186de486dSMatt Arsenault //===-- AMDGPUCodeGenPrepare.cpp ------------------------------------------===// 286de486dSMatt Arsenault // 32946cd70SChandler Carruth // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 42946cd70SChandler Carruth // See https://llvm.org/LICENSE.txt for license information. 52946cd70SChandler Carruth // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 686de486dSMatt Arsenault // 786de486dSMatt Arsenault //===----------------------------------------------------------------------===// 886de486dSMatt Arsenault // 986de486dSMatt Arsenault /// \file 1086de486dSMatt Arsenault /// This pass does misc. AMDGPU optimizations on IR before instruction 1186de486dSMatt Arsenault /// selection. 1286de486dSMatt Arsenault // 1386de486dSMatt Arsenault //===----------------------------------------------------------------------===// 1486de486dSMatt Arsenault 1586de486dSMatt Arsenault #include "AMDGPU.h" 1686de486dSMatt Arsenault #include "AMDGPUSubtarget.h" 17a1fe17c9SMatt Arsenault #include "AMDGPUTargetMachine.h" 18734bb7bbSEugene Zelenko #include "llvm/ADT/StringRef.h" 197e7268acSStanislav Mekhanoshin #include "llvm/Analysis/AssumptionCache.h" 20bcd91778SMatt Arsenault #include "llvm/Analysis/ConstantFolding.h" 2135617ed4SNicolai Haehnle #include "llvm/Analysis/LegacyDivergenceAnalysis.h" 22a126a13bSWei Ding #include "llvm/Analysis/Loads.h" 2367aa18f1SStanislav Mekhanoshin #include "llvm/Analysis/ValueTracking.h" 2486de486dSMatt Arsenault #include "llvm/CodeGen/Passes.h" 258b61764cSFrancis Visoiu Mistrih #include "llvm/CodeGen/TargetPassConfig.h" 26734bb7bbSEugene Zelenko #include "llvm/IR/Attributes.h" 27734bb7bbSEugene Zelenko #include "llvm/IR/BasicBlock.h" 28734bb7bbSEugene Zelenko #include "llvm/IR/Constants.h" 29734bb7bbSEugene Zelenko #include "llvm/IR/DerivedTypes.h" 30734bb7bbSEugene Zelenko #include "llvm/IR/Function.h" 316bda14b3SChandler Carruth #include "llvm/IR/IRBuilder.h" 326bda14b3SChandler Carruth #include "llvm/IR/InstVisitor.h" 33734bb7bbSEugene Zelenko #include "llvm/IR/InstrTypes.h" 34734bb7bbSEugene Zelenko #include "llvm/IR/Instruction.h" 35734bb7bbSEugene Zelenko #include "llvm/IR/Instructions.h" 36734bb7bbSEugene Zelenko #include "llvm/IR/IntrinsicInst.h" 37734bb7bbSEugene Zelenko #include "llvm/IR/Intrinsics.h" 38734bb7bbSEugene Zelenko #include "llvm/IR/LLVMContext.h" 39734bb7bbSEugene Zelenko #include "llvm/IR/Operator.h" 40734bb7bbSEugene Zelenko #include "llvm/IR/Type.h" 41734bb7bbSEugene Zelenko #include "llvm/IR/Value.h" 4234d9a16eSMatt Arsenault #include "llvm/Transforms/Utils/IntegerDivision.h" 4305da2fe5SReid Kleckner #include "llvm/InitializePasses.h" 44734bb7bbSEugene Zelenko #include "llvm/Pass.h" 45734bb7bbSEugene Zelenko #include "llvm/Support/Casting.h" 46734bb7bbSEugene Zelenko #include <cassert> 47734bb7bbSEugene Zelenko #include <iterator> 4886de486dSMatt Arsenault 4986de486dSMatt Arsenault #define DEBUG_TYPE "amdgpu-codegenprepare" 5086de486dSMatt Arsenault 5186de486dSMatt Arsenault using namespace llvm; 5286de486dSMatt Arsenault 5386de486dSMatt Arsenault namespace { 5486de486dSMatt Arsenault 5590083d30SMatt Arsenault static cl::opt<bool> WidenLoads( 5690083d30SMatt Arsenault "amdgpu-codegenprepare-widen-constant-loads", 5790083d30SMatt Arsenault cl::desc("Widen sub-dword constant address space loads in AMDGPUCodeGenPrepare"), 5890083d30SMatt Arsenault cl::ReallyHidden, 5990083d30SMatt Arsenault cl::init(true)); 6090083d30SMatt Arsenault 61b3dd381aSMatt Arsenault static cl::opt<bool> UseMul24Intrin( 62b3dd381aSMatt Arsenault "amdgpu-codegenprepare-mul24", 63b3dd381aSMatt Arsenault cl::desc("Introduce mul24 intrinsics in AMDGPUCodeGenPrepare"), 64b3dd381aSMatt Arsenault cl::ReallyHidden, 65b3dd381aSMatt Arsenault cl::init(true)); 66b3dd381aSMatt Arsenault 67*9ec66860SMatt Arsenault // Legalize 64-bit division by using the generic IR expansion. 6834d9a16eSMatt Arsenault static cl::opt<bool> ExpandDiv64InIR( 6934d9a16eSMatt Arsenault "amdgpu-codegenprepare-expand-div64", 7034d9a16eSMatt Arsenault cl::desc("Expand 64-bit division in AMDGPUCodeGenPrepare"), 7134d9a16eSMatt Arsenault cl::ReallyHidden, 7234d9a16eSMatt Arsenault cl::init(false)); 7334d9a16eSMatt Arsenault 74*9ec66860SMatt Arsenault // Leave all division operations as they are. This supersedes ExpandDiv64InIR 75*9ec66860SMatt Arsenault // and is used for testing the legalizer. 76*9ec66860SMatt Arsenault static cl::opt<bool> DisableIDivExpand( 77*9ec66860SMatt Arsenault "amdgpu-codegenprepare-disable-idiv-expansion", 78*9ec66860SMatt Arsenault cl::desc("Prevent expanding integer division in AMDGPUCodeGenPrepare"), 79*9ec66860SMatt Arsenault cl::ReallyHidden, 80*9ec66860SMatt Arsenault cl::init(false)); 81*9ec66860SMatt Arsenault 8286de486dSMatt Arsenault class AMDGPUCodeGenPrepare : public FunctionPass, 83a1fe17c9SMatt Arsenault public InstVisitor<AMDGPUCodeGenPrepare, bool> { 845bfbae5cSTom Stellard const GCNSubtarget *ST = nullptr; 857e7268acSStanislav Mekhanoshin AssumptionCache *AC = nullptr; 86b30e1223SMatt Arsenault DominatorTree *DT = nullptr; 8735617ed4SNicolai Haehnle LegacyDivergenceAnalysis *DA = nullptr; 88734bb7bbSEugene Zelenko Module *Mod = nullptr; 8949169a96SMatt Arsenault const DataLayout *DL = nullptr; 90734bb7bbSEugene Zelenko bool HasUnsafeFPMath = false; 91db0ed3e4SMatt Arsenault bool HasFP32Denormals = false; 9286de486dSMatt Arsenault 935f8f34e4SAdrian Prantl /// Copies exact/nsw/nuw flags (if any) from binary operation \p I to 94f74fc60aSKonstantin Zhuravlyov /// binary operation \p V. 95e14df4b2SKonstantin Zhuravlyov /// 96f74fc60aSKonstantin Zhuravlyov /// \returns Binary operation \p V. 97f74fc60aSKonstantin Zhuravlyov /// \returns \p T's base element bit width. 98f74fc60aSKonstantin Zhuravlyov unsigned getBaseElementBitWidth(const Type *T) const; 99e14df4b2SKonstantin Zhuravlyov 100f74fc60aSKonstantin Zhuravlyov /// \returns Equivalent 32 bit integer type for given type \p T. For example, 101f74fc60aSKonstantin Zhuravlyov /// if \p T is i7, then i32 is returned; if \p T is <3 x i12>, then <3 x i32> 102f74fc60aSKonstantin Zhuravlyov /// is returned. 103e14df4b2SKonstantin Zhuravlyov Type *getI32Ty(IRBuilder<> &B, const Type *T) const; 104e14df4b2SKonstantin Zhuravlyov 105e14df4b2SKonstantin Zhuravlyov /// \returns True if binary operation \p I is a signed binary operation, false 106e14df4b2SKonstantin Zhuravlyov /// otherwise. 107e14df4b2SKonstantin Zhuravlyov bool isSigned(const BinaryOperator &I) const; 108e14df4b2SKonstantin Zhuravlyov 109e14df4b2SKonstantin Zhuravlyov /// \returns True if the condition of 'select' operation \p I comes from a 110e14df4b2SKonstantin Zhuravlyov /// signed 'icmp' operation, false otherwise. 111e14df4b2SKonstantin Zhuravlyov bool isSigned(const SelectInst &I) const; 112e14df4b2SKonstantin Zhuravlyov 113f74fc60aSKonstantin Zhuravlyov /// \returns True if type \p T needs to be promoted to 32 bit integer type, 114f74fc60aSKonstantin Zhuravlyov /// false otherwise. 115f74fc60aSKonstantin Zhuravlyov bool needsPromotionToI32(const Type *T) const; 116e14df4b2SKonstantin Zhuravlyov 1175f8f34e4SAdrian Prantl /// Promotes uniform binary operation \p I to equivalent 32 bit binary 118f74fc60aSKonstantin Zhuravlyov /// operation. 119f74fc60aSKonstantin Zhuravlyov /// 120f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 121f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 122f74fc60aSKonstantin Zhuravlyov /// 32 bits, replacing \p I with equivalent 32 bit binary operation, and 123f74fc60aSKonstantin Zhuravlyov /// truncating the result of 32 bit binary operation back to \p I's original 124f74fc60aSKonstantin Zhuravlyov /// type. Division operation is not promoted. 125f74fc60aSKonstantin Zhuravlyov /// 126f74fc60aSKonstantin Zhuravlyov /// \returns True if \p I is promoted to equivalent 32 bit binary operation, 127f74fc60aSKonstantin Zhuravlyov /// false otherwise. 128f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(BinaryOperator &I) const; 129f74fc60aSKonstantin Zhuravlyov 1305f8f34e4SAdrian Prantl /// Promotes uniform 'icmp' operation \p I to 32 bit 'icmp' operation. 131f74fc60aSKonstantin Zhuravlyov /// 132f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 133f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 134f74fc60aSKonstantin Zhuravlyov /// 32 bits, and replacing \p I with 32 bit 'icmp' operation. 135e14df4b2SKonstantin Zhuravlyov /// 136e14df4b2SKonstantin Zhuravlyov /// \returns True. 137f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(ICmpInst &I) const; 138e14df4b2SKonstantin Zhuravlyov 1395f8f34e4SAdrian Prantl /// Promotes uniform 'select' operation \p I to 32 bit 'select' 140f74fc60aSKonstantin Zhuravlyov /// operation. 141f74fc60aSKonstantin Zhuravlyov /// 142f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 143f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by sign or zero extending operands to 144f74fc60aSKonstantin Zhuravlyov /// 32 bits, replacing \p I with 32 bit 'select' operation, and truncating the 145f74fc60aSKonstantin Zhuravlyov /// result of 32 bit 'select' operation back to \p I's original type. 146e14df4b2SKonstantin Zhuravlyov /// 147e14df4b2SKonstantin Zhuravlyov /// \returns True. 148f74fc60aSKonstantin Zhuravlyov bool promoteUniformOpToI32(SelectInst &I) const; 149b4eb5d50SKonstantin Zhuravlyov 1505f8f34e4SAdrian Prantl /// Promotes uniform 'bitreverse' intrinsic \p I to 32 bit 'bitreverse' 151f74fc60aSKonstantin Zhuravlyov /// intrinsic. 152f74fc60aSKonstantin Zhuravlyov /// 153f74fc60aSKonstantin Zhuravlyov /// \details \p I's base element bit width must be greater than 1 and less 154f74fc60aSKonstantin Zhuravlyov /// than or equal 16. Promotion is done by zero extending the operand to 32 155f74fc60aSKonstantin Zhuravlyov /// bits, replacing \p I with 32 bit 'bitreverse' intrinsic, shifting the 156f74fc60aSKonstantin Zhuravlyov /// result of 32 bit 'bitreverse' intrinsic to the right with zero fill (the 157f74fc60aSKonstantin Zhuravlyov /// shift amount is 32 minus \p I's base element bit width), and truncating 158f74fc60aSKonstantin Zhuravlyov /// the result of the shift operation back to \p I's original type. 159b4eb5d50SKonstantin Zhuravlyov /// 160b4eb5d50SKonstantin Zhuravlyov /// \returns True. 161f74fc60aSKonstantin Zhuravlyov bool promoteUniformBitreverseToI32(IntrinsicInst &I) const; 16267aa18f1SStanislav Mekhanoshin 16349169a96SMatt Arsenault 16449169a96SMatt Arsenault unsigned numBitsUnsigned(Value *Op, unsigned ScalarSize) const; 16549169a96SMatt Arsenault unsigned numBitsSigned(Value *Op, unsigned ScalarSize) const; 16649169a96SMatt Arsenault bool isI24(Value *V, unsigned ScalarSize) const; 16749169a96SMatt Arsenault bool isU24(Value *V, unsigned ScalarSize) const; 16849169a96SMatt Arsenault 16949169a96SMatt Arsenault /// Replace mul instructions with llvm.amdgcn.mul.u24 or llvm.amdgcn.mul.s24. 