene Zelenko #include "llvm/ADT/StringRef.h" 2186de486dSMatt Arsenault #include "llvm/Analysis/DivergenceAnalysis.h" 2286de486dSMatt Arsenault #include "llvm/CodeGen/Passes.h" 23734bb7bbSEugene Zelenko #include "llvm/IR/Attributes.h" 24734bb7bbSEugene Zelenko #include "llvm/IR/BasicBlock.h" 25734bb7bbSEugene Zelenko #include "llvm/IR/Constants.h" 26734bb7bbSEugene Zelenko #include "llvm/IR/DerivedTypes.h" 27734bb7bbSEugene Zelenko #include "llvm/IR/Function.h" 28734bb7bbSEugene Zelenko #include "llvm/IR/InstrTypes.h" 29734bb7bbSEugene Zelenko #include "llvm/IR/Instruction.h" 30734bb7bbSEugene Zelenko #include "llvm/IR/Instructions.h" 3186de486dSMatt Arsenault #include "llvm/IR/InstVisitor.h" 32734bb7bbSEugene Zelenko #include "llvm/IR/IntrinsicInst.h" 33734bb7bbSEugene Zelenko #include "llvm/IR/Intrinsics.h" 3486de486dSMatt Arsenault #include "llvm/IR/IRBuilder.h" 35734bb7bbSEugene Zelenko #include "llvm/IR/LLVMContext.h" 36734bb7bbSEugene Zelenko #include "llvm/IR/Operator.h" 37734bb7bbSEugene Zelenko #include "llvm/IR/Type.h" 38734bb7bbSEugene Zelenko #include "llvm/IR/Value.h" 39734bb7bbSEugene Zelenko #include "llvm/Pass.h" 40734bb7bbSEugene Zelenko #include "llvm/Support/Casting.h" 41734bb7bbSEugene Zelenko #include <cassert> 42734bb7bbSEugene Zelenko #include <iterator> 4386de486dSMatt Arsenault 4486de486dSMatt Arsenault #define DEBUG_TYPE "amdgpu-codegenprepare" 4586de486dSMatt Arsenault 4686de486dSMatt Arsenault using namespace llvm; 4786de486dSMatt Arsenault 4886de486dSMatt Arsenault namespace { 4986de486dSMatt Arsenault 5086de486dSMatt Arsenault class AMDGPUCodeGenPrepare : public FunctionPass, 51a1fe17c9SMatt Arsenault public InstVisitor<AMDGPUCodeGenPrepare, bool> { 52a1fe17c9SMatt Arsenault const GCNTargetMachine *TM; 53734bb7bbSEugene Zelenko const SISubtarget *ST = nullptr; 54734bb7bbSEugene Zelenko DivergenceAnalysis *DA = nullptr; 55734bb7bbSEugene Zelenko Module *Mod = nullptr; 56734bb7bbSEugene Zelenko bool HasUnsafeFPMath = false; 5786de486dSMatt Arsenault 58f74fc60aSKonstantin Zhuravlyov /// \brief Copies exact/nsw/nuw flags (if any) from binary operation \p I to 59f74fc60aSKonstantin Zhuravlyov /// binary operation \p V. 60e14df4b2SKonstantin Zhuravlyov /// 61f74fc60aSKonstantin Zhuravlyov /// \returns Binary operation \p V. 62f74fc60aSKonstantin Zhuravlyov /// \returns \p T's base element bit width. 63f74fc60aSKonstantin Zhuravlyov unsigned getBaseElementBitWidth(const Type *T) const; 64e14df4b2SKonstantin Zhuravlyov 65f74fc60aSKonstantin Zhuravlyov /// \returns Equivalent 32 bit integer type for given type \p T. For example, 66f74fc60aSKonstantin Zhuravlyov /// if \p T is i7, then i32 is returned; if \p T is <3 x i12>, then <3 x i32> 67f74fc60aSKonstantin Zhuravlyov /// is returned. 68e14df4b2SKonstantin Zhuravlyov Type *getI32Ty(IRBuilder<> &B, const Type *T) const; 69e14df4b2SKonstantin Zhuravlyov 70e14df4b2SKonstantin Zhuravlyov /// \returns True if binary operation \p I is a signed binary operation, false 71e14df4b2SKonstantin Zhuravlyov /// otherwise. 72e14df4b2SKonstantin Zhuravlyov bool isSigned(const BinaryOperator &I) const; 73e14df4b2SKonstantin Zhuravlyov 74e14df4b2SKonstantin Zhuravlyov /// \returns True if the condition of 'select' operation \p I comes from a 75e14df4b2SKonstantin Zhuravlyov /// signed 'icmp' operation, false otherwise. 76e14df4b2SKonstantin Zhuravlyov bool isSigned(const SelectInst &I) const; 77e14df4b2SKonstantin Zhuravlyov 78f74fc60aSKonstantin Zhuravlyov /// \returns True if type \p T needs to be promoted to 32 bit integer type, 79f74fc60aSKonstantin Zhuravlyov /// false otherwise. 