InstCombineCalls.cpp revision 6e5dfd4bf5205d5f84d958c9636bc0f57c23b96a
1753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner//===- InstCombineCalls.cpp -----------------------------------------------===// 2753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 3753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// The LLVM Compiler Infrastructure 4753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 5753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// This file is distributed under the University of Illinois Open Source 6753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// License. See LICENSE.TXT for details. 7753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 8753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner//===----------------------------------------------------------------------===// 9753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 10753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// This file implements the visitCall and visitInvoke functions. 11753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 12753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner//===----------------------------------------------------------------------===// 13753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 14753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner#include "InstCombine.h" 15753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner#include "llvm/IntrinsicInst.h" 16753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner#include "llvm/Support/CallSite.h" 17753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner#include "llvm/Target/TargetData.h" 18753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner#include "llvm/Analysis/MemoryBuiltins.h" 19753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerusing namespace llvm; 20753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 21753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// getPromotedType - Return the specified type promoted as it would be to pass 22753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// though a va_arg area. 23753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerstatic const Type *getPromotedType(const Type *Ty) { 24753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (const IntegerType* ITy = dyn_cast<IntegerType>(Ty)) { 25753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ITy->getBitWidth() < 32) 26753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return Type::getInt32Ty(Ty->getContext()); 27753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 28753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return Ty; 29753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 30753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 31753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// EnforceKnownAlignment - If the specified pointer points to an object that 32753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// we control, modify the object's alignment to PrefAlign. This isn't 33753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// often possible though. If alignment is important, a more reliable approach 34753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// is to simply align all global variables and allocation instructions to 35753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// their preferred alignment from the beginning. 36753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// 37753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerstatic unsigned EnforceKnownAlignment(Value *V, 38753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Align, unsigned PrefAlign) { 39753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 40753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner User *U = dyn_cast<User>(V); 41753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!U) return Align; 42753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 43753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner switch (Operator::getOpcode(U)) { 44753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner default: break; 45753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Instruction::BitCast: 46753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EnforceKnownAlignment(U->getOperand(0), Align, PrefAlign); 47753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Instruction::GetElementPtr: { 48753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If all indexes are zero, it is just the alignment of the base pointer. 49753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool AllZeroOperands = true; 50753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (User::op_iterator i = U->op_begin() + 1, e = U->op_end(); i != e; ++i) 51753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!isa<Constant>(*i) || 52753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !cast<Constant>(*i)->isNullValue()) { 53753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner AllZeroOperands = false; 54753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 55753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 56753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 57753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (AllZeroOperands) { 58753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Treat this like a bitcast. 59753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EnforceKnownAlignment(U->getOperand(0), Align, PrefAlign); 60753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 61753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 62753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 63753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 64753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 65753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GlobalValue *GV = dyn_cast<GlobalValue>(V)) { 66753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If there is a large requested alignment and we can, bump up the alignment 67753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // of the global. 68753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!GV->isDeclaration()) { 69753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GV->getAlignment() >= PrefAlign) 70753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Align = GV->getAlignment(); 71753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner else { 72753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner GV->setAlignment(PrefAlign); 73753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Align = PrefAlign; 74753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 75753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 76753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else if (AllocaInst *AI = dyn_cast<AllocaInst>(V)) { 77753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If there is a requested alignment and if this is an alloca, round up. 78753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (AI->getAlignment() >= PrefAlign) 79753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Align = AI->getAlignment(); 80753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner else { 81753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner AI->setAlignment(PrefAlign); 82753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Align = PrefAlign; 83753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 84753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 85753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 86753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return Align; 87753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 88753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 89753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// GetOrEnforceKnownAlignment - If the specified pointer has an alignment that 90753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// we can determine, return it, otherwise return 0. If PrefAlign is specified, 91753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// and it is more than the alignment of the ultimate object, see if we can 92753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// increase the alignment of the ultimate object, making this check succeed. 93753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerunsigned InstCombiner::GetOrEnforceKnownAlignment(Value *V, 94753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned PrefAlign) { 95753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned BitWidth = TD ? TD->getTypeSizeInBits(V->getType()) : 96753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner sizeof(PrefAlign) * CHAR_BIT; 97753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt Mask = APInt::getAllOnesValue(BitWidth); 98753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt KnownZero(BitWidth, 0), KnownOne(BitWidth, 0); 99753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ComputeMaskedBits(V, Mask, KnownZero, KnownOne); 100753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned TrailZ = KnownZero.countTrailingOnes(); 101753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Align = 1u << std::min(BitWidth - 1, TrailZ); 102753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 103753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (PrefAlign > Align) 104753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Align = EnforceKnownAlignment(V, Align, PrefAlign); 1050c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 106753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // We don't need to make any adjustment. 107753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return Align; 108753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 109753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 110753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::SimplifyMemTransfer(MemIntrinsic *MI) { 111753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned DstAlign = GetOrEnforceKnownAlignment(MI->getOperand(1)); 112753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned SrcAlign = GetOrEnforceKnownAlignment(MI->getOperand(2)); 113753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned MinAlign = std::min(DstAlign, SrcAlign); 114753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned CopyAlign = MI->getAlignment(); 115753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 116753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CopyAlign < MinAlign) { 1170c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher MI->setAlignment(ConstantInt::get(MI->getAlignmentType(), 118753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner MinAlign, false)); 119753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return MI; 120753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1210c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 122753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If MemCpyInst length is 1/2/4/8 bytes then replace memcpy with 123753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // load/store. 124753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt *MemOpLength = dyn_cast<ConstantInt>(MI->getOperand(3)); 125753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MemOpLength == 0) return 0; 1260c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 127753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Source and destination pointer types are always "i8*" for intrinsic. See 128753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // if the size is something we can handle with a single primitive load/store. 129753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // A single load+store correctly handles overlapping memory in the memmove 130753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // case. 131753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Size = MemOpLength->getZExtValue(); 132753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Size == 0) return MI; // Delete this mem transfer. 