17049169a96SMatt Arsenault /// SelectionDAG has an issue where an and asserting the bits are known 17149169a96SMatt Arsenault bool replaceMulWithMul24(BinaryOperator &I) const; 17249169a96SMatt Arsenault 173bcd91778SMatt Arsenault /// Perform same function as equivalently named function in DAGCombiner. Since 174bcd91778SMatt Arsenault /// we expand some divisions here, we need to perform this before obscuring. 175bcd91778SMatt Arsenault bool foldBinOpIntoSelect(BinaryOperator &I) const; 176bcd91778SMatt Arsenault 177b30e1223SMatt Arsenault bool divHasSpecialOptimization(BinaryOperator &I, 178b30e1223SMatt Arsenault Value *Num, Value *Den) const; 17934d9a16eSMatt Arsenault int getDivNumBits(BinaryOperator &I, 18034d9a16eSMatt Arsenault Value *Num, Value *Den, 18134d9a16eSMatt Arsenault unsigned AtLeast, bool Signed) const; 182b30e1223SMatt Arsenault 18367aa18f1SStanislav Mekhanoshin /// Expands 24 bit div or rem. 1847e7268acSStanislav Mekhanoshin Value* expandDivRem24(IRBuilder<> &Builder, BinaryOperator &I, 1857e7268acSStanislav Mekhanoshin Value *Num, Value *Den, 18667aa18f1SStanislav Mekhanoshin bool IsDiv, bool IsSigned) const; 18767aa18f1SStanislav Mekhanoshin 18834d9a16eSMatt Arsenault Value *expandDivRem24Impl(IRBuilder<> &Builder, BinaryOperator &I, 18934d9a16eSMatt Arsenault Value *Num, Value *Den, unsigned NumBits, 19034d9a16eSMatt Arsenault bool IsDiv, bool IsSigned) const; 19134d9a16eSMatt Arsenault 19267aa18f1SStanislav Mekhanoshin /// Expands 32 bit div or rem. 1937e7268acSStanislav Mekhanoshin Value* expandDivRem32(IRBuilder<> &Builder, BinaryOperator &I, 19467aa18f1SStanislav Mekhanoshin Value *Num, Value *Den) const; 19567aa18f1SStanislav Mekhanoshin 19634d9a16eSMatt Arsenault Value *shrinkDivRem64(IRBuilder<> &Builder, BinaryOperator &I, 19734d9a16eSMatt Arsenault Value *Num, Value *Den) const; 19834d9a16eSMatt Arsenault void expandDivRem64(BinaryOperator &I) const; 19934d9a16eSMatt Arsenault 2005f8f34e4SAdrian Prantl /// Widen a scalar load. 201a126a13bSWei Ding /// 202a126a13bSWei Ding /// \details \p Widen scalar load for uniform, small type loads from constant 203a126a13bSWei Ding // memory / to a full 32-bits and then truncate the input to allow a scalar 204a126a13bSWei Ding // load instead of a vector load. 205a126a13bSWei Ding // 206a126a13bSWei Ding /// \returns True. 207a126a13bSWei Ding 208a126a13bSWei Ding bool canWidenScalarExtLoad(LoadInst &I) const; 209e14df4b2SKonstantin Zhuravlyov 21086de486dSMatt Arsenault public: 21186de486dSMatt Arsenault static char ID; 212734bb7bbSEugene Zelenko 2138b61764cSFrancis Visoiu Mistrih AMDGPUCodeGenPrepare() : FunctionPass(ID) {} 214a1fe17c9SMatt Arsenault 215a1fe17c9SMatt Arsenault bool visitFDiv(BinaryOperator &I); 216a1fe17c9SMatt Arsenault 217e14df4b2SKonstantin Zhuravlyov bool visitInstruction(Instruction &I) { return false; } 218e14df4b2SKonstantin Zhuravlyov bool visitBinaryOperator(BinaryOperator &I); 219a126a13bSWei Ding bool visitLoadInst(LoadInst &I); 220e14df4b2SKonstantin Zhuravlyov bool visitICmpInst(ICmpInst &I); 221e14df4b2SKonstantin Zhuravlyov bool visitSelectInst(SelectInst &I); 22286de486dSMatt Arsenault 223b4eb5d50SKonstantin Zhuravlyov bool visitIntrinsicInst(IntrinsicInst &I); 224b4eb5d50SKonstantin Zhuravlyov bool visitBitreverseIntrinsicInst(IntrinsicInst &I); 225b4eb5d50SKonstantin Zhuravlyov 22686de486dSMatt Arsenault bool doInitialization(Module &M) override; 22786de486dSMatt Arsenault bool runOnFunction(Function &F) override; 22886de486dSMatt Arsenault 229117296c0SMehdi Amini StringRef getPassName() const override { return "AMDGPU IR optimizations"; } 23086de486dSMatt Arsenault 23186de486dSMatt Arsenault void getAnalysisUsage(AnalysisUsage &AU) const override { 2327e7268acSStanislav Mekhanoshin AU.addRequired<AssumptionCacheTracker>(); 23335617ed4SNicolai Haehnle AU.addRequired<LegacyDivergenceAnalysis>(); 23486de486dSMatt Arsenault AU.setPreservesAll(); 23586de486dSMatt Arsenault } 23686de486dSMatt Arsenault }; 23786de486dSMatt Arsenault 238734bb7bbSEugene Zelenko } // end anonymous namespace 23986de486dSMatt Arsenault 240f74fc60aSKonstantin Zhuravlyov unsigned AMDGPUCodeGenPrepare::getBaseElementBitWidth(const Type *T) const { 241f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(T) && "T does not need promotion to i32"); 242e14df4b2SKonstantin Zhuravlyov 243e14df4b2SKonstantin Zhuravlyov if (T->isIntegerTy()) 244f74fc60aSKonstantin Zhuravlyov return T->getIntegerBitWidth(); 245f74fc60aSKonstantin Zhuravlyov return cast<VectorType>(T)->getElementType()->getIntegerBitWidth(); 246e14df4b2SKonstantin Zhuravlyov } 247e14df4b2SKonstantin Zhuravlyov 248e14df4b2SKonstantin Zhuravlyov Type *AMDGPUCodeGenPrepare::getI32Ty(IRBuilder<> &B, const Type *T) const { 249f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(T) && "T does not need promotion to i32"); 250e14df4b2SKonstantin Zhuravlyov 251e14df4b2SKonstantin Zhuravlyov if (T->isIntegerTy()) 252e14df4b2SKonstantin Zhuravlyov return B.getInt32Ty(); 253e14df4b2SKonstantin Zhuravlyov return VectorType::get(B.getInt32Ty(), cast<VectorType>(T)->getNumElements()); 254e14df4b2SKonstantin Zhuravlyov } 255e14df4b2SKonstantin Zhuravlyov 256e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::isSigned(const BinaryOperator &I) const { 257691e2e02SKonstantin Zhuravlyov return I.getOpcode() == Instruction::AShr || 258691e2e02SKonstantin Zhuravlyov I.getOpcode() == Instruction::SDiv || I.getOpcode() == Instruction::SRem; 259e14df4b2SKonstantin Zhuravlyov } 260e14df4b2SKonstantin Zhuravlyov 261e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::isSigned(const SelectInst &I) const { 262e14df4b2SKonstantin Zhuravlyov return isa<ICmpInst>(I.getOperand(0)) ? 263e14df4b2SKonstantin Zhuravlyov cast<ICmpInst>(I.getOperand(0))->isSigned() : false; 264e14df4b2SKonstantin Zhuravlyov } 265e14df4b2SKonstantin Zhuravlyov 266f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::needsPromotionToI32(const Type *T) const { 267eb522e68SMatt Arsenault const IntegerType *IntTy = dyn_cast<IntegerType>(T); 268eb522e68SMatt Arsenault if (IntTy && IntTy->getBitWidth() > 1 && IntTy->getBitWidth() <= 16) 269f74fc60aSKonstantin Zhuravlyov return true; 270eb522e68SMatt Arsenault 271eb522e68SMatt Arsenault if (const VectorType *VT = dyn_cast<VectorType>(T)) { 272eb522e68SMatt Arsenault // TODO: The set of packed operations is more limited, so may want to 273eb522e68SMatt Arsenault // promote some anyway. 274eb522e68SMatt Arsenault if (ST->hasVOP3PInsts()) 275f74fc60aSKonstantin Zhuravlyov return false; 276eb522e68SMatt Arsenault 277eb522e68SMatt Arsenault return needsPromotionToI32(VT->getElementType()); 278eb522e68SMatt Arsenault } 279eb522e68SMatt Arsenault 280eb522e68SMatt Arsenault return false; 281f74fc60aSKonstantin Zhuravlyov } 282e14df4b2SKonstantin Zhuravlyov 283d59e6404SMatt Arsenault // Return true if the op promoted to i32 should have nsw set. 284d59e6404SMatt Arsenault static bool promotedOpIsNSW(const Instruction &I) { 285d59e6404SMatt Arsenault switch (I.getOpcode()) { 286d59e6404SMatt Arsenault case Instruction::Shl: 287d59e6404SMatt Arsenault case Instruction::Add: 288d59e6404SMatt Arsenault case Instruction::Sub: 289d59e6404SMatt Arsenault return true; 290d59e6404SMatt Arsenault case Instruction::Mul: 291d59e6404SMatt Arsenault return I.hasNoUnsignedWrap(); 292d59e6404SMatt Arsenault default: 293d59e6404SMatt Arsenault return false; 294d59e6404SMatt Arsenault } 295d59e6404SMatt Arsenault } 296d59e6404SMatt Arsenault 297d59e6404SMatt Arsenault // Return true if the op promoted to i32 should have nuw set. 298d59e6404SMatt Arsenault static bool promotedOpIsNUW(const Instruction &I) { 299d59e6404SMatt Arsenault switch (I.getOpcode()) { 300d59e6404SMatt Arsenault case Instruction::Shl: 301d59e6404SMatt Arsenault case Instruction::Add: 302d59e6404SMatt Arsenault case Instruction::Mul: 303d59e6404SMatt Arsenault return true; 304d59e6404SMatt Arsenault case Instruction::Sub: 305d59e6404SMatt Arsenault return I.hasNoUnsignedWrap(); 306d59e6404SMatt Arsenault default: 307d59e6404SMatt Arsenault return false; 308d59e6404SMatt Arsenault } 309d59e6404SMatt Arsenault } 310d59e6404SMatt Arsenault 311a126a13bSWei Ding bool AMDGPUCodeGenPrepare::canWidenScalarExtLoad(LoadInst &I) const { 312a126a13bSWei Ding Type *Ty = I.getType(); 313a126a13bSWei Ding const DataLayout &DL = Mod->getDataLayout(); 314a126a13bSWei Ding int TySize = DL.getTypeSizeInBits(Ty); 315a126a13bSWei Ding unsigned Align = I.getAlignment() ? 316a126a13bSWei Ding I.getAlignment() : DL.getABITypeAlignment(Ty); 317a126a13bSWei Ding 318a126a13bSWei Ding return I.isSimple() && TySize < 32 && Align >= 4 && DA->isUniform(&I); 319a126a13bSWei Ding } 320a126a13bSWei Ding 321f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(BinaryOperator &I) const { 322f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 323f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 324f74fc60aSKonstantin Zhuravlyov 325f74fc60aSKonstantin Zhuravlyov if (I.getOpcode() == Instruction::SDiv || 32667aa18f1SStanislav Mekhanoshin I.getOpcode() == Instruction::UDiv || 32767aa18f1SStanislav Mekhanoshin I.getOpcode() == Instruction::SRem || 32867aa18f1SStanislav Mekhanoshin I.getOpcode() == Instruction::URem) 329e14df4b2SKonstantin Zhuravlyov return false; 330e14df4b2SKonstantin Zhuravlyov 331e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 332e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 333e14df4b2SKonstantin Zhuravlyov 334e14df4b2SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 335e14df4b2SKonstantin Zhuravlyov Value *ExtOp0 = nullptr; 336e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 337e14df4b2SKonstantin Zhuravlyov Value *ExtRes = nullptr; 338e14df4b2SKonstantin Zhuravlyov Value *TruncRes = nullptr; 339e14df4b2SKonstantin Zhuravlyov 340e14df4b2SKonstantin Zhuravlyov if (isSigned(I)) { 341e14df4b2SKonstantin Zhuravlyov ExtOp0 = Builder.CreateSExt(I.getOperand(0), I32Ty); 342e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 343e14df4b2SKonstantin Zhuravlyov } else { 344e14df4b2SKonstantin Zhuravlyov ExtOp0 = Builder.CreateZExt(I.getOperand(0), I32Ty); 345e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 346e14df4b2SKonstantin