80f74fc60aSKonstantin Zhuravlyov bool needsPromotionToI32(const Type *T) const; 81e14df4b2SKonstantin Zhuravlyov 82f74fc60aSKonstantin Zhuravlyov /// \brief Promotes uniform binary operation \p I to equivalent 32 bit binary 83f74fc60aSKonstantin Zhuravlyov /// operation. 84f74fc60aSKonstantin Zhuravlyov /// 85f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 86f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 87f74fc60aSKonstantin Zhuravlyov /// 32 bits, replacing \p I with equivalent 32 bit binary operation, and 88f74fc60aSKonstantin Zhuravlyov /// truncating the result of 32 bit binary operation back to \p I's original 89f74fc60aSKonstantin Zhuravlyov /// type. Division operation is not promoted. 90f74fc60aSKonstantin Zhuravlyov /// 91f74fc60aSKonstantin Zhuravlyov /// \returns True if \p I is promoted to equivalent 32 bit binary operation, 92f74fc60aSKonstantin Zhuravlyov /// false otherwise. 93f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(BinaryOperator &I) const; 94f74fc60aSKonstantin Zhuravlyov 95f74fc60aSKonstantin Zhuravlyov /// \brief Promotes uniform 'icmp' operation \p I to 32 bit 'icmp' operation. 96f74fc60aSKonstantin Zhuravlyov /// 97f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 98f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 99f74fc60aSKonstantin Zhuravlyov /// 32 bits, and replacing \p I with 32 bit 'icmp' operation. 100e14df4b2SKonstantin Zhuravlyov /// 101e14df4b2SKonstantin Zhuravlyov /// \returns True. 102f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(ICmpInst &I) const; 103e14df4b2SKonstantin Zhuravlyov 104f74fc60aSKonstantin Zhuravlyov /// \brief Promotes uniform 'select' operation \p I to 32 bit 'select' 105f74fc60aSKonstantin Zhuravlyov /// operation. 106f74fc60aSKonstantin Zhuravlyov /// 107f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 108f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 109f74fc60aSKonstantin Zhuravlyov /// 32 bits, replacing \p I with 32 bit 'select' operation, and truncating the 110f74fc60aSKonstantin Zhuravlyov /// result of 32 bit 'select' operation back to \p I's original type. 111e14df4b2SKonstantin Zhuravlyov /// 112e14df4b2SKonstantin Zhuravlyov /// \returns True. 113f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(SelectInst &I) const; 114b4eb5d50SKonstantin Zhuravlyov 115f74fc60aSKonstantin Zhuravlyov /// \brief Promotes uniform 'bitreverse' intrinsic \p I to 32 bit 'bitreverse' 116f74fc60aSKonstantin Zhuravlyov /// intrinsic. 117f74fc60aSKonstantin Zhuravlyov /// 118f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 119f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by zero extending the operand to 32 120f74fc60aSKonstantin Zhuravlyov /// bits, replacing \p I with 32 bit 'bitreverse' intrinsic, shifting the 121f74fc60aSKonstantin Zhuravlyov /// result of 32 bit 'bitreverse' intrinsic to the right with zero fill (the 122f74fc60aSKonstantin Zhuravlyov /// shift amount is 32 minus \p I's base element bit width), and truncating 123f74fc60aSKonstantin Zhuravlyov /// the result of the shift operation back to \p I's original type. 124b4eb5d50SKonstantin Zhuravlyov /// 125b4eb5d50SKonstantin Zhuravlyov /// \returns True. 126f74fc60aSKonstantin Zhuravlyov bool promoteUniformBitreverseToI32(IntrinsicInst &I) const; 127e14df4b2SKonstantin Zhuravlyov 12886de486dSMatt Arsenault public: 12986de486dSMatt Arsenault static char ID; 130734bb7bbSEugene Zelenko 13186de486dSMatt Arsenault AMDGPUCodeGenPrepare(const TargetMachine *TM = nullptr) : 132734bb7bbSEugene Zelenko FunctionPass(ID), TM(static_cast<const GCNTargetMachine *>(TM)) {} 133a1fe17c9SMatt Arsenault 134a1fe17c9SMatt