1330c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 134753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Size > 8 || (Size&(Size-1))) 135753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; // If not 1/2/4/8 bytes, exit. 1360c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 137753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Use an integer load+store unless we can find something better. 138753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Type *NewPtrTy = 139753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PointerType::getUnqual(IntegerType::get(MI->getContext(), Size<<3)); 1400c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 141753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Memcpy forces the use of i8* for the source and destination. That means 142753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // that if you're using memcpy to move one double around, you'll get a cast 143753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // from double* to i8*. We'd much rather use a double load+store rather than 144753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // an i64 load+store, here because this improves the odds that the source or 145753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // dest address will be promotable. See if we can find a better type than the 146753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // integer datatype. 147753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *StrippedDest = MI->getOperand(1)->stripPointerCasts(); 148753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (StrippedDest != MI->getOperand(1)) { 149753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *SrcETy = cast<PointerType>(StrippedDest->getType()) 150753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ->getElementType(); 151753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (TD && SrcETy->isSized() && TD->getTypeStoreSize(SrcETy) == Size) { 152753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // The SrcETy might be something like {{{double}}} or [1 x double]. Rip 153753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // down through these levels if so. 154753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner while (!SrcETy->isSingleValueType()) { 155753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (const StructType *STy = dyn_cast<StructType>(SrcETy)) { 156753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (STy->getNumElements() == 1) 157753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner SrcETy = STy->getElementType(0); 158753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner else 159753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 160753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else if (const ArrayType *ATy = dyn_cast<ArrayType>(SrcETy)) { 161753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ATy->getNumElements() == 1) 162753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner SrcETy = ATy->getElementType(); 163753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner else 164753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 165753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else 166753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 167753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1680c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 169753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (SrcETy->isSingleValueType()) 170753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewPtrTy = PointerType::getUnqual(SrcETy); 171753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 172753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1730c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 1740c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 175753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the memcpy/memmove provides better alignment info than we can 176753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // infer, use it. 177753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner SrcAlign = std::max(SrcAlign, CopyAlign); 178753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner DstAlign = std::max(DstAlign, CopyAlign); 1790c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 180753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Src = Builder->CreateBitCast(MI->getOperand(2), NewPtrTy); 181753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Dest = Builder->CreateBitCast(MI->getOperand(1), NewPtrTy); 182753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *L = new LoadInst(Src, "tmp", false, SrcAlign); 183753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner InsertNewInstBefore(L, *MI); 184753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner InsertNewInstBefore(new StoreInst(L, Dest, false, DstAlign), *MI); 185753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 186753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Set the size of the copy to 0, it will be deleted on the next iteration. 187753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner MI->setOperand(3, Constant::getNullValue(MemOpLength->getType())); 188753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return MI; 189753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 190753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 191753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::SimplifyMemSet(MemSetInst *MI) { 192753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Alignment = GetOrEnforceKnownAlignment(MI->getDest()); 193753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MI->getAlignment() < Alignment) { 194753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner MI->setAlignment(ConstantInt::get(MI->getAlignmentType(), 195753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Alignment, false)); 196753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return MI; 197753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1980c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 199753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Extract the length and alignment and fill if they are constant. 200753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt *LenC = dyn_cast<ConstantInt>(MI->getLength()); 201753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt *FillC = dyn_cast<ConstantInt>(MI->getValue()); 202b0bc6c361da9009e8414efde317d9bbff755f6c0Duncan Sands if (!LenC || !FillC || !FillC->getType()->isIntegerTy(8)) 203753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; 204753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner uint64_t Len = LenC->getZExtValue(); 205753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Alignment = MI->getAlignment(); 2060c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 207753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the length is zero, this is a no-op 208753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Len == 0) return MI; // memset(d,c,0,a) -> noop 2090c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 210753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // memset(s,c,n) -> store s, c (for n=1,2,4,8) 211753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Len <= 8 && isPowerOf2_32((uint32_t)Len)) { 212753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *ITy = IntegerType::get(MI->getContext(), Len*8); // n=1 -> i8. 2130c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 214753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Dest = MI->getDest(); 215753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Dest = Builder->CreateBitCast(Dest, PointerType::getUnqual(ITy)); 216753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 217753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Alignment 0 is identity for alignment 1 for memset, but not store. 218753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Alignment == 0) Alignment = 1; 2190c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 220753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Extract the fill value and store. 221753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner uint64_t Fill = FillC->getZExtValue()*0x0101010101010101ULL; 222753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner InsertNewInstBefore(new StoreInst(ConstantInt::get(ITy, Fill), 223753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Dest, false, Alignment), *MI); 2240c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 225753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Set the size of the copy to 0, it will be deleted on the next iteration. 226753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner MI->setLength(Constant::getNullValue(LenC->getType())); 227753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return MI; 228753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 229753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 230753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; 231753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 232753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 2330c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher/// visitCallInst - CallInst simplification. This mostly only handles folding 234753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// of intrinsic instructions. For normal calls, it allows visitCallSite to do 235753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// the heavy lifting. 236753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// 237753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::visitCallInst(CallInst &CI) { 238753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isFreeCall(&CI)) 239753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return visitFree(CI); 240753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 241753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the caller function is nounwind, mark the call as nounwind, even if the 242753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // callee isn't. 243753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CI.getParent()->getParent()->doesNotThrow() && 244753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !CI.doesNotThrow()) { 245753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CI.setDoesNotThrow(); 246753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return &CI; 247753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 2480c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 249753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner IntrinsicInst *II = dyn_cast<IntrinsicInst>(&CI); 250753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!II) return visitCallSite(&CI); 2510c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 252753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Intrinsics cannot occur in an invoke, so handle them here instead of in 253753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // visitCallSite. 254753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MemIntrinsic *MI = dyn_cast<MemIntrinsic>(II)) { 255753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool Changed = false; 256753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 257753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // memmove/cpy/set of zero bytes is a noop. 258753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Constant *NumBytes = dyn_cast<Constant>(MI->getLength())) { 259753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (NumBytes->isNullValue()) return EraseInstFromFunction(CI); 260753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 261753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantInt *CI = dyn_cast<ConstantInt>(NumBytes)) 262753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CI->getZExtValue() == 1) { 263753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Replace the instruction with just byte operations. We would 264753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // transform other cases to loads/stores, but we don't know if 265753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // alignment is sufficient. 