Zhuravlyov } 347d59e6404SMatt Arsenault 348d59e6404SMatt Arsenault ExtRes = Builder.CreateBinOp(I.getOpcode(), ExtOp0, ExtOp1); 349d59e6404SMatt Arsenault if (Instruction *Inst = dyn_cast<Instruction>(ExtRes)) { 350d59e6404SMatt Arsenault if (promotedOpIsNSW(cast<Instruction>(I))) 351d59e6404SMatt Arsenault Inst->setHasNoSignedWrap(); 352d59e6404SMatt Arsenault 353d59e6404SMatt Arsenault if (promotedOpIsNUW(cast<Instruction>(I))) 354d59e6404SMatt Arsenault Inst->setHasNoUnsignedWrap(); 355d59e6404SMatt Arsenault 356d59e6404SMatt Arsenault if (const auto *ExactOp = dyn_cast<PossiblyExactOperator>(&I)) 357d59e6404SMatt Arsenault Inst->setIsExact(ExactOp->isExact()); 358d59e6404SMatt Arsenault } 359d59e6404SMatt Arsenault 360f74fc60aSKonstantin Zhuravlyov TruncRes = Builder.CreateTrunc(ExtRes, I.getType()); 361e14df4b2SKonstantin Zhuravlyov 362e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 363e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 364e14df4b2SKonstantin Zhuravlyov 365e14df4b2SKonstantin Zhuravlyov return true; 366e14df4b2SKonstantin Zhuravlyov } 367e14df4b2SKonstantin Zhuravlyov 368f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(ICmpInst &I) const { 369f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getOperand(0)->getType()) && 370f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 371e14df4b2SKonstantin Zhuravlyov 372e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 373e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 374e14df4b2SKonstantin Zhuravlyov 375f74fc60aSKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getOperand(0)->getType()); 376e14df4b2SKonstantin Zhuravlyov Value *ExtOp0 = nullptr; 377e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 378e14df4b2SKonstantin Zhuravlyov Value *NewICmp = nullptr; 379e14df4b2SKonstantin Zhuravlyov 380e14df4b2SKonstantin Zhuravlyov if (I.isSigned()) { 381f74fc60aSKonstantin Zhuravlyov ExtOp0 = Builder.CreateSExt(I.getOperand(0), I32Ty); 382f74fc60aSKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 383e14df4b2SKonstantin Zhuravlyov } else { 384f74fc60aSKonstantin Zhuravlyov ExtOp0 = Builder.CreateZExt(I.getOperand(0), I32Ty); 385f74fc60aSKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 386e14df4b2SKonstantin Zhuravlyov } 387e14df4b2SKonstantin Zhuravlyov NewICmp = Builder.CreateICmp(I.getPredicate(), ExtOp0, ExtOp1); 388e14df4b2SKonstantin Zhuravlyov 389e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(NewICmp); 390e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 391e14df4b2SKonstantin Zhuravlyov 392e14df4b2SKonstantin Zhuravlyov return true; 393e14df4b2SKonstantin Zhuravlyov } 394e14df4b2SKonstantin Zhuravlyov 395f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformOpToI32(SelectInst &I) const { 396f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 397f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 398e14df4b2SKonstantin Zhuravlyov 399e14df4b2SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 400e14df4b2SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 401e14df4b2SKonstantin Zhuravlyov 402e14df4b2SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 403e14df4b2SKonstantin Zhuravlyov Value *ExtOp1 = nullptr; 404e14df4b2SKonstantin Zhuravlyov Value *ExtOp2 = nullptr; 405e14df4b2SKonstantin Zhuravlyov Value *ExtRes = nullptr; 406e14df4b2SKonstantin Zhuravlyov Value *TruncRes = nullptr; 407e14df4b2SKonstantin Zhuravlyov 408e14df4b2SKonstantin Zhuravlyov if (isSigned(I)) { 409e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateSExt(I.getOperand(1), I32Ty); 410e14df4b2SKonstantin Zhuravlyov ExtOp2 = Builder.CreateSExt(I.getOperand(2), I32Ty); 411e14df4b2SKonstantin Zhuravlyov } else { 412e14df4b2SKonstantin Zhuravlyov ExtOp1 = Builder.CreateZExt(I.getOperand(1), I32Ty); 413e14df4b2SKonstantin Zhuravlyov ExtOp2 = Builder.CreateZExt(I.getOperand(2), I32Ty); 414e14df4b2SKonstantin Zhuravlyov } 415e14df4b2SKonstantin Zhuravlyov ExtRes = Builder.CreateSelect(I.getOperand(0), ExtOp1, ExtOp2); 416f74fc60aSKonstantin Zhuravlyov TruncRes = Builder.CreateTrunc(ExtRes, I.getType()); 417e14df4b2SKonstantin Zhuravlyov 418e14df4b2SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 419e14df4b2SKonstantin Zhuravlyov I.eraseFromParent(); 420e14df4b2SKonstantin Zhuravlyov 421e14df4b2SKonstantin Zhuravlyov return true; 422e14df4b2SKonstantin Zhuravlyov } 423e14df4b2SKonstantin Zhuravlyov 424f74fc60aSKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::promoteUniformBitreverseToI32( 425b4eb5d50SKonstantin Zhuravlyov IntrinsicInst &I) const { 426f74fc60aSKonstantin Zhuravlyov assert(I.getIntrinsicID() == Intrinsic::bitreverse && 427f74fc60aSKonstantin Zhuravlyov "I must be bitreverse intrinsic"); 428f74fc60aSKonstantin Zhuravlyov assert(needsPromotionToI32(I.getType()) && 429f74fc60aSKonstantin Zhuravlyov "I does not need promotion to i32"); 430b4eb5d50SKonstantin Zhuravlyov 431b4eb5d50SKonstantin Zhuravlyov IRBuilder<> Builder(&I); 432b4eb5d50SKonstantin Zhuravlyov Builder.SetCurrentDebugLocation(I.getDebugLoc()); 433b4eb5d50SKonstantin Zhuravlyov 434b4eb5d50SKonstantin Zhuravlyov Type *I32Ty = getI32Ty(Builder, I.getType()); 435b4eb5d50SKonstantin Zhuravlyov Function *I32 = 436c09e2d7eSKonstantin Zhuravlyov Intrinsic::getDeclaration(Mod, Intrinsic::bitreverse, { I32Ty }); 437b4eb5d50SKonstantin Zhuravlyov Value *ExtOp = Builder.CreateZExt(I.getOperand(0), I32Ty); 438b4eb5d50SKonstantin Zhuravlyov Value *ExtRes = Builder.CreateCall(I32, { ExtOp }); 439f74fc60aSKonstantin Zhuravlyov Value *LShrOp = 440f74fc60aSKonstantin Zhuravlyov Builder.CreateLShr(ExtRes, 32 - getBaseElementBitWidth(I.getType())); 441b4eb5d50SKonstantin Zhuravlyov Value *TruncRes = 442f74fc60aSKonstantin Zhuravlyov Builder.CreateTrunc(LShrOp, I.getType()); 443b4eb5d50SKonstantin Zhuravlyov 444b4eb5d50SKonstantin Zhuravlyov I.replaceAllUsesWith(TruncRes); 445b4eb5d50SKonstantin Zhuravlyov I.eraseFromParent(); 446b4eb5d50SKonstantin Zhuravlyov 447b4eb5d50SKonstantin Zhuravlyov return true; 448b4eb5d50SKonstantin Zhuravlyov } 449b4eb5d50SKonstantin Zhuravlyov 45049169a96SMatt Arsenault unsigned AMDGPUCodeGenPrepare::numBitsUnsigned(Value *Op, 45149169a96SMatt Arsenault unsigned ScalarSize) const { 45249169a96SMatt Arsenault KnownBits Known = computeKnownBits(Op, *DL, 0, AC); 45349169a96SMatt Arsenault return ScalarSize - Known.countMinLeadingZeros(); 45449169a96SMatt Arsenault } 45549169a96SMatt Arsenault 45649169a96SMatt Arsenault unsigned AMDGPUCodeGenPrepare::numBitsSigned(Value *Op, 45749169a96SMatt Arsenault unsigned ScalarSize) const { 45849169a96SMatt Arsenault // In order for this to be a signed 24-bit value, bit 23, must 45949169a96SMatt Arsenault // be a sign bit. 46049169a96SMatt Arsenault return ScalarSize - ComputeNumSignBits(Op, *DL, 0, AC); 46149169a96SMatt Arsenault } 46249169a96SMatt Arsenault 46349169a96SMatt Arsenault bool AMDGPUCodeGenPrepare::isI24(Value *V, unsigned ScalarSize) const { 46449169a96SMatt Arsenault return ScalarSize >= 24 && // Types less than 24-bit should be treated 46549169a96SMatt Arsenault // as unsigned 24-bit values. 46649169a96SMatt Arsenault numBitsSigned(V, ScalarSize) < 24; 46749169a96SMatt Arsenault } 46849169a96SMatt Arsenault 46949169a96SMatt Arsenault bool AMDGPUCodeGenPrepare::isU24(Value *V, unsigned ScalarSize) const { 47049169a96SMatt Arsenault return numBitsUnsigned(V, ScalarSize) <= 24; 47149169a96SMatt Arsenault } 47249169a96SMatt Arsenault 47349169a96SMatt Arsenault static void extractValues(IRBuilder<> &Builder, 47449169a96SMatt Arsenault SmallVectorImpl<Value *> &Values, Value *V) { 47549169a96SMatt Arsenault VectorType *VT = dyn_cast<VectorType>(V->getType()); 47649169a96SMatt Arsenault if (!VT) { 47749169a96SMatt Arsenault Values.push_back(V); 47849169a96SMatt Arsenault return; 47949169a96SMatt Arsenault } 48049169a96SMatt Arsenault 48149169a96SMatt Arsenault for (int I = 0, E = VT->getNumElements(); I != E; ++I) 48249169a96SMatt Arsenault Values.push_back(Builder.CreateExtractElement(V, I)); 48349169a96SMatt Arsenault } 48449169a96SMatt Arsenault 48549169a96SMatt Arsenault static Value *insertValues(IRBuilder<> &Builder, 48649169a96SMatt Arsenault Type *Ty, 48749169a96SMatt Arsenault SmallVectorImpl<Value *> &Values) { 48849169a96SMatt Arsenault if (Values.size() == 1) 48949169a96SMatt Arsenault return Values[0]; 49049169a96SMatt Arsenault 49149169a96SMatt Arsenault Value *NewVal = UndefValue::get(Ty); 49249169a96SMatt Arsenault for (int I = 0, E = Values.size(); I != E; ++I) 49349169a96SMatt Arsenault NewVal = Builder.CreateInsertElement(NewVal, Values[I], I); 49449169a96SMatt Arsenault 49549169a96SMatt Arsenault return NewVal; 49649169a96SMatt Arsenault } 49749169a96SMatt Arsenault 49849169a96SMatt Arsenault bool AMDGPUCodeGenPrepare::replaceMulWithMul24(BinaryOperator &I) const { 49949169a96SMatt Arsenault if (I.getOpcode() != Instruction::Mul) 50049169a96SMatt Arsenault return false; 50149169a96SMatt Arsenault 50249169a96SMatt Arsenault Type *Ty = I.getType(); 50349169a96SMatt Arsenault unsigned Size = Ty->getScalarSizeInBits(); 50449169a96SMatt Arsenault if (Size <= 16 && ST->has16BitInsts()) 50549169a96SMatt Arsenault return false; 50649169a96SMatt Arsenault 50749169a96SMatt Arsenault // Prefer scalar if this could be s_mul_i32 50849169a96SMatt Arsenault if (DA->isUniform(&I)) 50949169a96SMatt Arsenault return false; 51049169a96SMatt Arsenault 51149169a96SMatt Arsenault Value *LHS = I.getOperand(0); 51249169a96SMatt Arsenault Value *RHS = I.getOperand(1); 51349169a96SMatt Arsenault IRBuilder<> Builder(&I); 51449169a96SMatt Arsenault Builder.SetCurrentDebugLocation(I.getDebugLoc()); 51549169a96SMatt Arsenault 51649169a96SMatt Arsenault Intrinsic::ID IntrID = Intrinsic::not_intrinsic; 51749169a96SMatt Arsenault 51849169a96SMatt Arsenault // TODO: Should this try to match mulhi24? 