Arsenault bool visitFDiv(BinaryOperator &I); 135a1fe17c9SMatt Arsenault 136e14df4b2SKonstantin Zhuravlyov bool visitInstruction(Instruction &I) { return false; } 137e14df4b2SKonstantin Zhuravlyov bool visitBinaryOperator(BinaryOperator &I); 138e14df4b2SKonstantin Zhuravlyov bool visitICmpInst(ICmpInst &I); 139e14df4b2SKonstantin Zhuravlyov bool visitSelectInst(SelectInst &I); 14086de486dSMatt Arsenault 141b4eb5d50SKonstantin Zhuravlyov bool visitIntrinsicInst(IntrinsicInst &I); 142b4eb5d50SKonstantin Zhuravlyov bool visitBitreverseIntrinsicInst(IntrinsicInst &I); 143b4eb5d50SKonstantin Zhuravlyov 14486de486dSMatt Arsenault bool doInitialization(Module &M) override; 14586de486dSMatt Arsenault bool runOnFunction(Function &F) override; 14686de486dSMatt Arsenault 147117296c0SMehdi Amini StringRef getPassName() const override { return "AMDGPU IR optimizations"; } 14886de486dSMatt Arsenault 14986de486dSMatt Arsenault void getAnalysisUsage(AnalysisUsage &AU) const override { 15086de486dSMatt Arsenault AU.addRequired<DivergenceAnalysis>(); 15186de486dSMatt Arsenault AU.setPreservesAll(); 15286de486dSMatt Arsenault } 15386de486dSMatt Arsenault }; 15486de486dSMatt Arsenault 155734bb7bbSEugene Zelenko } // end anonymous namespace 15686de486dSMatt Arsenault 157f74fc60aSKonstantin Zhuravlyov unsigned AMDGPUCodeGenPrepare::getBaseElementBitWidth(const Type *T) const { 158f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(T) && "T does not need promotion to i32"); 159e14df4b2SKonstantin Zhuravlyov 160e14df4b2SKonstantin Zhuravlyov if (T->isIntegerTy()) 161f74fc60aSKonstantin Zhuravlyov return T->getIntegerBitWidth(); 162f74fc60aSKonstantin Zhuravlyov return cast<VectorType>(T)->getElementType()->getIntegerBitWidth(); 163e14df4b2SKonstantin Zhuravlyov } 164e14df4b2SKonstantin Zhuravlyov 165e14df4b2SKonstantin Zhuravlyov Type *AMDGPUCodeGenPrepare::getI32Ty(IRBuilder<> &B, const Type *T) const { 166f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(T) && "T does not need promotion to i32"); 167e14df4b2SKonstantin Zhuravlyov 168e14df4b2SKonstantin Zhuravlyov if (T->isIntegerTy()) 169e14df4b2SKonstantin Zhuravlyov return B.getInt32Ty(); 170e14df4b2SKonstantin Zhuravlyov return VectorType::get(B.getInt32Ty(), cast<VectorType>(T)->getNumElements()); 171e14df4b2SKonstantin Zhuravlyov } 172e14df4b2SKonstantin Zhuravlyov 173e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::isSigned(const BinaryOperator &I) const { 174691e2e02SKonstantin Zhuravlyov return I.getOpcode() == Instruction::AShr || 175691e2e02SKonstantin Zhuravlyov I.getOpcode() == Instruction::SDiv || I.getOpcode() == Instruction::SRem; 176e14df4b2SKonstantin Zhuravlyov } 177e14df4b2SKonstantin Zhuravlyov 178e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::isSigned(const SelectInst &I) const { 179e14df4b2SKonstantin Zhuravlyov return isa<ICmpInst>(I.getOperand(0)) ? 180e14df4b2SKonstantin Zhuravlyov cast<ICmpInst>(I.getOperand(0))->isSigned() : false; 181e14df4b2SKonstantin Zhuravlyov } 182e14df4b2SKonstantin Zhuravlyov 183f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::needsPromotionToI32(const Type *T) const { 184*eb522e68SMatt Arsenault const IntegerType *IntTy = dyn_cast<IntegerType>(T); 185*eb522e68SMatt Arsenault if (IntTy && IntTy->getBitWidth() > 1 && IntTy->getBitWidth() <= 16) 186f74fc60aSKonstantin Zhuravlyov return true; 187*eb522e68SMatt Arsenault 188*eb522e68SMatt Arsenault if (const VectorType *VT = dyn_cast<VectorType>(T)) { 189*eb522e68SMatt Arsenault // TODO: The set of packed operations is more limited, so may want to 190*eb522e68SMatt Arsenault // promote some anyway. 