266753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 267753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 268753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 269753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If we have a memmove and the source operation is a constant global, 270753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // then the source and dest pointers can't alias, so we can change this 271753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // into a call to memcpy. 272753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MemMoveInst *MMI = dyn_cast<MemMoveInst>(MI)) { 273753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GlobalVariable *GVSrc = dyn_cast<GlobalVariable>(MMI->getSource())) 274753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GVSrc->isConstant()) { 275753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Module *M = CI.getParent()->getParent()->getParent(); 276753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Intrinsic::ID MemCpyID = Intrinsic::memcpy; 277753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *Tys[1]; 278753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Tys[0] = CI.getOperand(3)->getType(); 2790c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher CI.setOperand(0, 280753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Intrinsic::getDeclaration(M, MemCpyID, Tys, 1)); 281753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Changed = true; 282753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 283753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 284753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 285753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MemTransferInst *MTI = dyn_cast<MemTransferInst>(MI)) { 286753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // memmove(x,x,size) -> noop. 287753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (MTI->getSource() == MTI->getDest()) 288753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(CI); 289753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 290753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 291753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If we can determine a pointer alignment that is bigger than currently 292753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // set, update the alignment. 293753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<MemTransferInst>(MI)) { 294753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Instruction *I = SimplifyMemTransfer(MI)) 295753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return I; 296753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else if (MemSetInst *MSI = dyn_cast<MemSetInst>(MI)) { 297753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Instruction *I = SimplifyMemSet(MSI)) 298753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return I; 299753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 3000c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 301753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Changed) return II; 302753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 3030c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 304753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner switch (II->getIntrinsicID()) { 305753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner default: break; 306415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher case Intrinsic::objectsize: { 307415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher const Type *ReturnTy = CI.getType(); 308415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher Value *Op1 = II->getOperand(1); 309415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher bool Min = (cast<ConstantInt>(II->getOperand(2))->getZExtValue() == 1); 310415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher 31126d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher // We need target data for just about everything so depend on it. 312415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher if (!TD) break; 31326d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 31426d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher // Get to the real allocated thing and offset as fast as possible. 315415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher Op1 = Op1->stripPointerCasts(); 316415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher 31726d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher // If we've stripped down to a single global variable that we 31826d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher // can know the size of then just return that. 319415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher if (GlobalVariable *GV = dyn_cast<GlobalVariable>(Op1)) { 320415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher if (GV->hasDefinitiveInitializer()) { 321415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher Constant *C = GV->getInitializer(); 3226e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng uint64_t globalSize = TD->getTypeAllocSize(C->getType()); 323415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher return ReplaceInstUsesWith(CI, ConstantInt::get(ReturnTy, globalSize)); 324415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher } else { 325415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher Constant *RetVal = ConstantInt::get(ReturnTy, Min ? 0 : -1ULL); 326415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher return ReplaceInstUsesWith(CI, RetVal); 327415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher } 32826d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher } else if (ConstantExpr *CE = dyn_cast<ConstantExpr>(Op1)) { 32926d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 33026d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher // Only handle constant GEPs here. 33126d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher if (CE->getOpcode() != Instruction::GetElementPtr) break; 33226d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher GEPOperator *GEP = cast<GEPOperator>(CE); 33326d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 334dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher // Make sure we're not a constant offset from an external 335dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher // global. 336dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher Value *Operand = GEP->getPointerOperand(); 33777ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher Operand = Operand->stripPointerCasts(); 338dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher if (GlobalVariable *GV = dyn_cast<GlobalVariable>(Operand)) 339dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher if (!GV->hasDefinitiveInitializer()) break; 340dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher 34177ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher // Get what we're pointing to and its size. 34277ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher const PointerType *BaseType = 343dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher cast<PointerType>(Operand->getType()); 3446e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng uint64_t Size = TD->getTypeAllocSize(BaseType->getElementType()); 34526d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 34677ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher // Get the current byte offset into the thing. Use the original 34777ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher // operand in case we're looking through a bitcast. 34826d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher SmallVector<Value*, 8> Ops(CE->op_begin()+1, CE->op_end()); 34977ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher const PointerType *OffsetType = 35077ffe3b31e32fbbcb06e71c8a68129df6266a492Eric Christopher cast<PointerType>(GEP->getPointerOperand()->getType()); 3516e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng uint64_t Offset = TD->getIndexedOffset(OffsetType, &Ops[0], Ops.size()); 35226d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 3536e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng if (Size < Offset) { 3546e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng // Out of bound reference? Negative index normalized to large 3556e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng // index? Just return "I don't know". 3566e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng Constant *RetVal = ConstantInt::get(ReturnTy, Min ? 0 : -1ULL); 3576e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng return ReplaceInstUsesWith(CI, RetVal); 3586e5dfd4bf5205d5f84d958c9636bc0f57c23b96aEvan Cheng } 35926d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 36026d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher Constant *RetVal = ConstantInt::get(ReturnTy, Size-Offset); 36126d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher return ReplaceInstUsesWith(CI, RetVal); 36226d0e892e36e8dcc4248a8ccc8bedbd2d235eaeeEric Christopher 363dfdddd8ed621a44ec3da0e2fff42abf9e60e812aEric Christopher } 364415326b4edcc967dfb03c5ab41923b195e7c3cb1Eric Christopher } 365753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::bswap: 366753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // bswap(bswap(x)) -> x 367753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (IntrinsicInst *Operand = dyn_cast<IntrinsicInst>(II->getOperand(1))) 368753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Operand->getIntrinsicID() == Intrinsic::bswap) 369753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, Operand->getOperand(1)); 3700c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 371753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // bswap(trunc(bswap(x))) -> trunc(lshr(x, c)) 372753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (TruncInst *TI = dyn_cast<TruncInst>(II->getOperand(1))) { 373753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (IntrinsicInst *Operand = dyn_cast<IntrinsicInst>(TI->getOperand(0))) 374753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Operand->getIntrinsicID() == Intrinsic::bswap) { 375753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned C = Operand->getType()->getPrimitiveSizeInBits() - 376753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner TI->getType()->getPrimitiveSizeInBits(); 377753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *CV = ConstantInt::get(Operand->getType(), C); 378753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *V = Builder->CreateLShr(Operand->getOperand(1), CV); 379753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return new TruncInst(V, TI->getType()); 380753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 381753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 3820c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 383753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 384753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::powi: 385753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantInt *Power = dyn_cast<ConstantInt>(II->getOperand(2))) { 386753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // powi(x, 0) -> 1.0 387753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Power->isZero()) 388753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, ConstantFP::get(CI.getType(), 1.0)); 389753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // powi(x, 1) -> x 390753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Power->isOne()) 391753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, II->getOperand(1)); 392753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // powi(x, -1) -> 1/x 393753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Power->isAllOnesValue()) 394753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return BinaryOperator::CreateFDiv(ConstantFP::get(CI.getType(), 1.0), 395753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->getOperand(1)); 396753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 397753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 398753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::cttz: { 399753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If all bits below the first known one are known zero, 400753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // this value is constant. 