51949169a96SMatt Arsenault if (ST->hasMulU24() && isU24(LHS, Size) && isU24(RHS, Size)) { 52049169a96SMatt Arsenault IntrID = Intrinsic::amdgcn_mul_u24; 52149169a96SMatt Arsenault } else if (ST->hasMulI24() && isI24(LHS, Size) && isI24(RHS, Size)) { 52249169a96SMatt Arsenault IntrID = Intrinsic::amdgcn_mul_i24; 52349169a96SMatt Arsenault } else 52449169a96SMatt Arsenault return false; 52549169a96SMatt Arsenault 52649169a96SMatt Arsenault SmallVector<Value *, 4> LHSVals; 52749169a96SMatt Arsenault SmallVector<Value *, 4> RHSVals; 52849169a96SMatt Arsenault SmallVector<Value *, 4> ResultVals; 52949169a96SMatt Arsenault extractValues(Builder, LHSVals, LHS); 53049169a96SMatt Arsenault extractValues(Builder, RHSVals, RHS); 53149169a96SMatt Arsenault 53249169a96SMatt Arsenault 53349169a96SMatt Arsenault IntegerType *I32Ty = Builder.getInt32Ty(); 53449169a96SMatt Arsenault FunctionCallee Intrin = Intrinsic::getDeclaration(Mod, IntrID); 53549169a96SMatt Arsenault for (int I = 0, E = LHSVals.size(); I != E; ++I) { 53649169a96SMatt Arsenault Value *LHS, *RHS; 53749169a96SMatt Arsenault if (IntrID == Intrinsic::amdgcn_mul_u24) { 53849169a96SMatt Arsenault LHS = Builder.CreateZExtOrTrunc(LHSVals[I], I32Ty); 53949169a96SMatt Arsenault RHS = Builder.CreateZExtOrTrunc(RHSVals[I], I32Ty); 54049169a96SMatt Arsenault } else { 54149169a96SMatt Arsenault LHS = Builder.CreateSExtOrTrunc(LHSVals[I], I32Ty); 54249169a96SMatt Arsenault RHS = Builder.CreateSExtOrTrunc(RHSVals[I], I32Ty); 54349169a96SMatt Arsenault } 54449169a96SMatt Arsenault 54549169a96SMatt Arsenault Value *Result = Builder.CreateCall(Intrin, {LHS, RHS}); 54649169a96SMatt Arsenault 54749169a96SMatt Arsenault if (IntrID == Intrinsic::amdgcn_mul_u24) { 54849169a96SMatt Arsenault ResultVals.push_back(Builder.CreateZExtOrTrunc(Result, 54949169a96SMatt Arsenault LHSVals[I]->getType())); 55049169a96SMatt Arsenault } else { 55149169a96SMatt Arsenault ResultVals.push_back(Builder.CreateSExtOrTrunc(Result, 55249169a96SMatt Arsenault LHSVals[I]->getType())); 55349169a96SMatt Arsenault } 55449169a96SMatt Arsenault } 55549169a96SMatt Arsenault 556c6ab2b4fSMatt Arsenault Value *NewVal = insertValues(Builder, Ty, ResultVals); 557c6ab2b4fSMatt Arsenault NewVal->takeName(&I); 558c6ab2b4fSMatt Arsenault I.replaceAllUsesWith(NewVal); 55949169a96SMatt Arsenault I.eraseFromParent(); 56049169a96SMatt Arsenault 56149169a96SMatt Arsenault return true; 56249169a96SMatt Arsenault } 56349169a96SMatt Arsenault 5642fe500abSMatt Arsenault // Find a select instruction, which may have been casted. This is mostly to deal 565e93e1b62SMatt Arsenault // with cases where i16 selects were promoted here to i32. 5662fe500abSMatt Arsenault static SelectInst *findSelectThroughCast(Value *V, CastInst *&Cast) { 5672fe500abSMatt Arsenault Cast = nullptr; 5682fe500abSMatt Arsenault if (SelectInst *Sel = dyn_cast<SelectInst>(V)) 5692fe500abSMatt Arsenault return Sel; 5702fe500abSMatt Arsenault 5712fe500abSMatt Arsenault if ((Cast = dyn_cast<CastInst>(V))) { 5722fe500abSMatt Arsenault if (SelectInst *Sel = dyn_cast<SelectInst>(Cast->getOperand(0))) 5732fe500abSMatt Arsenault return Sel; 5742fe500abSMatt Arsenault } 5752fe500abSMatt Arsenault 5762fe500abSMatt Arsenault return nullptr; 5772fe500abSMatt Arsenault } 5782fe500abSMatt Arsenault 579bcd91778SMatt Arsenault bool AMDGPUCodeGenPrepare::foldBinOpIntoSelect(BinaryOperator &BO) const { 580bcd91778SMatt Arsenault // Don't do this unless the old select is going away. We want to eliminate the 581bcd91778SMatt Arsenault // binary operator, not replace a binop with a select. 582bcd91778SMatt Arsenault int SelOpNo = 0; 5832fe500abSMatt Arsenault 5842fe500abSMatt Arsenault CastInst *CastOp; 5852fe500abSMatt Arsenault 586dfec7022SMatt Arsenault // TODO: Should probably try to handle some cases with multiple 587dfec7022SMatt Arsenault // users. Duplicating the select may be profitable for division. 5882fe500abSMatt Arsenault SelectInst *Sel = findSelectThroughCast(BO.getOperand(0), CastOp); 589bcd91778SMatt Arsenault if (!Sel || !Sel->hasOneUse()) { 590bcd91778SMatt Arsenault SelOpNo = 1; 5912fe500abSMatt Arsenault Sel = findSelectThroughCast(BO.getOperand(1), CastOp); 592bcd91778SMatt Arsenault } 593bcd91778SMatt Arsenault 594bcd91778SMatt Arsenault if (!Sel || !Sel->hasOneUse()) 595bcd91778SMatt Arsenault return false; 596bcd91778SMatt Arsenault 597bcd91778SMatt Arsenault Constant *CT = dyn_cast<Constant>(Sel->getTrueValue()); 598bcd91778SMatt Arsenault Constant *CF = dyn_cast<Constant>(Sel->getFalseValue()); 599bcd91778SMatt Arsenault Constant *CBO = dyn_cast<Constant>(BO.getOperand(SelOpNo ^ 1)); 600bcd91778SMatt Arsenault if (!CBO || !CT || !CF) 601bcd91778SMatt Arsenault return false; 602bcd91778SMatt Arsenault 6032fe500abSMatt Arsenault if (CastOp) { 604dfec7022SMatt Arsenault if (!CastOp->hasOneUse()) 605dfec7022SMatt Arsenault return false; 6062fe500abSMatt Arsenault CT = ConstantFoldCastOperand(CastOp->getOpcode(), CT, BO.getType(), *DL); 6072fe500abSMatt Arsenault CF = ConstantFoldCastOperand(CastOp->getOpcode(), CF, BO.getType(), *DL); 6082fe500abSMatt Arsenault } 6092fe500abSMatt Arsenault 610bcd91778SMatt Arsenault // TODO: Handle special 0/-1 cases DAG combine does, although we only really 611bcd91778SMatt Arsenault // need to handle divisions here. 612bcd91778SMatt Arsenault Constant *FoldedT = SelOpNo ? 613bcd91778SMatt Arsenault ConstantFoldBinaryOpOperands(BO.getOpcode(), CBO, CT, *DL) : 614bcd91778SMatt Arsenault ConstantFoldBinaryOpOperands(BO.getOpcode(), CT, CBO, *DL); 615bcd91778SMatt Arsenault if (isa<ConstantExpr>(FoldedT)) 616bcd91778SMatt Arsenault return false; 617bcd91778SMatt Arsenault 618bcd91778SMatt Arsenault Constant *FoldedF = SelOpNo ? 619bcd91778SMatt Arsenault ConstantFoldBinaryOpOperands(BO.getOpcode(), CBO, CF, *DL) : 620bcd91778SMatt Arsenault ConstantFoldBinaryOpOperands(BO.getOpcode(), CF, CBO, *DL); 621bcd91778SMatt Arsenault if (isa<ConstantExpr>(FoldedF)) 622bcd91778SMatt Arsenault return false; 623bcd91778SMatt Arsenault 624bcd91778SMatt Arsenault IRBuilder<> Builder(&BO); 625bcd91778SMatt Arsenault Builder.SetCurrentDebugLocation(BO.getDebugLoc()); 626bcd91778SMatt Arsenault if (const FPMathOperator *FPOp = dyn_cast<const FPMathOperator>(&BO)) 627bcd91778SMatt Arsenault Builder.setFastMathFlags(FPOp->getFastMathFlags()); 628bcd91778SMatt Arsenault 629bcd91778SMatt Arsenault Value *NewSelect = Builder.CreateSelect(Sel->getCondition(), 630bcd91778SMatt Arsenault FoldedT, FoldedF); 631bcd91778SMatt Arsenault NewSelect->takeName(&BO); 632bcd91778SMatt Arsenault BO.replaceAllUsesWith(NewSelect); 633bcd91778SMatt Arsenault BO.eraseFromParent(); 6342fe500abSMatt Arsenault if (CastOp) 6352fe500abSMatt Arsenault CastOp->eraseFromParent(); 636bcd91778SMatt Arsenault Sel->eraseFromParent(); 637bcd91778SMatt Arsenault return true; 638bcd91778SMatt Arsenault } 639bcd91778SMatt Arsenault 640884acbb9SChangpeng Fang // Optimize fdiv with rcp: 64125315359SChangpeng Fang // 642884acbb9SChangpeng Fang // 1/x -> rcp(x) when rcp is sufficiently accurate or inaccurate rcp is 643884acbb9SChangpeng Fang // allowed with unsafe-fp-math or afn. 64425315359SChangpeng Fang // 645884acbb9SChangpeng Fang // a/b -> a*rcp(b) when inaccurate rcp is allowed with unsafe-fp-math or afn. 646884acbb9SChangpeng Fang static Value *optimizeWithRcp(Value *Num, Value *Den, bool AllowInaccurateRcp, 647884acbb9SChangpeng Fang bool RcpIsAccurate, IRBuilder<> Builder, 648884acbb9SChangpeng Fang Module *Mod) { 64925315359SChangpeng Fang 650884acbb9SChangpeng Fang if (!AllowInaccurateRcp && !RcpIsAccurate) 65125315359SChangpeng Fang return nullptr; 65225315359SChangpeng Fang 653884acbb9SChangpeng Fang Type *Ty = Den->getType(); 65425315359SChangpeng Fang if (const ConstantFP *CLHS = dyn_cast<ConstantFP>(Num)) { 655884acbb9SChangpeng Fang if (AllowInaccurateRcp || RcpIsAccurate) { 65625315359SChangpeng Fang if (CLHS->isExactlyValue(1.0)) { 657b87e3e2dSMatt Arsenault Function *Decl = Intrinsic::getDeclaration( 658b87e3e2dSMatt Arsenault Mod, Intrinsic::amdgcn_rcp, Ty); 659b87e3e2dSMatt Arsenault 66025315359SChangpeng Fang // v_rcp_f32 and v_rsq_f32 do not support denormals, and according to 66125315359SChangpeng Fang // the CI documentation has a worst case error of 1 ulp. 66225315359SChangpeng Fang // OpenCL requires <= 2.5 ulp for 1.0 / x, so it should always be OK to 66325315359SChangpeng Fang // use it as long as we aren't trying to use denormals. 66425315359SChangpeng Fang // 66525315359SChangpeng Fang // v_rcp_f16 and v_rsq_f16 DO support denormals. 66625315359SChangpeng Fang 66725315359SChangpeng Fang // NOTE: v_sqrt and v_rcp will be combined to v_rsq later. So we don't 66825315359SChangpeng Fang // insert rsq intrinsic here. 66925315359SChangpeng Fang 67025315359SChangpeng Fang // 1.0 / x -> rcp(x) 67125315359SChangpeng Fang return Builder.CreateCall(Decl, { Den }); 67225315359SChangpeng Fang } 67325315359SChangpeng Fang 67425315359SChangpeng Fang // Same as for 1.0, but expand the sign out of the constant. 67525315359SChangpeng Fang if (CLHS->isExactlyValue(-1.0)) { 676b87e3e2dSMatt Arsenault Function *Decl = Intrinsic::getDeclaration( 677b87e3e2dSMatt Arsenault Mod, Intrinsic::amdgcn_rcp, Ty); 678b87e3e2dSMatt Arsenault 67925315359SChangpeng Fang // -1.0 / x -> rcp (fneg x) 68025315359SChangpeng Fang Value *FNeg = Builder.CreateFNeg(Den); 68125315359SChangpeng Fang return Builder.CreateCall(Decl, { FNeg }); 68225315359SChangpeng Fang } 68325315359SChangpeng Fang } 68425315359SChangpeng Fang } 68525315359SChangpeng Fang 686884acbb9SChangpeng Fang if (AllowInaccurateRcp) { 687b87e3e2dSMatt Arsenault Function *Decl = Intrinsic::getDeclaration( 688b87e3e2dSMatt Arsenault Mod, Intrinsic::amdgcn_rcp, Ty); 689b87e3e2dSMatt Arsenault 69025315359SChangpeng Fang // Turn into multiply by the reciprocal. 69125315359SChangpeng Fang // x / y -> x * (1.0 / y) 69225315359SChangpeng Fang Value *Recip = Builder.CreateCall(Decl, { Den }); 693884acbb9SChangpeng Fang return Builder.CreateFMul(Num, Recip); 69425315359SChangpeng Fang } 69525315359SChangpeng Fang return nullptr; 69625315359SChangpeng Fang } 69725315359SChangpeng Fang 698884acbb9SChangpeng Fang // optimize with fdiv.fast: 699884acbb9SChangpeng Fang // 700884acbb9SChangpeng Fang // a/b -> fdiv.fast(a, b) when !fpmath >= 2.5ulp with denormals flushed. 701884acbb9SChangpeng Fang // 702884acbb9SChangpeng Fang // 1/x -> fdiv.fast(1,x) when !fpmath >= 2.5ulp. 703884acbb9SChangpeng Fang // 704884acbb9SChangpeng Fang // NOTE: optimizeWithRcp should be tried first because rcp is the preference. 705884acbb9SChangpeng Fang static Value *optimizeWithFDivFast(Value *Num, Value *Den, float ReqdAccuracy, 706884acbb9SChangpeng Fang bool HasDenormals, IRBuilder<> Builder, 707884acbb9SChangpeng Fang Module *Mod) { 708884acbb9SChangpeng Fang // fdiv.fast can achieve 2.5 ULP accuracy. 709884acbb9SChangpeng Fang if (ReqdAccuracy < 2.5f) 710884acbb9SChangpeng Fang return nullptr; 711df61be70SStanislav Mekhanoshin 712884acbb9SChangpeng Fang // Only have fdiv.fast for f32. 