191*eb522e68SMatt Arsenault if (ST->hasVOP3PInsts()) 192f74fc60aSKonstantin Zhuravlyov return false; 193*eb522e68SMatt Arsenault 194*eb522e68SMatt Arsenault return needsPromotionToI32(VT->getElementType()); 195*eb522e68SMatt Arsenault } 196*eb522e68SMatt Arsenault 197*eb522e68SMatt Arsenault return false; 198f74fc60aSKonstantin Zhuravlyov } 199e14df4b2SKonstantin Zhuravlyov 200d59e6404SMatt Arsenault // Return true if the op promoted to i32 should have nsw set. 201d59e6404SMatt Arsenault static bool promotedOpIsNSW(const Instruction &I) { 202d59e6404SMatt Arsenault switch (I.getOpcode()) { 203d59e6404SMatt Arsenault case Instruction::Shl: 204d59e6404SMatt Arsenault case Instruction::Add: 205d59e6404SMatt Arsenault case Instruction::Sub: 206d59e6404SMatt Arsenault return true; 207d59e6404SMatt Arsenault case Instruction::Mul: 208d59e6404SMatt Arsenault return I.hasNoUnsignedWrap(); 209d59e6404SMatt Arsenault default: 210d59e6404SMatt Arsenault return false; 211d59e6404SMatt Arsenault } 212d59e6404SMatt Arsenault } 213d59e6404SMatt Arsenault 214d59e6404SMatt Arsenault // Return true if the op promoted to i32 should have nuw set. 215d59e6404SMatt Arsenault static bool promotedOpIsNUW(const Instruction &I) { 216d59e6404SMatt Arsenault switch (I.getOpcode()) { 217d59e6404SMatt Arsenault case Instruction::Shl: 218d59e6404SMatt Arsenault case Instruction::Add: 219d59e6404SMatt Arsenault case Instruction::Mul: 220d59e6404SMatt Arsenault return true; 221d59e6404SMatt Arsenault case Instruction::Sub: 222d59e6404SMatt Arsenault return I.hasNoUnsignedWrap(); 223d59e6404SMatt Arsenault default: 224d59e6404SMatt Arsenault return false; 225d59e6404SMatt Arsenault } 226d59e6404SMatt Arsenault } 227d59e6404SMatt Arsenault 228f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(BinaryOperator &I) const { 229f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 230f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 231f74fc60aSKonstantin Zhuravlyov 232f74fc60aSKonstantin Zhuravlyov if (I.getOpcode() == Instruction::SDiv || 233f74fc60aSKonstantin Zhuravlyov I.getOpcode() == Instruction::UDiv) 234e14df4b2SKonstantin Zhuravlyov return false; 235e14df4b2SKonstantin Zhuravlyov 236e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 237e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 238e14df4b2SKonstantin Zhuravlyov 239e14df4b2SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 240e14df4b2SKonstantin Zhuravlyov Value *ExtOp0 = nullptr; 241e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 242e14df4b2SKonstantin Zhuravlyov Value *ExtRes = nullptr; 243e14df4b2SKonstantin Zhuravlyov Value *TruncRes = nullptr; 244e14df4b2SKonstantin Zhuravlyov 245e14df4b2SKonstantin Zhuravlyov if (isSigned(I)) { 246e14df4b2SKonstantin Zhuravlyov ExtOp0 = Builder.CreateSExt(I.getOperand(0), I32Ty); 247e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 248e14df4b2SKonstantin Zhuravlyov } else { 249e14df4b2SKonstantin Zhuravlyov ExtOp0 = Builder.CreateZExt(I.getOperand(0), I32Ty); 250e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 251e14df4b2SKonstantin Zhuravlyov } 252d59e6404SMatt Arsenault 253d59e6404SMatt Arsenault ExtRes = Builder.CreateBinOp(I.getOpcode(), ExtOp0, ExtOp1); 254d59e6404SMatt Arsenault if (Instruction *Inst = dyn_cast<Instruction>(ExtRes)) { 255d59e6404SMatt Arsenault if (promotedOpIsNSW(cast<Instruction>(I))) 256d59e6404SMatt Arsenault Inst->setHasNoSignedWrap(); 257d59e6404SMatt Arsenault 258d59e6404SMatt Arsenault if (promotedOpIsNUW(cast<Instruction>(I))) 259d59e6404SMatt Arsenault Inst->setHasNoUnsignedWrap(); 260d59e6404SMatt Arsenault 261d59e6404SMatt Arsenault