401753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const IntegerType *IT = cast<IntegerType>(II->getOperand(1)->getType()); 402753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner uint32_t BitWidth = IT->getBitWidth(); 403753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt KnownZero(BitWidth, 0); 404753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt KnownOne(BitWidth, 0); 405753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ComputeMaskedBits(II->getOperand(1), APInt::getAllOnesValue(BitWidth), 406753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner KnownZero, KnownOne); 407753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned TrailingZeros = KnownOne.countTrailingZeros(); 408753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt Mask(APInt::getLowBitsSet(BitWidth, TrailingZeros)); 409753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if ((Mask & KnownZero) == Mask) 410753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, ConstantInt::get(IT, 411753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt(BitWidth, TrailingZeros))); 4120c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 413753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 414753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 415753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ctlz: { 416753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If all bits above the first known one are known zero, 417753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // this value is constant. 418753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const IntegerType *IT = cast<IntegerType>(II->getOperand(1)->getType()); 419753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner uint32_t BitWidth = IT->getBitWidth(); 420753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt KnownZero(BitWidth, 0); 421753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt KnownOne(BitWidth, 0); 422753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ComputeMaskedBits(II->getOperand(1), APInt::getAllOnesValue(BitWidth), 423753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner KnownZero, KnownOne); 424753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned LeadingZeros = KnownOne.countLeadingZeros(); 425753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt Mask(APInt::getHighBitsSet(BitWidth, LeadingZeros)); 426753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if ((Mask & KnownZero) == Mask) 427753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, ConstantInt::get(IT, 428753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt(BitWidth, LeadingZeros))); 4290c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 430753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 431753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 432753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::uadd_with_overflow: { 433753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *LHS = II->getOperand(1), *RHS = II->getOperand(2); 434753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const IntegerType *IT = cast<IntegerType>(II->getOperand(1)->getType()); 435753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner uint32_t BitWidth = IT->getBitWidth(); 436753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt Mask = APInt::getSignBit(BitWidth); 437753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt LHSKnownZero(BitWidth, 0); 438753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt LHSKnownOne(BitWidth, 0); 439753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ComputeMaskedBits(LHS, Mask, LHSKnownZero, LHSKnownOne); 440753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool LHSKnownNegative = LHSKnownOne[BitWidth - 1]; 441753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool LHSKnownPositive = LHSKnownZero[BitWidth - 1]; 442753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 443753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (LHSKnownNegative || LHSKnownPositive) { 444753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt RHSKnownZero(BitWidth, 0); 445753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt RHSKnownOne(BitWidth, 0); 446753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ComputeMaskedBits(RHS, Mask, RHSKnownZero, RHSKnownOne); 447753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool RHSKnownNegative = RHSKnownOne[BitWidth - 1]; 448753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool RHSKnownPositive = RHSKnownZero[BitWidth - 1]; 449753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (LHSKnownNegative && RHSKnownNegative) { 450753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // The sign bit is set in both cases: this MUST overflow. 451753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Create a simple add instruction, and insert it into the struct. 452753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *Add = BinaryOperator::CreateAdd(LHS, RHS, "", &CI); 453753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Worklist.Add(Add); 454753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *V[] = { 455753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(LHS->getType()),ConstantInt::getTrue(II->getContext()) 456753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner }; 457753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *Struct = ConstantStruct::get(II->getContext(), V, 2, false); 458753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return InsertValueInst::Create(Struct, Add, 0); 459753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 4600c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 461753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (LHSKnownPositive && RHSKnownPositive) { 462753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // The sign bit is clear in both cases: this CANNOT overflow. 463753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Create a simple add instruction, and insert it into the struct. 464753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *Add = BinaryOperator::CreateNUWAdd(LHS, RHS, "", &CI); 465753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Worklist.Add(Add); 466753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *V[] = { 467753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(LHS->getType()), 468753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::getFalse(II->getContext()) 469753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner }; 470753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *Struct = ConstantStruct::get(II->getContext(), V, 2, false); 471753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return InsertValueInst::Create(Struct, Add, 0); 472753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 473753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 474753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 475753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // FALL THROUGH uadd into sadd 476753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::sadd_with_overflow: 477753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Canonicalize constants into the RHS. 478753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<Constant>(II->getOperand(1)) && 479753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !isa<Constant>(II->getOperand(2))) { 480753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *LHS = II->getOperand(1); 481753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->setOperand(1, II->getOperand(2)); 482753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->setOperand(2, LHS); 483753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return II; 484753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 485753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 486753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X + undef -> undef 487753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<UndefValue>(II->getOperand(2))) 488753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, UndefValue::get(II->getType())); 4890c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 490753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantInt *RHS = dyn_cast<ConstantInt>(II->getOperand(2))) { 491753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X + 0 -> {X, false} 492753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RHS->isZero()) { 493753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *V[] = { 494753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(II->getOperand(0)->getType()), 495753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::getFalse(II->getContext()) 496753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner }; 497753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *Struct = ConstantStruct::get(II->getContext(), V, 2, false); 498753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return InsertValueInst::Create(Struct, II->getOperand(1), 0); 499753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 500753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 501753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 502753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::usub_with_overflow: 503753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ssub_with_overflow: 504753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // undef - X -> undef 505753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X - undef -> undef 506753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<UndefValue>(II->getOperand(1)) || 507753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner isa<UndefValue>(II->getOperand(2))) 508753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, UndefValue::get(II->getType())); 5090c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 510753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantInt *RHS = dyn_cast<ConstantInt>(II->getOperand(2))) { 511753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X - 0 -> {X, false} 512753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RHS->isZero()) { 513753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *V[] = { 514753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(II->getOperand(1)->getType()), 515753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::getFalse(II->getContext()) 516753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner }; 517753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *Struct = ConstantStruct::get(II->getContext(), V, 2, false); 518753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return InsertValueInst::Create(Struct, II->getOperand(1), 0); 519753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 520753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 521753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 522753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::umul_with_overflow: 523753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::smul_with_overflow: 