713884acbb9SChangpeng Fang Type *Ty = Den->getType(); 714884acbb9SChangpeng Fang if (!Ty->isFloatTy()) 715884acbb9SChangpeng Fang return nullptr; 716df61be70SStanislav Mekhanoshin 717884acbb9SChangpeng Fang bool NumIsOne = false; 718884acbb9SChangpeng Fang if (const ConstantFP *CNum = dyn_cast<ConstantFP>(Num)) { 719884acbb9SChangpeng Fang if (CNum->isExactlyValue(+1.0) || CNum->isExactlyValue(-1.0)) 720884acbb9SChangpeng Fang NumIsOne = true; 721a1fe17c9SMatt Arsenault } 722a1fe17c9SMatt Arsenault 723884acbb9SChangpeng Fang // fdiv does not support denormals. But 1.0/x is always fine to use it. 724884acbb9SChangpeng Fang if (HasDenormals && !NumIsOne) 725884acbb9SChangpeng Fang return nullptr; 72625315359SChangpeng Fang 727884acbb9SChangpeng Fang Function *Decl = Intrinsic::getDeclaration(Mod, Intrinsic::amdgcn_fdiv_fast); 728884acbb9SChangpeng Fang return Builder.CreateCall(Decl, { Num, Den }); 729884acbb9SChangpeng Fang } 730884acbb9SChangpeng Fang 731884acbb9SChangpeng Fang // Optimizations is performed based on fpmath, fast math flags as well as 732884acbb9SChangpeng Fang // denormals to optimize fdiv with either rcp or fdiv.fast. 73325315359SChangpeng Fang // 734884acbb9SChangpeng Fang // With rcp: 735884acbb9SChangpeng Fang // 1/x -> rcp(x) when rcp is sufficiently accurate or inaccurate rcp is 736884acbb9SChangpeng Fang // allowed with unsafe-fp-math or afn. 73725315359SChangpeng Fang // 738884acbb9SChangpeng Fang // a/b -> a*rcp(b) when inaccurate rcp is allowed with unsafe-fp-math or afn. 73925315359SChangpeng Fang // 740884acbb9SChangpeng Fang // With fdiv.fast: 741884acbb9SChangpeng Fang // a/b -> fdiv.fast(a, b) when !fpmath >= 2.5ulp with denormals flushed. 74225315359SChangpeng Fang // 743884acbb9SChangpeng Fang // 1/x -> fdiv.fast(1,x) when !fpmath >= 2.5ulp. 744884acbb9SChangpeng Fang // 745884acbb9SChangpeng Fang // NOTE: rcp is the preference in cases that both are legal. 746a1fe17c9SMatt Arsenault bool AMDGPUCodeGenPrepare::visitFDiv(BinaryOperator &FDiv) { 747a1fe17c9SMatt Arsenault 74825315359SChangpeng Fang Type *Ty = FDiv.getType()->getScalarType(); 749a1fe17c9SMatt Arsenault 75025315359SChangpeng Fang // No intrinsic for fdiv16 if target does not support f16. 75125315359SChangpeng Fang if (Ty->isHalfTy() && !ST->has16BitInsts()) 752a1fe17c9SMatt Arsenault return false; 753a1fe17c9SMatt Arsenault 754a1fe17c9SMatt Arsenault const FPMathOperator *FPOp = cast<const FPMathOperator>(&FDiv); 755884acbb9SChangpeng Fang const float ReqdAccuracy = FPOp->getFPAccuracy(); 756a1fe17c9SMatt Arsenault 757884acbb9SChangpeng Fang // Inaccurate rcp is allowed with unsafe-fp-math or afn. 758a1fe17c9SMatt Arsenault FastMathFlags FMF = FPOp->getFastMathFlags(); 759884acbb9SChangpeng Fang const bool AllowInaccurateRcp = HasUnsafeFPMath || FMF.approxFunc(); 7609d7b1c9dSStanislav Mekhanoshin 761884acbb9SChangpeng Fang // rcp_f16 is accurate for !fpmath >= 1.0ulp. 762884acbb9SChangpeng Fang // rcp_f32 is accurate for !fpmath >= 1.0ulp and denormals are flushed. 763884acbb9SChangpeng Fang // rcp_f64 is never accurate. 764884acbb9SChangpeng Fang const bool RcpIsAccurate = (Ty->isHalfTy() && ReqdAccuracy >= 1.0f) || 765884acbb9SChangpeng Fang (Ty->isFloatTy() && !HasFP32Denormals && ReqdAccuracy >= 1.0f); 766a1fe17c9SMatt Arsenault 76725315359SChangpeng Fang IRBuilder<> Builder(FDiv.getParent(), std::next(FDiv.getIterator())); 768a1fe17c9SMatt Arsenault Builder.setFastMathFlags(FMF); 769a1fe17c9SMatt Arsenault Builder.SetCurrentDebugLocation(FDiv.getDebugLoc()); 770a1fe17c9SMatt Arsenault 771a1fe17c9SMatt Arsenault Value *Num = FDiv.getOperand(0); 772a1fe17c9SMatt Arsenault Value *Den = FDiv.getOperand(1); 773a1fe17c9SMatt Arsenault 774a1fe17c9SMatt Arsenault Value *NewFDiv = nullptr; 77525315359SChangpeng Fang if (VectorType *VT = dyn_cast<VectorType>(FDiv.getType())) { 776a1fe17c9SMatt Arsenault NewFDiv = UndefValue::get(VT); 777a1fe17c9SMatt Arsenault 778a1fe17c9SMatt Arsenault // FIXME: Doesn't do the right thing for cases where the vector is partially 779a1fe17c9SMatt Arsenault // constant. This works when the scalarizer pass is run first. 780a1fe17c9SMatt Arsenault for (unsigned I = 0, E = VT->getNumElements(); I != E; ++I) { 781a1fe17c9SMatt Arsenault Value *NumEltI = Builder.CreateExtractElement(Num, I); 782a1fe17c9SMatt Arsenault Value *DenEltI = Builder.CreateExtractElement(Den, I); 783884acbb9SChangpeng Fang // Try rcp first. 784884acbb9SChangpeng Fang Value *NewElt = optimizeWithRcp(NumEltI, DenEltI, AllowInaccurateRcp, 785884acbb9SChangpeng Fang RcpIsAccurate, Builder, Mod); 786884acbb9SChangpeng Fang if (!NewElt) // Try fdiv.fast. 787884acbb9SChangpeng Fang NewElt = optimizeWithFDivFast(NumEltI, DenEltI, ReqdAccuracy, 788884acbb9SChangpeng Fang HasFP32Denormals, Builder, Mod); 789884acbb9SChangpeng Fang if (!NewElt) // Keep the original. 790884acbb9SChangpeng Fang NewElt = Builder.CreateFDiv(NumEltI, DenEltI); 791a1fe17c9SMatt Arsenault 792a1fe17c9SMatt Arsenault NewFDiv = Builder.CreateInsertElement(NewFDiv, NewElt, I); 793a1fe17c9SMatt Arsenault } 794884acbb9SChangpeng Fang } else { // Scalar FDiv. 795884acbb9SChangpeng Fang // Try rcp first. 796884acbb9SChangpeng Fang NewFDiv = optimizeWithRcp(Num, Den, AllowInaccurateRcp, RcpIsAccurate, 797884acbb9SChangpeng Fang Builder, Mod); 798884acbb9SChangpeng Fang if (!NewFDiv) { // Try fdiv.fast. 799884acbb9SChangpeng Fang NewFDiv = optimizeWithFDivFast(Num, Den, ReqdAccuracy, HasFP32Denormals, 800884acbb9SChangpeng Fang Builder, Mod); 80125315359SChangpeng Fang } 802a1fe17c9SMatt Arsenault } 803a1fe17c9SMatt Arsenault 804a1fe17c9SMatt Arsenault if (NewFDiv) { 805a1fe17c9SMatt Arsenault FDiv.replaceAllUsesWith(NewFDiv); 806a1fe17c9SMatt Arsenault NewFDiv->takeName(&FDiv); 807a1fe17c9SMatt Arsenault FDiv.eraseFromParent(); 808a1fe17c9SMatt Arsenault } 809a1fe17c9SMatt Arsenault 810df61be70SStanislav Mekhanoshin return !!NewFDiv; 811a1fe17c9SMatt Arsenault } 812a1fe17c9SMatt Arsenault 813a1fe17c9SMatt Arsenault static bool hasUnsafeFPMath(const Function &F) { 814a1fe17c9SMatt Arsenault Attribute Attr = F.getFnAttribute("unsafe-fp-math"); 815a1fe17c9SMatt Arsenault return Attr.getValueAsString() == "true"; 816a1fe17c9SMatt Arsenault } 817a1fe17c9SMatt Arsenault 81867aa18f1SStanislav Mekhanoshin static std::pair<Value*, Value*> getMul64(IRBuilder<> &Builder, 81967aa18f1SStanislav Mekhanoshin Value *LHS, Value *RHS) { 82067aa18f1SStanislav Mekhanoshin Type *I32Ty = Builder.getInt32Ty(); 82167aa18f1SStanislav Mekhanoshin Type *I64Ty = Builder.getInt64Ty(); 822e14df4b2SKonstantin Zhuravlyov 82367aa18f1SStanislav Mekhanoshin Value *LHS_EXT64 = Builder.CreateZExt(LHS, I64Ty); 82467aa18f1SStanislav Mekhanoshin Value *RHS_EXT64 = Builder.CreateZExt(RHS, I64Ty); 82567aa18f1SStanislav Mekhanoshin Value *MUL64 = Builder.CreateMul(LHS_EXT64, RHS_EXT64); 82667aa18f1SStanislav Mekhanoshin Value *Lo = Builder.CreateTrunc(MUL64, I32Ty); 82767aa18f1SStanislav Mekhanoshin Value *Hi = Builder.CreateLShr(MUL64, Builder.getInt64(32)); 82867aa18f1SStanislav Mekhanoshin Hi = Builder.CreateTrunc(Hi, I32Ty); 82967aa18f1SStanislav Mekhanoshin return std::make_pair(Lo, Hi); 83067aa18f1SStanislav Mekhanoshin } 83167aa18f1SStanislav Mekhanoshin 83267aa18f1SStanislav Mekhanoshin static Value* getMulHu(IRBuilder<> &Builder, Value *LHS, Value *RHS) { 83367aa18f1SStanislav Mekhanoshin return getMul64(Builder, LHS, RHS).second; 83467aa18f1SStanislav Mekhanoshin } 83567aa18f1SStanislav Mekhanoshin 83634d9a16eSMatt Arsenault /// Figure out how many bits are really needed for this ddivision. \p AtLeast is 83734d9a16eSMatt Arsenault /// an optimization hint to bypass the second ComputeNumSignBits call if we the 83834d9a16eSMatt Arsenault /// first one is insufficient. Returns -1 on failure. 83934d9a16eSMatt Arsenault int AMDGPUCodeGenPrepare::getDivNumBits(BinaryOperator &I, 84034d9a16eSMatt Arsenault Value *Num, Value *Den, 84134d9a16eSMatt Arsenault unsigned AtLeast, bool IsSigned) const { 84234d9a16eSMatt Arsenault const DataLayout &DL = Mod->getDataLayout(); 84334d9a16eSMatt Arsenault unsigned LHSSignBits = ComputeNumSignBits(Num, DL, 0, AC, &I); 84434d9a16eSMatt Arsenault if (LHSSignBits < AtLeast) 84534d9a16eSMatt Arsenault return -1; 84634d9a16eSMatt Arsenault 84734d9a16eSMatt Arsenault unsigned RHSSignBits = ComputeNumSignBits(Den, DL, 0, AC, &I); 84834d9a16eSMatt Arsenault if (RHSSignBits < AtLeast) 84934d9a16eSMatt Arsenault return -1; 85034d9a16eSMatt Arsenault 85134d9a16eSMatt Arsenault unsigned SignBits = std::min(LHSSignBits, RHSSignBits); 85234d9a16eSMatt Arsenault unsigned DivBits = Num->getType()->getScalarSizeInBits() - SignBits; 85334d9a16eSMatt Arsenault if (IsSigned) 85434d9a16eSMatt Arsenault ++DivBits; 85534d9a16eSMatt Arsenault return DivBits; 85634d9a16eSMatt Arsenault } 85734d9a16eSMatt Arsenault 85867aa18f1SStanislav Mekhanoshin // The fractional part of a float is enough to accurately represent up to 85967aa18f1SStanislav Mekhanoshin // a 24-bit signed integer. 86067aa18f1SStanislav Mekhanoshin Value *AMDGPUCodeGenPrepare::expandDivRem24(IRBuilder<> &Builder, 8617e7268acSStanislav Mekhanoshin BinaryOperator &I, 86267aa18f1SStanislav Mekhanoshin Value *Num, Value *Den, 86367aa18f1SStanislav Mekhanoshin bool IsDiv, bool IsSigned) const { 86434d9a16eSMatt Arsenault int DivBits = getDivNumBits(I, Num, Den, 9, IsSigned); 86534d9a16eSMatt Arsenault if (DivBits == -1) 86667aa18f1SStanislav Mekhanoshin return nullptr; 86734d9a16eSMatt Arsenault return expandDivRem24Impl(Builder, I, Num, Den, DivBits, IsDiv, IsSigned); 86834d9a16eSMatt Arsenault } 86967aa18f1SStanislav Mekhanoshin 87034d9a16eSMatt Arsenault Value *AMDGPUCodeGenPrepare::expandDivRem24Impl(IRBuilder<> &Builder, 87134d9a16eSMatt Arsenault BinaryOperator &I, 87234d9a16eSMatt Arsenault Value *Num, Value *Den, 87334d9a16eSMatt Arsenault unsigned DivBits, 87434d9a16eSMatt Arsenault bool IsDiv, bool IsSigned) const { 87567aa18f1SStanislav Mekhanoshin Type *I32Ty = Builder.getInt32Ty(); 87634d9a16eSMatt Arsenault Num = Builder.CreateTrunc(Num, I32Ty); 87734d9a16eSMatt Arsenault Den = Builder.CreateTrunc(Den, I32Ty); 87834d9a16eSMatt Arsenault 87967aa18f1SStanislav Mekhanoshin Type *F32Ty = Builder.getFloatTy(); 88067aa18f1SStanislav Mekhanoshin ConstantInt *One = Builder.getInt32(1); 88167aa18f1SStanislav Mekhanoshin Value *JQ = One; 88267aa18f1SStanislav Mekhanoshin 88367aa18f1SStanislav Mekhanoshin if (IsSigned) { 88467aa18f1SStanislav Mekhanoshin // char|short jq = ia ^ ib; 88567aa18f1SStanislav Mekhanoshin JQ = Builder.CreateXor(Num, Den); 88667aa18f1SStanislav Mekhanoshin 88767aa18f1SStanislav Mekhanoshin // jq = jq >> (bitsize - 2) 88867aa18f1SStanislav Mekhanoshin JQ = Builder.CreateAShr(JQ, Builder.getInt32(30)); 