if (const auto *ExactOp = dyn_cast<PossiblyExactOperator>(&I)) 262d59e6404SMatt Arsenault Inst->setIsExact(ExactOp->isExact()); 263d59e6404SMatt Arsenault } 264d59e6404SMatt Arsenault 265f74fc60aSKonstantin Zhuravlyov TruncRes = Builder.CreateTrunc(ExtRes, I.getType()); 266e14df4b2SKonstantin Zhuravlyov 267e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 268e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 269e14df4b2SKonstantin Zhuravlyov 270e14df4b2SKonstantin Zhuravlyov return true; 271e14df4b2SKonstantin Zhuravlyov } 272e14df4b2SKonstantin Zhuravlyov 273f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(ICmpInst &I) const { 274f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getOperand(0)->getType()) && 275f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 276e14df4b2SKonstantin Zhuravlyov 277e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 278e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 279e14df4b2SKonstantin Zhuravlyov 280f74fc60aSKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getOperand(0)->getType()); 281e14df4b2SKonstantin Zhuravlyov Value *ExtOp0 = nullptr; 282e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 283e14df4b2SKonstantin Zhuravlyov Value *NewICmp = nullptr; 284e14df4b2SKonstantin Zhuravlyov 285e14df4b2SKonstantin Zhuravlyov if (I.isSigned()) { 286f74fc60aSKonstantin Zhuravlyov ExtOp0 = Builder.CreateSExt(I.getOperand(0), I32Ty); 287f74fc60aSKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 288e14df4b2SKonstantin Zhuravlyov } else { 289f74fc60aSKonstantin Zhuravlyov ExtOp0 = Builder.CreateZExt(I.getOperand(0), I32Ty); 290f74fc60aSKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 291e14df4b2SKonstantin Zhuravlyov } 292e14df4b2SKonstantin Zhuravlyov NewICmp = Builder.CreateICmp(I.getPredicate(), ExtOp0, ExtOp1); 293e14df4b2SKonstantin Zhuravlyov 294e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(NewICmp); 295e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 296e14df4b2SKonstantin Zhuravlyov 297e14df4b2SKonstantin Zhuravlyov return true; 298e14df4b2SKonstantin Zhuravlyov } 299e14df4b2SKonstantin Zhuravlyov 300f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(SelectInst &I) const { 301f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 302f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 303e14df4b2SKonstantin Zhuravlyov 304e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 305e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 306e14df4b2SKonstantin Zhuravlyov 307e14df4b2SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 308e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 309e14df4b2SKonstantin Zhuravlyov Value *ExtOp2 = nullptr; 310e14df4b2SKonstantin Zhuravlyov Value *ExtRes = nullptr; 311e14df4b2SKonstantin Zhuravlyov Value *TruncRes = nullptr; 312e14df4b2SKonstantin Zhuravlyov 313e14df4b2SKonstantin Zhuravlyov if (isSigned(I)) { 314e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 315e14df4b2SKonstantin Zhuravlyov ExtOp2 = Builder.CreateSExt(I.getOperand(2), I32Ty); 316e14df4b2SKonstantin Zhuravlyov } else { 317e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 318e14df4b2SKonstantin Zhuravlyov ExtOp2 = Builder.CreateZExt(I.getOperand(2), I32Ty); 319e14df4b2SKonstantin Zhuravlyov } 320e14df4b2SKonstantin Zhuravlyov ExtRes = Builder.CreateSelect(I.getOperand(0), ExtOp1, ExtOp2); 321f74fc60aSKonstantin Zhuravlyov TruncRes = Builder.CreateTrunc(ExtRes, I.getType()); 322e14df4b2SKonstantin Zhuravlyov 323e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 324e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 325e14df4b2SKonstantin