524753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Canonicalize constants into the RHS. 525753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<Constant>(II->getOperand(1)) && 526753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !isa<Constant>(II->getOperand(2))) { 527753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *LHS = II->getOperand(1); 528753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->setOperand(1, II->getOperand(2)); 529753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->setOperand(2, LHS); 530753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return II; 531753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 532753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 533753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X * undef -> undef 534753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<UndefValue>(II->getOperand(2))) 535753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, UndefValue::get(II->getType())); 5360c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 537753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantInt *RHSI = dyn_cast<ConstantInt>(II->getOperand(2))) { 538753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X*0 -> {0, false} 539753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RHSI->isZero()) 540753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return ReplaceInstUsesWith(CI, Constant::getNullValue(II->getType())); 5410c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 542753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // X * 1 -> {X, false} 543753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RHSI->equalsInt(1)) { 544753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *V[] = { 545753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(II->getOperand(1)->getType()), 546753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::getFalse(II->getContext()) 547753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner }; 548753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *Struct = ConstantStruct::get(II->getContext(), V, 2, false); 549753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return InsertValueInst::Create(Struct, II->getOperand(1), 0); 550753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 551753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 552753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 553753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ppc_altivec_lvx: 554753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ppc_altivec_lvxl: 555753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse_loadu_ps: 556753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse2_loadu_pd: 557753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse2_loadu_dq: 558753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Turn PPC lvx -> load if the pointer is known aligned. 559753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Turn X86 loadups -> load if the pointer is known aligned. 560753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GetOrEnforceKnownAlignment(II->getOperand(1), 16) >= 16) { 561753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Ptr = Builder->CreateBitCast(II->getOperand(1), 562753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PointerType::getUnqual(II->getType())); 563753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return new LoadInst(Ptr); 564753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 565753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 566753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ppc_altivec_stvx: 567753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ppc_altivec_stvxl: 568753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Turn stvx -> store if the pointer is known aligned. 569753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GetOrEnforceKnownAlignment(II->getOperand(2), 16) >= 16) { 5700c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher const Type *OpPtrTy = 571753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PointerType::getUnqual(II->getOperand(1)->getType()); 572753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Ptr = Builder->CreateBitCast(II->getOperand(2), OpPtrTy); 573753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return new StoreInst(II->getOperand(1), Ptr); 574753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 575753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 576753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse_storeu_ps: 577753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse2_storeu_pd: 578753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse2_storeu_dq: 579753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Turn X86 storeu -> store if the pointer is known aligned. 580753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (GetOrEnforceKnownAlignment(II->getOperand(1), 16) >= 16) { 5810c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher const Type *OpPtrTy = 582753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PointerType::getUnqual(II->getOperand(2)->getType()); 583753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Ptr = Builder->CreateBitCast(II->getOperand(1), OpPtrTy); 584753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return new StoreInst(II->getOperand(2), Ptr); 585753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 586753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 5870c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 588753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::x86_sse_cvttss2si: { 589753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // These intrinsics only demands the 0th element of its input vector. If 590753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // we can simplify the input based on that, do so now. 591753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned VWidth = 592753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<VectorType>(II->getOperand(1)->getType())->getNumElements(); 593753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt DemandedElts(VWidth, 1); 594753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner APInt UndefElts(VWidth, 0); 595753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Value *V = SimplifyDemandedVectorElts(II->getOperand(1), DemandedElts, 596753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefElts)) { 597753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->setOperand(1, V); 598753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return II; 599753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 600753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 601753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 6020c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 603753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::ppc_altivec_vperm: 604753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Turn vperm(V1,V2,mask) -> shuffle(V1,V2,mask) if mask is a constant. 605753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ConstantVector *Mask = dyn_cast<ConstantVector>(II->getOperand(3))) { 606753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner assert(Mask->getNumOperands() == 16 && "Bad type for intrinsic!"); 6070c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 608753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Check that all of the elements are integer constants or undefs. 609753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool AllEltsOk = true; 610753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = 0; i != 16; ++i) { 6110c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher if (!isa<ConstantInt>(Mask->getOperand(i)) && 612753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !isa<UndefValue>(Mask->getOperand(i))) { 613753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner AllEltsOk = false; 614753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 615753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 616753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 6170c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 618753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (AllEltsOk) { 619753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Cast the input vectors to byte vectors. 620753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Op0 = Builder->CreateBitCast(II->getOperand(1), Mask->getType()); 621753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Op1 = Builder->CreateBitCast(II->getOperand(2), Mask->getType()); 622753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Result = UndefValue::get(Op0->getType()); 6230c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 624753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Only extract each element once. 625753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *ExtractedElts[32]; 626753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner memset(ExtractedElts, 0, sizeof(ExtractedElts)); 6270c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 628753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = 0; i != 16; ++i) { 629753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<UndefValue>(Mask->getOperand(i))) 630753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner continue; 631753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Idx=cast<ConstantInt>(Mask->getOperand(i))->getZExtValue(); 632753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Idx &= 31; // Match the hardware behavior. 6330c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 634753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (ExtractedElts[Idx] == 0) { 6350c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher ExtractedElts[Idx] = 6360c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher Builder->CreateExtractElement(Idx < 16 ? Op0 : Op1, 637753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::get(Type::getInt32Ty(II->getContext()), 638753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Idx&15, false), "tmp"); 639753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 6400c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 641753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Insert this value into the result vector. 642753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Result = Builder->CreateInsertElement(Result, ExtractedElts[Idx], 643753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::get(Type::getInt32Ty(II->getContext()), 644753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner i, false), "tmp"); 645753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 646753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return CastInst::Create(Instruction::BitCast, Result, CI.getType()); 647753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 648753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 649753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 650753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 651753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner case Intrinsic::stackrestore: { 652753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the save is right next to the restore, remove the restore. This can 653753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // happen when variable allocas are DCE'd. 654753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (IntrinsicInst *SS = dyn_cast<IntrinsicInst>(II->getOperand(1))) { 655753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (SS->getIntrinsicID() == Intrinsic::stacksave) { 656753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner BasicBlock::iterator BI = SS; 657753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (&*++BI == II) 658753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(CI); 659753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 660753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 6610c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 662753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Scan down this block to see if there is another stack restore in the 663753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // same block without an intervening call/alloca. 