88967aa18f1SStanislav Mekhanoshin 89067aa18f1SStanislav Mekhanoshin // jq = jq | 0x1 89167aa18f1SStanislav Mekhanoshin JQ = Builder.CreateOr(JQ, One); 89267aa18f1SStanislav Mekhanoshin } 89367aa18f1SStanislav Mekhanoshin 89467aa18f1SStanislav Mekhanoshin // int ia = (int)LHS; 89567aa18f1SStanislav Mekhanoshin Value *IA = Num; 89667aa18f1SStanislav Mekhanoshin 89767aa18f1SStanislav Mekhanoshin // int ib, (int)RHS; 89867aa18f1SStanislav Mekhanoshin Value *IB = Den; 89967aa18f1SStanislav Mekhanoshin 90067aa18f1SStanislav Mekhanoshin // float fa = (float)ia; 90167aa18f1SStanislav Mekhanoshin Value *FA = IsSigned ? Builder.CreateSIToFP(IA, F32Ty) 90267aa18f1SStanislav Mekhanoshin : Builder.CreateUIToFP(IA, F32Ty); 90367aa18f1SStanislav Mekhanoshin 90467aa18f1SStanislav Mekhanoshin // float fb = (float)ib; 90567aa18f1SStanislav Mekhanoshin Value *FB = IsSigned ? Builder.CreateSIToFP(IB,F32Ty) 90667aa18f1SStanislav Mekhanoshin : Builder.CreateUIToFP(IB,F32Ty); 90767aa18f1SStanislav Mekhanoshin 90892c62582SMatt Arsenault Function *RcpDecl = Intrinsic::getDeclaration(Mod, Intrinsic::amdgcn_rcp, 90992c62582SMatt Arsenault Builder.getFloatTy()); 91092c62582SMatt Arsenault Value *RCP = Builder.CreateCall(RcpDecl, { FB }); 91167aa18f1SStanislav Mekhanoshin Value *FQM = Builder.CreateFMul(FA, RCP); 91267aa18f1SStanislav Mekhanoshin 91367aa18f1SStanislav Mekhanoshin // fq = trunc(fqm); 91457f5d0a8SNeil Henning CallInst *FQ = Builder.CreateUnaryIntrinsic(Intrinsic::trunc, FQM); 91567aa18f1SStanislav Mekhanoshin FQ->copyFastMathFlags(Builder.getFastMathFlags()); 91667aa18f1SStanislav Mekhanoshin 91767aa18f1SStanislav Mekhanoshin // float fqneg = -fq; 91867aa18f1SStanislav Mekhanoshin Value *FQNeg = Builder.CreateFNeg(FQ); 91967aa18f1SStanislav Mekhanoshin 92067aa18f1SStanislav Mekhanoshin // float fr = mad(fqneg, fb, fa); 92167aa18f1SStanislav Mekhanoshin Value *FR = Builder.CreateIntrinsic(Intrinsic::amdgcn_fmad_ftz, 92257f5d0a8SNeil Henning {FQNeg->getType()}, {FQNeg, FB, FA}, FQ); 92367aa18f1SStanislav Mekhanoshin 92467aa18f1SStanislav Mekhanoshin // int iq = (int)fq; 92567aa18f1SStanislav Mekhanoshin Value *IQ = IsSigned ? Builder.CreateFPToSI(FQ, I32Ty) 92667aa18f1SStanislav Mekhanoshin : Builder.CreateFPToUI(FQ, I32Ty); 92767aa18f1SStanislav Mekhanoshin 92867aa18f1SStanislav Mekhanoshin // fr = fabs(fr); 92957f5d0a8SNeil Henning FR = Builder.CreateUnaryIntrinsic(Intrinsic::fabs, FR, FQ); 93067aa18f1SStanislav Mekhanoshin 93167aa18f1SStanislav Mekhanoshin // fb = fabs(fb); 93257f5d0a8SNeil Henning FB = Builder.CreateUnaryIntrinsic(Intrinsic::fabs, FB, FQ); 93367aa18f1SStanislav Mekhanoshin 93467aa18f1SStanislav Mekhanoshin // int cv = fr >= fb; 93567aa18f1SStanislav Mekhanoshin Value *CV = Builder.CreateFCmpOGE(FR, FB); 93667aa18f1SStanislav Mekhanoshin 93767aa18f1SStanislav Mekhanoshin // jq = (cv ? jq : 0); 93867aa18f1SStanislav Mekhanoshin JQ = Builder.CreateSelect(CV, JQ, Builder.getInt32(0)); 93967aa18f1SStanislav Mekhanoshin 94067aa18f1SStanislav Mekhanoshin // dst = iq + jq; 94167aa18f1SStanislav Mekhanoshin Value *Div = Builder.CreateAdd(IQ, JQ); 94267aa18f1SStanislav Mekhanoshin 94367aa18f1SStanislav Mekhanoshin Value *Res = Div; 94467aa18f1SStanislav Mekhanoshin if (!IsDiv) { 94567aa18f1SStanislav Mekhanoshin // Rem needs compensation, it's easier to recompute it 94667aa18f1SStanislav Mekhanoshin Value *Rem = Builder.CreateMul(Div, Den); 94767aa18f1SStanislav Mekhanoshin Res = Builder.CreateSub(Num, Rem); 94867aa18f1SStanislav Mekhanoshin } 94967aa18f1SStanislav Mekhanoshin 95034d9a16eSMatt Arsenault if (DivBits != 0 && DivBits < 32) { 951e5823bf8SMatt Arsenault // Extend in register from the number of bits this divide really is. 95267aa18f1SStanislav Mekhanoshin if (IsSigned) { 95334d9a16eSMatt Arsenault int InRegBits = 32 - DivBits; 95434d9a16eSMatt Arsenault 95534d9a16eSMatt Arsenault Res = Builder.CreateShl(Res, InRegBits); 95634d9a16eSMatt Arsenault Res = Builder.CreateAShr(Res, InRegBits); 95767aa18f1SStanislav Mekhanoshin } else { 95834d9a16eSMatt Arsenault ConstantInt *TruncMask 95934d9a16eSMatt Arsenault = Builder.getInt32((UINT64_C(1) << DivBits) - 1); 96067aa18f1SStanislav Mekhanoshin Res = Builder.CreateAnd(Res, TruncMask); 96167aa18f1SStanislav Mekhanoshin } 96234d9a16eSMatt Arsenault } 96367aa18f1SStanislav Mekhanoshin 96467aa18f1SStanislav Mekhanoshin return Res; 96567aa18f1SStanislav Mekhanoshin } 96667aa18f1SStanislav Mekhanoshin 967b30e1223SMatt Arsenault // Try to recognize special cases the DAG will emit special, better expansions 968b30e1223SMatt Arsenault // than the general expansion we do here. 969b30e1223SMatt Arsenault 970b30e1223SMatt Arsenault // TODO: It would be better to just directly handle those optimizations here. 971b30e1223SMatt Arsenault bool AMDGPUCodeGenPrepare::divHasSpecialOptimization( 972b30e1223SMatt Arsenault BinaryOperator &I, Value *Num, Value *Den) const { 973b30e1223SMatt Arsenault if (Constant *C = dyn_cast<Constant>(Den)) { 974b30e1223SMatt Arsenault // Arbitrary constants get a better expansion as long as a wider mulhi is 975b30e1223SMatt Arsenault // legal. 976b30e1223SMatt Arsenault if (C->getType()->getScalarSizeInBits() <= 32) 977b30e1223SMatt Arsenault return true; 978b30e1223SMatt Arsenault 979b30e1223SMatt Arsenault // TODO: Sdiv check for not exact for some reason. 980b30e1223SMatt Arsenault 981b30e1223SMatt Arsenault // If there's no wider mulhi, there's only a better expansion for powers of 982b30e1223SMatt Arsenault // two. 983b30e1223SMatt Arsenault // TODO: Should really know for each vector element. 984b30e1223SMatt Arsenault if (isKnownToBeAPowerOfTwo(C, *DL, true, 0, AC, &I, DT)) 985b30e1223SMatt Arsenault return true; 986b30e1223SMatt Arsenault 987b30e1223SMatt Arsenault return false; 988b30e1223SMatt Arsenault } 989b30e1223SMatt Arsenault 990b30e1223SMatt Arsenault if (BinaryOperator *BinOpDen = dyn_cast<BinaryOperator>(Den)) { 991b30e1223SMatt Arsenault // fold (udiv x, (shl c, y)) -> x >>u (log2(c)+y) iff c is power of 2 992b30e1223SMatt Arsenault if (BinOpDen->getOpcode() == Instruction::Shl && 993b30e1223SMatt Arsenault isa<Constant>(BinOpDen->getOperand(0)) && 994b30e1223SMatt Arsenault isKnownToBeAPowerOfTwo(BinOpDen->getOperand(0), *DL, true, 995b30e1223SMatt Arsenault 0, AC, &I, DT)) { 996b30e1223SMatt Arsenault return true; 997b30e1223SMatt Arsenault } 998b30e1223SMatt Arsenault } 999b30e1223SMatt Arsenault 1000b30e1223SMatt Arsenault return false; 1001b30e1223SMatt Arsenault } 1002b30e1223SMatt Arsenault 100367aa18f1SStanislav Mekhanoshin Value* AMDGPUCodeGenPrepare::expandDivRem32(IRBuilder<> &Builder, 10047e7268acSStanislav Mekhanoshin BinaryOperator &I, 100567aa18f1SStanislav Mekhanoshin Value *Num, Value *Den) const { 10067e7268acSStanislav Mekhanoshin Instruction::BinaryOps Opc = I.getOpcode(); 100767aa18f1SStanislav Mekhanoshin assert(Opc == Instruction::URem || Opc == Instruction::UDiv || 100867aa18f1SStanislav Mekhanoshin Opc == Instruction::SRem || Opc == Instruction::SDiv); 100967aa18f1SStanislav Mekhanoshin 101067aa18f1SStanislav Mekhanoshin FastMathFlags FMF; 101167aa18f1SStanislav Mekhanoshin FMF.setFast(); 101267aa18f1SStanislav Mekhanoshin Builder.setFastMathFlags(FMF); 101367aa18f1SStanislav Mekhanoshin 1014b30e1223SMatt Arsenault if (divHasSpecialOptimization(I, Num, Den)) 1015b30e1223SMatt Arsenault return nullptr; // Keep it for later optimization. 101667aa18f1SStanislav Mekhanoshin 101767aa18f1SStanislav Mekhanoshin bool IsDiv = Opc == Instruction::UDiv || Opc == Instruction::SDiv; 101867aa18f1SStanislav Mekhanoshin bool IsSigned = Opc == Instruction::SRem || Opc == Instruction::SDiv; 101967aa18f1SStanislav Mekhanoshin 102067aa18f1SStanislav Mekhanoshin Type *Ty = Num->getType(); 102167aa18f1SStanislav Mekhanoshin Type *I32Ty = Builder.getInt32Ty(); 102267aa18f1SStanislav Mekhanoshin Type *F32Ty = Builder.getFloatTy(); 102367aa18f1SStanislav Mekhanoshin 102467aa18f1SStanislav Mekhanoshin if (Ty->getScalarSizeInBits() < 32) { 102567aa18f1SStanislav Mekhanoshin if (IsSigned) { 102667aa18f1SStanislav Mekhanoshin Num = Builder.CreateSExt(Num, I32Ty); 102767aa18f1SStanislav Mekhanoshin Den = Builder.CreateSExt(Den, I32Ty); 102867aa18f1SStanislav Mekhanoshin } else { 102967aa18f1SStanislav Mekhanoshin Num = Builder.CreateZExt(Num, I32Ty); 103067aa18f1SStanislav Mekhanoshin Den = Builder.CreateZExt(Den, I32Ty); 103167aa18f1SStanislav Mekhanoshin } 103267aa18f1SStanislav Mekhanoshin } 103367aa18f1SStanislav Mekhanoshin 10347e7268acSStanislav Mekhanoshin if (Value *Res = expandDivRem24(Builder, I, Num, Den, IsDiv, IsSigned)) { 103534d9a16eSMatt Arsenault return IsSigned ? Builder.CreateSExtOrTrunc(Res, Ty) : 103634d9a16eSMatt Arsenault Builder.CreateZExtOrTrunc(Res, Ty); 103767aa18f1SStanislav Mekhanoshin } 103867aa18f1SStanislav Mekhanoshin 103967aa18f1SStanislav Mekhanoshin ConstantInt *Zero = Builder.getInt32(0); 104067aa18f1SStanislav Mekhanoshin ConstantInt *One = Builder.getInt32(1); 104167aa18f1SStanislav Mekhanoshin 104267aa18f1SStanislav Mekhanoshin Value *Sign = nullptr; 104367aa18f1SStanislav Mekhanoshin if (IsSigned) { 104467aa18f1SStanislav Mekhanoshin ConstantInt *K31 = Builder.getInt32(31); 104567aa18f1SStanislav Mekhanoshin Value *LHSign = Builder.CreateAShr(Num, K31); 104667aa18f1SStanislav Mekhanoshin Value *RHSign = Builder.CreateAShr(Den, K31); 104767aa18f1SStanislav Mekhanoshin // Remainder sign is the same as LHS 104867aa18f1SStanislav Mekhanoshin Sign = IsDiv ? Builder.CreateXor(LHSign, RHSign) : LHSign; 104967aa18f1SStanislav Mekhanoshin 105067aa18f1SStanislav Mekhanoshin Num = Builder.CreateAdd(Num, LHSign); 105167aa18f1SStanislav Mekhanoshin Den = Builder.CreateAdd(Den, RHSign); 105267aa18f1SStanislav Mekhanoshin 105367aa18f1SStanislav Mekhanoshin Num = Builder.CreateXor(Num, LHSign); 105467aa18f1SStanislav Mekhanoshin Den = Builder.CreateXor(Den, RHSign); 105567aa18f1SStanislav Mekhanoshin } 105667aa18f1SStanislav Mekhanoshin 105767aa18f1SStanislav Mekhanoshin // RCP = URECIP(Den) = 2^32 / Den + e 105867aa18f1SStanislav Mekhanoshin // e is rounding error. 