Zhuravlyov 326e14df4b2SKonstantin Zhuravlyov return true; 327e14df4b2SKonstantin Zhuravlyov } 328e14df4b2SKonstantin Zhuravlyov 329f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformBitreverseToI32( 330b4eb5d50SKonstantin Zhuravlyov IntrinsicInst &I) const { 331f74fc60aSKonstantin Zhuravlyov assert(I.getIntrinsicID() == Intrinsic::bitreverse && 332f74fc60aSKonstantin Zhuravlyov "I must be bitreverse intrinsic"); 333f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 334f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 335b4eb5d50SKonstantin Zhuravlyov 336b4eb5d50SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 337b4eb5d50SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 338b4eb5d50SKonstantin Zhuravlyov 339b4eb5d50SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 340b4eb5d50SKonstantin Zhuravlyov Function *I32 = 341c09e2d7eSKonstantin Zhuravlyov Intrinsic::getDeclaration(Mod, Intrinsic::bitreverse, { I32Ty }); 342b4eb5d50SKonstantin Zhuravlyov Value *ExtOp = Builder.CreateZExt(I.getOperand(0), I32Ty); 343b4eb5d50SKonstantin Zhuravlyov Value *ExtRes = Builder.CreateCall(I32, { ExtOp }); 344f74fc60aSKonstantin Zhuravlyov Value *LShrOp = 345f74fc60aSKonstantin Zhuravlyov Builder.CreateLShr(ExtRes, 32 - getBaseElementBitWidth(I.getType())); 346b4eb5d50SKonstantin Zhuravlyov Value *TruncRes = 347f74fc60aSKonstantin Zhuravlyov Builder.CreateTrunc(LShrOp, I.getType()); 348b4eb5d50SKonstantin Zhuravlyov 349b4eb5d50SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 350b4eb5d50SKonstantin Zhuravlyov I.eraseFromParent(); 351b4eb5d50SKonstantin Zhuravlyov 352b4eb5d50SKonstantin Zhuravlyov return true; 353b4eb5d50SKonstantin Zhuravlyov } 354b4eb5d50SKonstantin Zhuravlyov 355a1fe17c9SMatt Arsenault static bool shouldKeepFDivF32(Value *Num, bool UnsafeDiv) { 356a1fe17c9SMatt Arsenault const ConstantFP *CNum = dyn_cast<ConstantFP>(Num); 357a1fe17c9SMatt Arsenault if (!CNum) 358a1fe17c9SMatt Arsenault return false; 359a1fe17c9SMatt Arsenault 360a1fe17c9SMatt Arsenault // Reciprocal f32 is handled separately without denormals. 361e3862cdcSMatt Arsenault return UnsafeDiv || CNum->isExactlyValue(+1.0); 362a1fe17c9SMatt Arsenault } 363a1fe17c9SMatt Arsenault 364a1fe17c9SMatt Arsenault // Insert an intrinsic for fast fdiv for safe math situations where we can 365a1fe17c9SMatt Arsenault // reduce precision. Leave fdiv for situations where the generic node is 366a1fe17c9SMatt Arsenault // expected to be optimized. 367a1fe17c9SMatt Arsenault bool AMDGPUCodeGenPrepare::visitFDiv(BinaryOperator &FDiv) { 368a1fe17c9SMatt Arsenault Type *Ty = FDiv.getType(); 369a1fe17c9SMatt Arsenault 370a1fe17c9SMatt Arsenault if (!Ty->getScalarType()->isFloatTy()) 371a1fe17c9SMatt Arsenault return false; 372a1fe17c9SMatt Arsenault 373a1fe17c9SMatt Arsenault MDNode *FPMath = FDiv.getMetadata(LLVMContext::MD_fpmath); 374a1fe17c9SMatt Arsenault if (!FPMath) 375a1fe17c9SMatt Arsenault return false; 376a1fe17c9SMatt Arsenault 377a1fe17c9SMatt Arsenault const FPMathOperator *FPOp = cast<const FPMathOperator>(&FDiv); 378a1fe17c9SMatt Arsenault float ULP = FPOp->getFPAccuracy(); 379a1fe17c9SMatt Arsenault if (ULP < 2.5f) 380a1fe17c9SMatt Arsenault return false; 381a1fe17c9SMatt Arsenault 382a1fe17c9SMatt Arsenault FastMathFlags FMF = FPOp->getFastMathFlags(); 383a1fe17c9SMatt Arsenault bool UnsafeDiv = HasUnsafeFPMath || FMF.unsafeAlgebra() || 384a1fe17c9SMatt Arsenault FMF.allowReciprocal(); 385a1fe17c9SMatt Arsenault if (ST->hasFP32Denormals() && !UnsafeDiv) 386a1fe17c9SMatt Arsenault return false; 387a1fe17c9SMatt Arsenault 388a1fe17c9SMatt Arsenault