664753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner BasicBlock::iterator BI = II; 665753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner TerminatorInst *TI = II->getParent()->getTerminator(); 666753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool CannotRemove = false; 667753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (++BI; &*BI != TI; ++BI) { 668753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<AllocaInst>(BI) || isMalloc(BI)) { 669753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CannotRemove = true; 670753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 671753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 672753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CallInst *BCI = dyn_cast<CallInst>(BI)) { 673753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (IntrinsicInst *II = dyn_cast<IntrinsicInst>(BCI)) { 674753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If there is a stackrestore below this one, remove this one. 675753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (II->getIntrinsicID() == Intrinsic::stackrestore) 676753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(CI); 677753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Otherwise, ignore the intrinsic. 678753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 679753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If we found a non-intrinsic call, we can't remove the stack 680753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // restore. 681753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CannotRemove = true; 682753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 683753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 684753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 685753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 6860c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 687753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the stack restore is in a return/unwind block and if there are no 688753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // allocas or calls between the restore and the return, nuke the restore. 689753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CannotRemove && (isa<ReturnInst>(TI) || isa<UnwindInst>(TI))) 690753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(CI); 691753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 692753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 693753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 694753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 695753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return visitCallSite(II); 696753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 697753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 698753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// InvokeInst simplification 699753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 700753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::visitInvokeInst(InvokeInst &II) { 701753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return visitCallSite(&II); 702753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 703753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 7040c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher/// isSafeToEliminateVarargsCast - If this cast does not affect the value 705753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner/// passed through the varargs area, we can eliminate the use of the cast. 706753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerstatic bool isSafeToEliminateVarargsCast(const CallSite CS, 707753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const CastInst * const CI, 708753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const TargetData * const TD, 709753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const int ix) { 710753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CI->isLosslessCast()) 711753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 712753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 713753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // The size of ByVal arguments is derived from the type, so we 714753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // can't change to a type with a different size. If the size were 715753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // passed explicitly we could avoid this check. 716753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CS.paramHasAttr(ix, Attribute::ByVal)) 717753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return true; 718753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 7190c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher const Type* SrcTy = 720753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<PointerType>(CI->getOperand(0)->getType())->getElementType(); 721753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type* DstTy = cast<PointerType>(CI->getType())->getElementType(); 722753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!SrcTy->isSized() || !DstTy->isSized()) 723753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 724753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!TD || TD->getTypeAllocSize(SrcTy) != TD->getTypeAllocSize(DstTy)) 725753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 726753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return true; 727753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 728753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 729753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// visitCallSite - Improvements for call and invoke instructions. 730753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 731753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::visitCallSite(CallSite CS) { 732753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool Changed = false; 733753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 734753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the callee is a constexpr cast of a function, attempt to move the cast 735753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // to the arguments of the call/invoke. 736753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (transformConstExprCastCall(CS)) return 0; 737753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 738753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Callee = CS.getCalledValue(); 739753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 740753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Function *CalleeF = dyn_cast<Function>(Callee)) 741d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner // If the call and callee calling conventions don't match, this call must 742d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner // be unreachable, as the call is undefined. 743d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner if (CalleeF->getCallingConv() != CS.getCallingConv() && 744d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner // Only do this for calls to a function with a body. A prototype may 745d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner // not actually end up matching the implementation's calling conv for a 746d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner // variety of reasons (e.g. it may be written in assembly). 747d569561835b0fa4dbbb0fca1b1f0a8de6c01439aChris Lattner !CalleeF->isDeclaration()) { 748753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *OldCall = CS.getInstruction(); 749753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner new StoreInst(ConstantInt::getTrue(Callee->getContext()), 7500c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher UndefValue::get(Type::getInt1PtrTy(Callee->getContext())), 751753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner OldCall); 752753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If OldCall dues not return void then replaceAllUsesWith undef. 753753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // This allows ValueHandlers and custom metadata to adjust itself. 754753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!OldCall->getType()->isVoidTy()) 755753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner OldCall->replaceAllUsesWith(UndefValue::get(OldCall->getType())); 756830f3f205d8a77acbf8838fe78c2c733ca924d9cChris Lattner if (isa<CallInst>(OldCall)) 757753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(*OldCall); 7580c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 759830f3f205d8a77acbf8838fe78c2c733ca924d9cChris Lattner // We cannot remove an invoke, because it would change the CFG, just 760830f3f205d8a77acbf8838fe78c2c733ca924d9cChris Lattner // change the callee to a null pointer. 761830f3f205d8a77acbf8838fe78c2c733ca924d9cChris Lattner cast<InvokeInst>(OldCall)->setOperand(0, 762830f3f205d8a77acbf8838fe78c2c733ca924d9cChris Lattner Constant::getNullValue(CalleeF->getType())); 763753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; 764753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 765753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 766753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<ConstantPointerNull>(Callee) || isa<UndefValue>(Callee)) { 767753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // This instruction is not reachable, just remove it. We insert a store to 768753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // undef so that we know that this code is not reachable, despite the fact 769753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // that we can't modify the CFG here. 770753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner new StoreInst(ConstantInt::getTrue(Callee->getContext()), 771753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UndefValue::get(Type::getInt1PtrTy(Callee->getContext())), 772753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CS.getInstruction()); 773753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 774753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If CS dues not return void then replaceAllUsesWith undef. 775753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // This allows ValueHandlers and custom metadata to adjust itself. 776753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CS.getInstruction()->getType()->isVoidTy()) 777753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CS.getInstruction()-> 778753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner replaceAllUsesWith(UndefValue::get(CS.getInstruction()->getType())); 779753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 780753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(CS.getInstruction())) { 781753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Don't break the CFG, insert a dummy cond branch. 782753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner BranchInst::Create(II->getNormalDest(), II->getUnwindDest(), 783753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantInt::getTrue(Callee->getContext()), II); 784753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 785753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return EraseInstFromFunction(*CS.getInstruction()); 786753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 787753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 788753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (BitCastInst *BC = dyn_cast<BitCastInst>(Callee)) 789753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (IntrinsicInst *In = dyn_cast<IntrinsicInst>(BC->getOperand(0))) 790753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (In->getIntrinsicID() == Intrinsic::init_trampoline) 791753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return transformCallThroughTrampoline(CS); 792753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 793753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const PointerType *PTy = cast<PointerType>(Callee->getType()); 794753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const FunctionType *FTy = cast<FunctionType>(PTy->getElementType()); 795753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (FTy->isVarArg()) { 796753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner int ix = FTy->getNumParams() + (isa<InvokeInst>(Callee) ? 