105967aa18f1SStanislav Mekhanoshin Value *DEN_F32 = Builder.CreateUIToFP(Den, F32Ty); 106092c62582SMatt Arsenault 106192c62582SMatt Arsenault Function *RcpDecl = Intrinsic::getDeclaration(Mod, Intrinsic::amdgcn_rcp, 106292c62582SMatt Arsenault Builder.getFloatTy()); 106392c62582SMatt Arsenault Value *RCP_F32 = Builder.CreateCall(RcpDecl, { DEN_F32 }); 106467aa18f1SStanislav Mekhanoshin Constant *UINT_MAX_PLUS_1 = ConstantFP::get(F32Ty, BitsToFloat(0x4f800000)); 106567aa18f1SStanislav Mekhanoshin Value *RCP_SCALE = Builder.CreateFMul(RCP_F32, UINT_MAX_PLUS_1); 106667aa18f1SStanislav Mekhanoshin Value *RCP = Builder.CreateFPToUI(RCP_SCALE, I32Ty); 106767aa18f1SStanislav Mekhanoshin 106867aa18f1SStanislav Mekhanoshin // RCP_LO, RCP_HI = mul(RCP, Den) */ 106967aa18f1SStanislav Mekhanoshin Value *RCP_LO, *RCP_HI; 107067aa18f1SStanislav Mekhanoshin std::tie(RCP_LO, RCP_HI) = getMul64(Builder, RCP, Den); 107167aa18f1SStanislav Mekhanoshin 107267aa18f1SStanislav Mekhanoshin // NEG_RCP_LO = -RCP_LO 107367aa18f1SStanislav Mekhanoshin Value *NEG_RCP_LO = Builder.CreateNeg(RCP_LO); 107467aa18f1SStanislav Mekhanoshin 107567aa18f1SStanislav Mekhanoshin // ABS_RCP_LO = (RCP_HI == 0 ? NEG_RCP_LO : RCP_LO) 107667aa18f1SStanislav Mekhanoshin Value *RCP_HI_0_CC = Builder.CreateICmpEQ(RCP_HI, Zero); 107767aa18f1SStanislav Mekhanoshin Value *ABS_RCP_LO = Builder.CreateSelect(RCP_HI_0_CC, NEG_RCP_LO, RCP_LO); 107867aa18f1SStanislav Mekhanoshin 107967aa18f1SStanislav Mekhanoshin // Calculate the rounding error from the URECIP instruction 108067aa18f1SStanislav Mekhanoshin // E = mulhu(ABS_RCP_LO, RCP) 108167aa18f1SStanislav Mekhanoshin Value *E = getMulHu(Builder, ABS_RCP_LO, RCP); 108267aa18f1SStanislav Mekhanoshin 108367aa18f1SStanislav Mekhanoshin // RCP_A_E = RCP + E 108467aa18f1SStanislav Mekhanoshin Value *RCP_A_E = Builder.CreateAdd(RCP, E); 108567aa18f1SStanislav Mekhanoshin 108667aa18f1SStanislav Mekhanoshin // RCP_S_E = RCP - E 108767aa18f1SStanislav Mekhanoshin Value *RCP_S_E = Builder.CreateSub(RCP, E); 108867aa18f1SStanislav Mekhanoshin 108967aa18f1SStanislav Mekhanoshin // Tmp0 = (RCP_HI == 0 ? RCP_A_E : RCP_SUB_E) 109067aa18f1SStanislav Mekhanoshin Value *Tmp0 = Builder.CreateSelect(RCP_HI_0_CC, RCP_A_E, RCP_S_E); 109167aa18f1SStanislav Mekhanoshin 109267aa18f1SStanislav Mekhanoshin // Quotient = mulhu(Tmp0, Num) 109367aa18f1SStanislav Mekhanoshin Value *Quotient = getMulHu(Builder, Tmp0, Num); 109467aa18f1SStanislav Mekhanoshin 109567aa18f1SStanislav Mekhanoshin // Num_S_Remainder = Quotient * Den 109667aa18f1SStanislav Mekhanoshin Value *Num_S_Remainder = Builder.CreateMul(Quotient, Den); 109767aa18f1SStanislav Mekhanoshin 109867aa18f1SStanislav Mekhanoshin // Remainder = Num - Num_S_Remainder 109967aa18f1SStanislav Mekhanoshin Value *Remainder = Builder.CreateSub(Num, Num_S_Remainder); 110067aa18f1SStanislav Mekhanoshin 11016d4ebadaSMatt Arsenault // Remainder_GE_Den = Remainder >= Den; 11026d4ebadaSMatt Arsenault Value *Remainder_GE_Den = Builder.CreateICmpUGE(Remainder, Den); 110367aa18f1SStanislav Mekhanoshin 11046d4ebadaSMatt Arsenault // Remainder_GE_Zero = Num >= Num_S_Remainder 11056d4ebadaSMatt Arsenault Value *Remainder_GE_Zero = Builder.CreateICmpUGE(Num, Num_S_Remainder); 110667aa18f1SStanislav Mekhanoshin 110767aa18f1SStanislav Mekhanoshin // Tmp1 = Remainder_GE_Den & Remainder_GE_Zero 110867aa18f1SStanislav Mekhanoshin Value *Tmp1 = Builder.CreateAnd(Remainder_GE_Den, Remainder_GE_Zero); 110967aa18f1SStanislav Mekhanoshin 111067aa18f1SStanislav Mekhanoshin Value *Res; 111167aa18f1SStanislav Mekhanoshin if (IsDiv) { 111267aa18f1SStanislav Mekhanoshin // Quotient_A_One = Quotient + 1 111367aa18f1SStanislav Mekhanoshin Value *Quotient_A_One = Builder.CreateAdd(Quotient, One); 111467aa18f1SStanislav Mekhanoshin 111567aa18f1SStanislav Mekhanoshin // Quotient_S_One = Quotient - 1 111667aa18f1SStanislav Mekhanoshin Value *Quotient_S_One = Builder.CreateSub(Quotient, One); 111767aa18f1SStanislav Mekhanoshin 11186d4ebadaSMatt Arsenault // Div = (Tmp1 ? Quotient_A_One : Quotient) 11196d4ebadaSMatt Arsenault Value *Div = Builder.CreateSelect(Tmp1, Quotient_A_One, Quotient); 112067aa18f1SStanislav Mekhanoshin 11216d4ebadaSMatt Arsenault // Div = (Remainder_GE_Zero ? Div : Quotient_S_One) 11226d4ebadaSMatt Arsenault Res = Builder.CreateSelect(Remainder_GE_Zero, Div, Quotient_S_One); 112367aa18f1SStanislav Mekhanoshin } else { 112467aa18f1SStanislav Mekhanoshin // Remainder_S_Den = Remainder - Den 112567aa18f1SStanislav Mekhanoshin Value *Remainder_S_Den = Builder.CreateSub(Remainder, Den); 112667aa18f1SStanislav Mekhanoshin 112767aa18f1SStanislav Mekhanoshin // Remainder_A_Den = Remainder + Den 112867aa18f1SStanislav Mekhanoshin Value *Remainder_A_Den = Builder.CreateAdd(Remainder, Den); 112967aa18f1SStanislav Mekhanoshin 11306d4ebadaSMatt Arsenault // Rem = (Tmp1 ? Remainder_S_Den : Remainder) 11316d4ebadaSMatt Arsenault Value *Rem = Builder.CreateSelect(Tmp1, Remainder_S_Den, Remainder); 113267aa18f1SStanislav Mekhanoshin 11336d4ebadaSMatt Arsenault // Rem = (Remainder_GE_Zero ? Rem : Remainder_A_Den) 11346d4ebadaSMatt Arsenault Res = Builder.CreateSelect(Remainder_GE_Zero, Rem, Remainder_A_Den); 113567aa18f1SStanislav Mekhanoshin } 113667aa18f1SStanislav Mekhanoshin 113767aa18f1SStanislav Mekhanoshin if (IsSigned) { 113867aa18f1SStanislav Mekhanoshin Res = Builder.CreateXor(Res, Sign); 113967aa18f1SStanislav Mekhanoshin Res = Builder.CreateSub(Res, Sign); 114067aa18f1SStanislav Mekhanoshin } 114167aa18f1SStanislav Mekhanoshin 114267aa18f1SStanislav Mekhanoshin Res = Builder.CreateTrunc(Res, Ty); 114367aa18f1SStanislav Mekhanoshin 114467aa18f1SStanislav Mekhanoshin return Res; 114567aa18f1SStanislav Mekhanoshin } 114667aa18f1SStanislav Mekhanoshin 114734d9a16eSMatt Arsenault Value *AMDGPUCodeGenPrepare::shrinkDivRem64(IRBuilder<> &Builder, 114834d9a16eSMatt Arsenault BinaryOperator &I, 114934d9a16eSMatt Arsenault Value *Num, Value *Den) const { 115034d9a16eSMatt Arsenault if (!ExpandDiv64InIR && divHasSpecialOptimization(I, Num, Den)) 115134d9a16eSMatt Arsenault return nullptr; // Keep it for later optimization. 115234d9a16eSMatt Arsenault 115334d9a16eSMatt Arsenault Instruction::BinaryOps Opc = I.getOpcode(); 115434d9a16eSMatt Arsenault 115534d9a16eSMatt Arsenault bool IsDiv = Opc == Instruction::SDiv || Opc == Instruction::UDiv; 115634d9a16eSMatt Arsenault bool IsSigned = Opc == Instruction::SDiv || Opc == Instruction::SRem; 115734d9a16eSMatt Arsenault 115834d9a16eSMatt Arsenault int NumDivBits = getDivNumBits(I, Num, Den, 32, IsSigned); 115934d9a16eSMatt Arsenault if (NumDivBits == -1) 116034d9a16eSMatt Arsenault return nullptr; 116134d9a16eSMatt Arsenault 116234d9a16eSMatt Arsenault Value *Narrowed = nullptr; 116334d9a16eSMatt Arsenault if (NumDivBits <= 24) { 116434d9a16eSMatt Arsenault Narrowed = expandDivRem24Impl(Builder, I, Num, Den, NumDivBits, 116534d9a16eSMatt Arsenault IsDiv, IsSigned); 116634d9a16eSMatt Arsenault } else if (NumDivBits <= 32) { 116734d9a16eSMatt Arsenault Narrowed = expandDivRem32(Builder, I, Num, Den); 116834d9a16eSMatt Arsenault } 116934d9a16eSMatt Arsenault 117034d9a16eSMatt Arsenault if (Narrowed) { 117134d9a16eSMatt Arsenault return IsSigned ? Builder.CreateSExt(Narrowed, Num->getType()) : 117234d9a16eSMatt Arsenault Builder.CreateZExt(Narrowed, Num->getType()); 117334d9a16eSMatt Arsenault } 117434d9a16eSMatt Arsenault 117534d9a16eSMatt Arsenault return nullptr; 117634d9a16eSMatt Arsenault } 117734d9a16eSMatt Arsenault 117834d9a16eSMatt Arsenault void AMDGPUCodeGenPrepare::expandDivRem64(BinaryOperator &I) const { 117934d9a16eSMatt Arsenault Instruction::BinaryOps Opc = I.getOpcode(); 118034d9a16eSMatt Arsenault // Do the general expansion. 118134d9a16eSMatt Arsenault if (Opc == Instruction::UDiv || Opc == Instruction::SDiv) { 118234d9a16eSMatt Arsenault expandDivisionUpTo64Bits(&I); 118334d9a16eSMatt Arsenault return; 118434d9a16eSMatt Arsenault } 118534d9a16eSMatt Arsenault 118634d9a16eSMatt Arsenault if (Opc == Instruction::URem || Opc == Instruction::SRem) { 118734d9a16eSMatt Arsenault expandRemainderUpTo64Bits(&I); 118834d9a16eSMatt Arsenault return; 118934d9a16eSMatt Arsenault } 119034d9a16eSMatt Arsenault 119134d9a16eSMatt Arsenault llvm_unreachable("not a division"); 119234d9a16eSMatt Arsenault } 119334d9a16eSMatt Arsenault 119467aa18f1SStanislav Mekhanoshin bool AMDGPUCodeGenPrepare::visitBinaryOperator(BinaryOperator &I) { 1195bcd91778SMatt Arsenault if (foldBinOpIntoSelect(I)) 1196bcd91778SMatt Arsenault return true; 1197bcd91778SMatt Arsenault 1198f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 119967aa18f1SStanislav Mekhanoshin DA->isUniform(&I) && promoteUniformOpToI32(I)) 120067aa18f1SStanislav Mekhanoshin return true; 120167aa18f1SStanislav Mekhanoshin 1202b3dd381aSMatt Arsenault if (UseMul24Intrin && replaceMulWithMul24(I)) 120349169a96SMatt Arsenault return true; 120449169a96SMatt Arsenault 120567aa18f1SStanislav Mekhanoshin bool Changed = false; 120667aa18f1SStanislav Mekhanoshin Instruction::BinaryOps Opc = I.getOpcode(); 120767aa18f1SStanislav Mekhanoshin Type *Ty = I.getType(); 120867aa18f1SStanislav Mekhanoshin Value *NewDiv = nullptr; 120934d9a16eSMatt Arsenault unsigned ScalarSize = Ty->getScalarSizeInBits(); 121034d9a16eSMatt Arsenault 121134d9a16eSMatt Arsenault SmallVector<BinaryOperator *, 8> Div64ToExpand; 121234d9a16eSMatt Arsenault 121367aa18f1SStanislav Mekhanoshin if ((Opc == Instruction::URem || Opc == Instruction::UDiv || 121467aa18f1SStanislav Mekhanoshin Opc == Instruction::SRem || Opc == Instruction::SDiv) && 1215*9ec66860SMatt Arsenault ScalarSize <= 64 && 1216*9ec66860SMatt Arsenault !DisableIDivExpand) { 121767aa18f1SStanislav Mekhanoshin Value *Num = I.getOperand(0); 121867aa18f1SStanislav Mekhanoshin Value *Den = I.getOperand(1); 121967aa18f1SStanislav Mekhanoshin IRBuilder<> Builder(&I); 122067aa18f1SStanislav Mekhanoshin Builder.SetCurrentDebugLocation(I.getDebugLoc()); 122167aa18f1SStanislav Mekhanoshin 122267aa18f1SStanislav Mekhanoshin if (VectorType *VT = dyn_cast<VectorType>(Ty)) { 122367aa18f1SStanislav Mekhanoshin NewDiv = UndefValue::get(VT); 122467aa18f1SStanislav Mekhanoshin 12257e7268acSStanislav Mekhanoshin for (unsigned N = 0, E = VT->getNumElements(); N != E; ++N) { 12267e7268acSStanislav Mekhanoshin Value *NumEltN = Builder.CreateExtractElement(Num, N); 12277e7268acSStanislav Mekhanoshin Value *DenEltN = Builder.CreateExtractElement(Den, N); 122834d9a16eSMatt Arsenault 122934d9a16eSMatt Arsenault Value *NewElt; 123034d9a16eSMatt Arsenault if (ScalarSize <= 32) { 123134d9a16eSMatt Arsenault NewElt = expandDivRem32(Builder, I, NumEltN, DenEltN); 123267aa18f1SStanislav Mekhanoshin if (!NewElt) 12337e7268acSStanislav Mekhanoshin NewElt = Builder.CreateBinOp(Opc, NumEltN, DenEltN); 123434d9a16eSMatt Arsenault } else { 123534d9a16eSMatt Arsenault // See if this 64-bit division can be shrunk to 32/24-bits before 123634d9a16eSMatt Arsenault // producing the general expansion. 