IRBuilder<> Builder(FDiv.getParent(), std::next(FDiv.getIterator()), FPMath); 389a1fe17c9SMatt Arsenault Builder.setFastMathFlags(FMF); 390a1fe17c9SMatt Arsenault Builder.SetCurrentDebugLocation(FDiv.getDebugLoc()); 391a1fe17c9SMatt Arsenault 392a1fe17c9SMatt Arsenault const AMDGPUIntrinsicInfo *II = TM->getIntrinsicInfo(); 393a1fe17c9SMatt Arsenault Function *Decl 394a1fe17c9SMatt Arsenault = II->getDeclaration(Mod, AMDGPUIntrinsic::amdgcn_fdiv_fast, {}); 395a1fe17c9SMatt Arsenault 396a1fe17c9SMatt Arsenault Value *Num = FDiv.getOperand(0); 397a1fe17c9SMatt Arsenault Value *Den = FDiv.getOperand(1); 398a1fe17c9SMatt Arsenault 399a1fe17c9SMatt Arsenault Value *NewFDiv = nullptr; 400a1fe17c9SMatt Arsenault 401a1fe17c9SMatt Arsenault if (VectorType *VT = dyn_cast<VectorType>(Ty)) { 402a1fe17c9SMatt Arsenault NewFDiv = UndefValue::get(VT); 403a1fe17c9SMatt Arsenault 404a1fe17c9SMatt Arsenault // FIXME: Doesn't do the right thing for cases where the vector is partially 405a1fe17c9SMatt Arsenault // constant. This works when the scalarizer pass is run first. 406a1fe17c9SMatt Arsenault for (unsigned I = 0, E = VT->getNumElements(); I != E; ++I) { 407a1fe17c9SMatt Arsenault Value *NumEltI = Builder.CreateExtractElement(Num, I); 408a1fe17c9SMatt Arsenault Value *DenEltI = Builder.CreateExtractElement(Den, I); 409a1fe17c9SMatt Arsenault Value *NewElt; 410a1fe17c9SMatt Arsenault 411a1fe17c9SMatt Arsenault if (shouldKeepFDivF32(NumEltI, UnsafeDiv)) { 412a1fe17c9SMatt Arsenault NewElt = Builder.CreateFDiv(NumEltI, DenEltI); 413a1fe17c9SMatt Arsenault } else { 414a1fe17c9SMatt Arsenault NewElt = Builder.CreateCall(Decl, { NumEltI, DenEltI }); 415a1fe17c9SMatt Arsenault } 416a1fe17c9SMatt Arsenault 417a1fe17c9SMatt Arsenault NewFDiv = Builder.CreateInsertElement(NewFDiv, NewElt, I); 418a1fe17c9SMatt Arsenault } 419a1fe17c9SMatt Arsenault } else { 420a1fe17c9SMatt Arsenault if (!shouldKeepFDivF32(Num, UnsafeDiv)) 421a1fe17c9SMatt Arsenault NewFDiv = Builder.CreateCall(Decl, { Num, Den }); 422a1fe17c9SMatt Arsenault } 423a1fe17c9SMatt Arsenault 424a1fe17c9SMatt Arsenault if (NewFDiv) { 425a1fe17c9SMatt Arsenault FDiv.replaceAllUsesWith(NewFDiv); 426a1fe17c9SMatt Arsenault NewFDiv->takeName(&FDiv); 427a1fe17c9SMatt Arsenault FDiv.eraseFromParent(); 428a1fe17c9SMatt Arsenault } 429a1fe17c9SMatt Arsenault 430a1fe17c9SMatt Arsenault return true; 431a1fe17c9SMatt Arsenault } 432a1fe17c9SMatt Arsenault 433a1fe17c9SMatt Arsenault static bool hasUnsafeFPMath(const Function &F) { 434a1fe17c9SMatt Arsenault Attribute Attr = F.getFnAttribute("unsafe-fp-math"); 435a1fe17c9SMatt Arsenault return Attr.getValueAsString() == "true"; 436a1fe17c9SMatt Arsenault } 437a1fe17c9SMatt Arsenault 438e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitBinaryOperator(BinaryOperator &I) { 439e14df4b2SKonstantin Zhuravlyov bool Changed = false; 440e14df4b2SKonstantin Zhuravlyov 441f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 442f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 443f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformOpToI32(I); 444e14df4b2SKonstantin Zhuravlyov 445e14df4b2SKonstantin Zhuravlyov return Changed; 446e14df4b2SKonstantin Zhuravlyov } 447e14df4b2SKonstantin Zhuravlyov 448e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitICmpInst(ICmpInst &I) { 449e14df4b2SKonstantin Zhuravlyov bool Changed = false; 450e14df4b2SKonstantin Zhuravlyov 451f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getOperand(0)->getType()) && 452f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 453f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformOpToI32(I); 454e14df4b2SKonstantin