3 : 1); 797753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // See if we can optimize any arguments passed through the varargs area of 798753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // the call. 799753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (CallSite::arg_iterator I = CS.arg_begin()+FTy->getNumParams(), 800753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner E = CS.arg_end(); I != E; ++I, ++ix) { 801753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CastInst *CI = dyn_cast<CastInst>(*I); 802753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CI && isSafeToEliminateVarargsCast(CS, CI, TD, ix)) { 803753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner *I = CI->getOperand(0); 804753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Changed = true; 805753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 806753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 807753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 808753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 809753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (isa<InlineAsm>(Callee) && !CS.doesNotThrow()) { 810753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Inline asm calls cannot throw - mark them 'nounwind'. 811753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CS.setDoesNotThrow(); 812753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Changed = true; 813753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 814753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 815753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return Changed ? CS.getInstruction() : 0; 816753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 817753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 818753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// transformConstExprCastCall - If the callee is a constexpr cast of a function, 819753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// attempt to move the cast to the arguments of the call/invoke. 820753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 821753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattnerbool InstCombiner::transformConstExprCastCall(CallSite CS) { 822753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!isa<ConstantExpr>(CS.getCalledValue())) return false; 823753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantExpr *CE = cast<ConstantExpr>(CS.getCalledValue()); 8240c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher if (CE->getOpcode() != Instruction::BitCast || 825753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !isa<Function>(CE->getOperand(0))) 826753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 827753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Function *Callee = cast<Function>(CE->getOperand(0)); 828753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *Caller = CS.getInstruction(); 829753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const AttrListPtr &CallerPAL = CS.getAttributes(); 830753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 831753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Okay, this is a cast from a function to a different type. Unless doing so 832753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // would cause a type conversion of one of our arguments, change this call to 833753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // be a direct call with arguments casted to the appropriate types. 834753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // 835753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const FunctionType *FT = Callee->getFunctionType(); 836753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *OldRetTy = Caller->getType(); 837753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *NewRetTy = FT->getReturnType(); 838753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 8391df9859c40492511b8aa4321eb76496005d3b75bDuncan Sands if (NewRetTy->isStructTy()) 840753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // TODO: Handle multiple return values. 841753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 842753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Check to see if we are changing the return type... 843753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (OldRetTy != NewRetTy) { 844753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Callee->isDeclaration() && 845753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Conversion is ok if changing from one pointer type to another or from 846753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // a pointer to an integer of the same size. 8471df9859c40492511b8aa4321eb76496005d3b75bDuncan Sands !((OldRetTy->isPointerTy() || !TD || 848753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner OldRetTy == TD->getIntPtrType(Caller->getContext())) && 8491df9859c40492511b8aa4321eb76496005d3b75bDuncan Sands (NewRetTy->isPointerTy() || !TD || 850753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewRetTy == TD->getIntPtrType(Caller->getContext())))) 851753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Cannot transform this return value. 852753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 853753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!Caller->use_empty() && 854753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // void -> non-void is handled specially 855753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !NewRetTy->isVoidTy() && !CastInst::isCastable(NewRetTy, OldRetTy)) 856753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Cannot transform this return value. 857753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 858753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CallerPAL.isEmpty() && !Caller->use_empty()) { 859753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Attributes RAttrs = CallerPAL.getRetAttributes(); 860753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RAttrs & Attribute::typeIncompatible(NewRetTy)) 861753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Attribute not compatible with transformed value. 862753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 863753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 864753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the callsite is an invoke instruction, and the return value is used by 865753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // a PHI node in a successor, we cannot change the return type of the call 866753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // because there is no place to put the cast instruction (without breaking 867753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // the critical edge). Bail out in this case. 868753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!Caller->use_empty()) 869753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(Caller)) 870753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (Value::use_iterator UI = II->use_begin(), E = II->use_end(); 871753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner UI != E; ++UI) 872753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (PHINode *PN = dyn_cast<PHINode>(*UI)) 873753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (PN->getParent() == II->getNormalDest() || 874753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PN->getParent() == II->getUnwindDest()) 875753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 876753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 877753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 878753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned NumActualArgs = unsigned(CS.arg_end()-CS.arg_begin()); 879753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned NumCommonArgs = std::min(FT->getNumParams(), NumActualArgs); 880753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 881753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CallSite::arg_iterator AI = CS.arg_begin(); 882753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = 0, e = NumCommonArgs; i != e; ++i, ++AI) { 883753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *ParamTy = FT->getParamType(i); 884753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *ActTy = (*AI)->getType(); 885753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 886753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!CastInst::isCastable(ActTy, ParamTy)) 887753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Cannot transform this parameter value. 888753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 8890c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher if (CallerPAL.getParamAttributes(i + 1) 890753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner & Attribute::typeIncompatible(ParamTy)) 891753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Attribute not compatible with transformed value. 892753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 893753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Converting from one pointer type to another or between a pointer and an 894753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // integer of the same size is safe even if we do not have a body. 895753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner bool isConvertible = ActTy == ParamTy || 8961df9859c40492511b8aa4321eb76496005d3b75bDuncan Sands (TD && ((ParamTy->isPointerTy() || 897753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ParamTy == TD->getIntPtrType(Caller->getContext())) && 8981df9859c40492511b8aa4321eb76496005d3b75bDuncan Sands (ActTy->isPointerTy() || 899753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ActTy == TD->getIntPtrType(Caller->getContext())))); 900753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Callee->isDeclaration() && !isConvertible) return false; 901753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 902753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 903753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (FT->getNumParams() < NumActualArgs && !FT->isVarArg() && 904753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Callee->isDeclaration()) 905753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; // Do not delete arguments unless we have a function body. 906753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 907753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (FT->getNumParams() < NumActualArgs && FT->isVarArg() && 908753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner !CallerPAL.isEmpty()) 909753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // In this case we have more arguments than the new function type, but we 910753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // won't be dropping them. Check that these extra arguments have attributes 911753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // that are compatible with being a vararg call argument. 