123734d9a16eSMatt Arsenault NewElt = shrinkDivRem64(Builder, I, NumEltN, DenEltN); 123834d9a16eSMatt Arsenault if (!NewElt) { 123934d9a16eSMatt Arsenault // The general 64-bit expansion introduces control flow and doesn't 124034d9a16eSMatt Arsenault // return the new value. Just insert a scalar copy and defer 124134d9a16eSMatt Arsenault // expanding it. 124234d9a16eSMatt Arsenault NewElt = Builder.CreateBinOp(Opc, NumEltN, DenEltN); 124334d9a16eSMatt Arsenault Div64ToExpand.push_back(cast<BinaryOperator>(NewElt)); 124434d9a16eSMatt Arsenault } 124534d9a16eSMatt Arsenault } 124634d9a16eSMatt Arsenault 12477e7268acSStanislav Mekhanoshin NewDiv = Builder.CreateInsertElement(NewDiv, NewElt, N); 124867aa18f1SStanislav Mekhanoshin } 124967aa18f1SStanislav Mekhanoshin } else { 125034d9a16eSMatt Arsenault if (ScalarSize <= 32) 12517e7268acSStanislav Mekhanoshin NewDiv = expandDivRem32(Builder, I, Num, Den); 125234d9a16eSMatt Arsenault else { 125334d9a16eSMatt Arsenault NewDiv = shrinkDivRem64(Builder, I, Num, Den); 125434d9a16eSMatt Arsenault if (!NewDiv) 125534d9a16eSMatt Arsenault Div64ToExpand.push_back(&I); 125634d9a16eSMatt Arsenault } 125767aa18f1SStanislav Mekhanoshin } 125867aa18f1SStanislav Mekhanoshin 125967aa18f1SStanislav Mekhanoshin if (NewDiv) { 126067aa18f1SStanislav Mekhanoshin I.replaceAllUsesWith(NewDiv); 126167aa18f1SStanislav Mekhanoshin I.eraseFromParent(); 126267aa18f1SStanislav Mekhanoshin Changed = true; 126367aa18f1SStanislav Mekhanoshin } 126467aa18f1SStanislav Mekhanoshin } 1265e14df4b2SKonstantin Zhuravlyov 126634d9a16eSMatt Arsenault if (ExpandDiv64InIR) { 126734d9a16eSMatt Arsenault // TODO: We get much worse code in specially handled constant cases. 126834d9a16eSMatt Arsenault for (BinaryOperator *Div : Div64ToExpand) { 126934d9a16eSMatt Arsenault expandDivRem64(*Div); 127034d9a16eSMatt Arsenault Changed = true; 127134d9a16eSMatt Arsenault } 127234d9a16eSMatt Arsenault } 127334d9a16eSMatt Arsenault 1274e14df4b2SKonstantin Zhuravlyov return Changed; 1275e14df4b2SKonstantin Zhuravlyov } 1276e14df4b2SKonstantin Zhuravlyov 1277a126a13bSWei Ding bool AMDGPUCodeGenPrepare::visitLoadInst(LoadInst &I) { 127890083d30SMatt Arsenault if (!WidenLoads) 127990083d30SMatt Arsenault return false; 128090083d30SMatt Arsenault 12810da6350dSMatt Arsenault if ((I.getPointerAddressSpace() == AMDGPUAS::CONSTANT_ADDRESS || 12820da6350dSMatt Arsenault I.getPointerAddressSpace() == AMDGPUAS::CONSTANT_ADDRESS_32BIT) && 1283a126a13bSWei Ding canWidenScalarExtLoad(I)) { 1284a126a13bSWei Ding IRBuilder<> Builder(&I); 1285a126a13bSWei Ding Builder.SetCurrentDebugLocation(I.getDebugLoc()); 1286a126a13bSWei Ding 1287a126a13bSWei Ding Type *I32Ty = Builder.getInt32Ty(); 1288a126a13bSWei Ding Type *PT = PointerType::get(I32Ty, I.getPointerAddressSpace()); 1289a126a13bSWei Ding Value *BitCast= Builder.CreateBitCast(I.getPointerOperand(), PT); 129014359ef1SJames Y Knight LoadInst *WidenLoad = Builder.CreateLoad(I32Ty, BitCast); 129157e541e8SMatt Arsenault WidenLoad->copyMetadata(I); 129257e541e8SMatt Arsenault 129357e541e8SMatt Arsenault // If we have range metadata, we need to convert the type, and not make 129457e541e8SMatt Arsenault // assumptions about the high bits. 129557e541e8SMatt Arsenault if (auto *Range = WidenLoad->getMetadata(LLVMContext::MD_range)) { 129657e541e8SMatt Arsenault ConstantInt *Lower = 129757e541e8SMatt Arsenault mdconst::extract<ConstantInt>(Range->getOperand(0)); 129857e541e8SMatt Arsenault 129957e541e8SMatt Arsenault if (Lower->getValue().isNullValue()) { 130057e541e8SMatt Arsenault WidenLoad->setMetadata(LLVMContext::MD_range, nullptr); 130157e541e8SMatt Arsenault } else { 130257e541e8SMatt Arsenault Metadata *LowAndHigh[] = { 130357e541e8SMatt Arsenault ConstantAsMetadata::get(ConstantInt::get(I32Ty, Lower->getValue().zext(32))), 130457e541e8SMatt Arsenault // Don't make assumptions about the high bits. 130557e541e8SMatt Arsenault ConstantAsMetadata::get(ConstantInt::get(I32Ty, 0)) 130657e541e8SMatt Arsenault }; 130757e541e8SMatt Arsenault 130857e541e8SMatt Arsenault WidenLoad->setMetadata(LLVMContext::MD_range, 130957e541e8SMatt Arsenault MDNode::get(Mod->getContext(), LowAndHigh)); 131057e541e8SMatt Arsenault } 131157e541e8SMatt Arsenault } 1312a126a13bSWei Ding 1313a126a13bSWei Ding int TySize = Mod->getDataLayout().getTypeSizeInBits(I.getType()); 1314a126a13bSWei Ding Type *IntNTy = Builder.getIntNTy(TySize); 1315a126a13bSWei Ding Value *ValTrunc = Builder.CreateTrunc(WidenLoad, IntNTy); 1316a126a13bSWei Ding Value *ValOrig = Builder.CreateBitCast(ValTrunc, I.getType()); 1317a126a13bSWei Ding I.replaceAllUsesWith(ValOrig); 1318a126a13bSWei Ding I.eraseFromParent(); 1319a126a13bSWei Ding return true; 1320a126a13bSWei Ding } 1321a126a13bSWei Ding 1322a126a13bSWei Ding return false; 1323a126a13bSWei Ding } 1324a126a13bSWei Ding 1325e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitICmpInst(ICmpInst &I) { 1326e14df4b2SKonstantin Zhuravlyov bool Changed = false; 1327e14df4b2SKonstantin Zhuravlyov 1328f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getOperand(0)->getType()) && 1329f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 1330f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformOpToI32(I); 1331e14df4b2SKonstantin Zhuravlyov 1332e14df4b2SKonstantin Zhuravlyov return Changed; 1333e14df4b2SKonstantin Zhuravlyov } 1334e14df4b2SKonstantin Zhuravlyov 1335e14df4b2SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitSelectInst(SelectInst &I) { 1336e14df4b2SKonstantin Zhuravlyov bool Changed = false; 1337e14df4b2SKonstantin Zhuravlyov 1338f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 1339f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 1340f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformOpToI32(I); 1341b4eb5d50SKonstantin Zhuravlyov 1342b4eb5d50SKonstantin Zhuravlyov return Changed; 1343b4eb5d50SKonstantin Zhuravlyov } 1344b4eb5d50SKonstantin Zhuravlyov 1345b4eb5d50SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitIntrinsicInst(IntrinsicInst &I) { 1346b4eb5d50SKonstantin Zhuravlyov switch (I.getIntrinsicID()) { 1347b4eb5d50SKonstantin Zhuravlyov case Intrinsic::bitreverse: 1348b4eb5d50SKonstantin Zhuravlyov return visitBitreverseIntrinsicInst(I); 1349b4eb5d50SKonstantin Zhuravlyov default: 1350b4eb5d50SKonstantin Zhuravlyov return false; 1351b4eb5d50SKonstantin Zhuravlyov } 1352b4eb5d50SKonstantin Zhuravlyov } 1353b4eb5d50SKonstantin Zhuravlyov 1354b4eb5d50SKonstantin Zhuravlyov bool AMDGPUCodeGenPrepare::visitBitreverseIntrinsicInst(IntrinsicInst &I) { 1355b4eb5d50SKonstantin Zhuravlyov bool Changed = false; 1356b4eb5d50SKonstantin Zhuravlyov 1357f74fc60aSKonstantin Zhuravlyov if (ST->has16BitInsts() && needsPromotionToI32(I.getType()) && 1358f74fc60aSKonstantin Zhuravlyov DA->isUniform(&I)) 1359f74fc60aSKonstantin Zhuravlyov Changed |= promoteUniformBitreverseToI32(I); 1360e14df4b2SKonstantin Zhuravlyov 1361e14df4b2SKonstantin Zhuravlyov return Changed; 1362e14df4b2SKonstantin Zhuravlyov } 1363e14df4b2SKonstantin Zhuravlyov 136486de486dSMatt Arsenault bool AMDGPUCodeGenPrepare::doInitialization(Module &M) { 1365a1fe17c9SMatt Arsenault Mod = &M; 136649169a96SMatt Arsenault DL = &Mod->getDataLayout(); 136786de486dSMatt Arsenault return false; 136886de486dSMatt Arsenault } 136986de486dSMatt Arsenault 137086de486dSMatt Arsenault bool AMDGPUCodeGenPrepare::runOnFunction(Function &F) { 13718b61764cSFrancis Visoiu Mistrih if (skipFunction(F)) 137286de486dSMatt Arsenault return false; 137386de486dSMatt Arsenault 13748b61764cSFrancis Visoiu Mistrih auto *TPC = getAnalysisIfAvailable<TargetPassConfig>(); 13758b61764cSFrancis Visoiu Mistrih if (!TPC) 13768b61764cSFrancis Visoiu Mistrih return false; 13778b61764cSFrancis Visoiu Mistrih 137812269ddaSMatt Arsenault const AMDGPUTargetMachine &TM = TPC->getTM<AMDGPUTargetMachine>(); 13795bfbae5cSTom Stellard ST = &TM.getSubtarget<GCNSubtarget>(F); 13807e7268acSStanislav Mekhanoshin AC = &getAnalysis<AssumptionCacheTracker>().getAssumptionCache(F); 138135617ed4SNicolai Haehnle DA = &getAnalysis<LegacyDivergenceAnalysis>(); 1382b30e1223SMatt Arsenault 1383b30e1223SMatt Arsenault auto *DTWP = getAnalysisIfAvailable<DominatorTreeWrapperPass>(); 1384b30e1223SMatt Arsenault DT = DTWP ? &DTWP->getDomTree() : nullptr; 1385b30e1223SMatt Arsenault 1386a1fe17c9SMatt Arsenault HasUnsafeFPMath = hasUnsafeFPMath(F); 1387db0ed3e4SMatt Arsenault HasFP32Denormals = ST->hasFP32Denormals(F); 138886de486dSMatt Arsenault 1389a1fe17c9SMatt Arsenault bool MadeChange = false; 1390a1fe17c9SMatt Arsenault 139134d9a16eSMatt Arsenault Function::iterator NextBB; 139234d9a16eSMatt Arsenault for (Function::iterator FI = F.begin(), FE = F.end(); FI != FE; FI = NextBB) { 139334d9a16eSMatt Arsenault BasicBlock *BB = &*FI; 139434d9a16eSMatt Arsenault NextBB = std::next(FI); 139534d9a16eSMatt Arsenault 1396a1fe17c9SMatt Arsenault BasicBlock::iterator Next; 139734d9a16eSMatt Arsenault for (BasicBlock::iterator I = BB->begin(), E = BB->end(); I != E; I = Next) { 1398a1fe17c9SMatt Arsenault Next = std::next(I); 139934d9a16eSMatt Arsenault 1400a1fe17c9SMatt Arsenault MadeChange |= visit(*I); 140134d9a16eSMatt Arsenault 140234d9a16eSMatt Arsenault if (Next != E) { // Control flow changed 140334d9a16eSMatt Arsenault BasicBlock *NextInstBB = Next->getParent(); 140434d9a16eSMatt Arsenault if (NextInstBB != BB) { 140534d9a16eSMatt Arsenault BB = NextInstBB; 140634d9a16eSMatt Arsenault E = BB->end(); 140734d9a16eSMatt Arsenault FE = F.end(); 140834d9a16eSMatt Arsenault } 140934d9a16eSMatt Arsenault } 1410a1fe17c9SMatt Arsenault } 1411a1fe17c9SMatt Arsenault } 1412a1fe17c9SMatt Arsenault 1413a1fe17c9SMatt Arsenault return MadeChange; 141486de486dSMatt Arsenault } 141586de486dSMatt Arsenault 14168b61764cSFrancis Visoiu Mistrih INITIALIZE_PASS_BEGIN(AMDGPUCodeGenPrepare, DEBUG_TYPE, 141786de486dSMatt Arsenault "AMDGPU IR optimizations", false, false) 14187e7268acSStanislav Mekhanoshin INITIALIZE_PASS_DEPENDENCY(AssumptionCacheTracker) 141935617ed4SNicolai Haehnle INITIALIZE_PASS_DEPENDENCY(LegacyDivergenceAnalysis) 14208b61764cSFrancis Visoiu Mistrih INITIALIZE_PASS_END(AMDGPUCodeGenPrepare, DEBUG_TYPE, "AMDGPU IR optimizations", 14218b61764cSFrancis Visoiu Mistrih false, false) 142286de486dSMatt Arsenault 142386de486dSMatt Arsenault char AMDGPUCodeGenPrepare::ID = 0; 142486de486dSMatt Arsenault 14258b61764cSFrancis Visoiu Mistrih FunctionPass *llvm::createAMDGPUCodeGenPreparePass() { 14268b61764cSFrancis Visoiu Mistrih return new AMDGPUCodeGenPrepare(); 142786de486dSMatt Arsenault } 1428