Zhuravlyov 455e14df4b2SKonstantin Zhuravlyov return Changed; 456e14df4b2SKonstantin Zhuravlyov } 457e14df4b2SKonstantin Zhuravlyov 458e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitSelectInst(SelectInst &I) { 459e14df4b2SKonstantin Zhuravlyov bool Changed = false; 460e14df4b2SKonstantin Zhuravlyov 461f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 462f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 463f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformOpToI32(I); 464b4eb5d50SKonstantin Zhuravlyov 465b4eb5d50SKonstantin Zhuravlyov return Changed; 466b4eb5d50SKonstantin Zhuravlyov } 467b4eb5d50SKonstantin Zhuravlyov 468b4eb5d50SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitIntrinsicInst(IntrinsicInst &I) { 469b4eb5d50SKonstantin Zhuravlyov switch (I.getIntrinsicID()) { 470b4eb5d50SKonstantin Zhuravlyov case Intrinsic::bitreverse: 471b4eb5d50SKonstantin Zhuravlyov return visitBitreverseIntrinsicInst(I); 472b4eb5d50SKonstantin Zhuravlyov default: 473b4eb5d50SKonstantin Zhuravlyov return false; 474b4eb5d50SKonstantin Zhuravlyov } 475b4eb5d50SKonstantin Zhuravlyov } 476b4eb5d50SKonstantin Zhuravlyov 477b4eb5d50SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitBitreverseIntrinsicInst(IntrinsicInst &I) { 478b4eb5d50SKonstantin Zhuravlyov bool Changed = false; 479b4eb5d50SKonstantin Zhuravlyov 480f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 481f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 482f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformBitreverseToI32(I); 483e14df4b2SKonstantin Zhuravlyov 484e14df4b2SKonstantin Zhuravlyov return Changed; 485e14df4b2SKonstantin Zhuravlyov } 486e14df4b2SKonstantin Zhuravlyov 48786de486dSMatt Arsenault bool AMDGPUCodeGenPrepare::doInitialization(Module &M) { 488a1fe17c9SMatt Arsenault Mod = &M; 48986de486dSMatt Arsenault return false; 49086de486dSMatt Arsenault } 49186de486dSMatt Arsenault 49286de486dSMatt Arsenault bool AMDGPUCodeGenPrepare::runOnFunction(Function &F) { 49386de486dSMatt Arsenault if (!TM || skipFunction(F)) 49486de486dSMatt Arsenault return false; 49586de486dSMatt Arsenault 496a1fe17c9SMatt Arsenault ST = &TM->getSubtarget<SISubtarget>(F); 49786de486dSMatt Arsenault DA = &getAnalysis<DivergenceAnalysis>(); 498a1fe17c9SMatt Arsenault HasUnsafeFPMath = hasUnsafeFPMath(F); 49986de486dSMatt Arsenault 500a1fe17c9SMatt Arsenault bool MadeChange = false; 501a1fe17c9SMatt Arsenault 502a1fe17c9SMatt Arsenault for (BasicBlock &BB : F) { 503a1fe17c9SMatt Arsenault BasicBlock::iterator Next; 504a1fe17c9SMatt Arsenault for (BasicBlock::iterator I = BB.begin(), E = BB.end(); I != E; I = Next) { 505a1fe17c9SMatt Arsenault Next = std::next(I); 506a1fe17c9SMatt Arsenault MadeChange |= visit(*I); 507a1fe17c9SMatt Arsenault } 508a1fe17c9SMatt Arsenault } 509a1fe17c9SMatt Arsenault 510a1fe17c9SMatt Arsenault return MadeChange; 51186de486dSMatt Arsenault } 51286de486dSMatt Arsenault 51386de486dSMatt Arsenault INITIALIZE_TM_PASS_BEGIN(AMDGPUCodeGenPrepare, DEBUG_TYPE, 51486de486dSMatt Arsenault "AMDGPU IR optimizations", false, false) 51586de486dSMatt Arsenault INITIALIZE_PASS_DEPENDENCY(DivergenceAnalysis) 51686de486dSMatt Arsenault INITIALIZE_TM_PASS_END(AMDGPUCodeGenPrepare, DEBUG_TYPE, 51786de486dSMatt Arsenault "AMDGPU IR optimizations", false, false) 51886de486dSMatt Arsenault 51986de486dSMatt Arsenault char AMDGPUCodeGenPrepare::ID = 0; 52086de486dSMatt Arsenault 521a1fe17c9SMatt Arsenault FunctionPass *llvm::createAMDGPUCodeGenPreparePass(const GCNTargetMachine *TM) { 52286de486dSMatt Arsenault return new AMDGPUCodeGenPrepare(TM); 52386de486dSMatt Arsenault } 524