912753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = CallerPAL.getNumSlots(); i; --i) { 913753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CallerPAL.getSlot(i - 1).Index <= FT->getNumParams()) 914753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 915753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Attributes PAttrs = CallerPAL.getSlot(i - 1).Attrs; 916753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (PAttrs & Attribute::VarArgsIncompatible) 917753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return false; 918753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 919753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 920753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Okay, we decided that this is a safe thing to do: go ahead and start 921753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // inserting cast instructions as necessary... 922753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner std::vector<Value*> Args; 923753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.reserve(NumActualArgs); 924753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner SmallVector<AttributeWithIndex, 8> attrVec; 925753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.reserve(NumCommonArgs); 926753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 927753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Get any return attributes. 928753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Attributes RAttrs = CallerPAL.getRetAttributes(); 929753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 930753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the return value is not being used, the type may not be compatible 931753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // with the existing attributes. Wipe out any problematic attributes. 932753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner RAttrs &= ~Attribute::typeIncompatible(NewRetTy); 933753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 934753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add the new return attributes. 935753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (RAttrs) 936753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.push_back(AttributeWithIndex::get(0, RAttrs)); 937753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 938753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner AI = CS.arg_begin(); 939753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = 0; i != NumCommonArgs; ++i, ++AI) { 940753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *ParamTy = FT->getParamType(i); 941753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if ((*AI)->getType() == ParamTy) { 942753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.push_back(*AI); 943753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 944753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction::CastOps opcode = CastInst::getCastOpcode(*AI, 945753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner false, ParamTy, false); 946753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.push_back(Builder->CreateCast(opcode, *AI, ParamTy, "tmp")); 947753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 948753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 949753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add any parameter attributes. 950753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes PAttrs = CallerPAL.getParamAttributes(i + 1)) 951753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.push_back(AttributeWithIndex::get(i + 1, PAttrs)); 952753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 953753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 954753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the function takes more arguments than the call was taking, add them 955753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // now. 956753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = NumCommonArgs; i != FT->getNumParams(); ++i) 957753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.push_back(Constant::getNullValue(FT->getParamType(i))); 958753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 959753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If we are removing arguments to the function, emit an obnoxious warning. 960753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (FT->getNumParams() < NumActualArgs) { 961753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!FT->isVarArg()) { 962753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner errs() << "WARNING: While resolving call to function '" 963753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner << Callee->getName() << "' arguments were dropped!\n"; 964753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 965753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add all of the arguments in their promoted form to the arg list. 966753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (unsigned i = FT->getNumParams(); i != NumActualArgs; ++i, ++AI) { 967753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *PTy = getPromotedType((*AI)->getType()); 968753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (PTy != (*AI)->getType()) { 969753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Must promote to pass through va_arg area! 970753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction::CastOps opcode = 971753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CastInst::getCastOpcode(*AI, false, PTy, false); 972753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.push_back(Builder->CreateCast(opcode, *AI, PTy, "tmp")); 973753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 974753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.push_back(*AI); 975753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 976753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 977753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add any parameter attributes. 978753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes PAttrs = CallerPAL.getParamAttributes(i + 1)) 979753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.push_back(AttributeWithIndex::get(i + 1, PAttrs)); 980753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 981753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 982753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 983753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 984753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes FnAttrs = CallerPAL.getFnAttributes()) 985753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.push_back(AttributeWithIndex::get(~0, FnAttrs)); 986753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 987753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (NewRetTy->isVoidTy()) 988753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->setName(""); // Void type should not have a name. 989753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 990753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const AttrListPtr &NewCallerPAL = AttrListPtr::get(attrVec.begin(), 991753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner attrVec.end()); 992753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 993753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *NC; 994753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(Caller)) { 995753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NC = InvokeInst::Create(Callee, II->getNormalDest(), II->getUnwindDest(), 996753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Args.begin(), Args.end(), 997753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->getName(), Caller); 998753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<InvokeInst>(NC)->setCallingConv(II->getCallingConv()); 999753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<InvokeInst>(NC)->setAttributes(NewCallerPAL); 1000753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 1001753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NC = CallInst::Create(Callee, Args.begin(), Args.end(), 1002753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->getName(), Caller); 1003753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CallInst *CI = cast<CallInst>(Caller); 1004753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (CI->isTailCall()) 1005753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NC)->setTailCall(); 1006753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NC)->setCallingConv(CI->getCallingConv()); 1007753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NC)->setAttributes(NewCallerPAL); 1008753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1009753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1010753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Insert a cast of the return type as necessary. 1011753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *NV = NC; 1012753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (OldRetTy != NV->getType() && !Caller->use_empty()) { 1013753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!NV->getType()->isVoidTy()) { 10140c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher Instruction::CastOps opcode = CastInst::getCastOpcode(NC, false, 1015753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner OldRetTy, false); 1016753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NV = NC = CastInst::Create(opcode, NC, OldRetTy, "tmp"); 1017753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1018753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If this is an invoke instruction, we should insert it after the first 1019753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // non-phi, instruction in the normal successor block. 1020753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(Caller)) { 1021753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner BasicBlock::iterator I = II->getNormalDest()->getFirstNonPHI(); 1022753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner InsertNewInstBefore(NC, *I); 1023753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 1024753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Otherwise, it's a call, just insert cast right after the call instr 1025753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner InsertNewInstBefore(NC, *Caller); 1026753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1027753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Worklist.AddUsersToWorkList(*Caller); 1028753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 1029753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NV = UndefValue::get(Caller->getType()); 1030753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1031753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1032753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1033753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1034753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!Caller->use_empty()) 1035753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->replaceAllUsesWith(NV); 10360c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 1037753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner EraseInstFromFunction(*Caller); 1038753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return true; 1039753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 1040753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1041753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// transformCallThroughTrampoline - Turn a call to a function created by the 1042753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// init_trampoline intrinsic into a direct call to the underlying function. 1043753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner// 1044753a2b464d0628231bd3dce645edd05dfbaa3a06Chris LattnerInstruction *InstCombiner::transformCallThroughTrampoline(CallSite CS) { 1045753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *Callee = CS.getCalledValue(); 1046753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const PointerType *PTy = cast<PointerType>(Callee->getType()); 1047753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const FunctionType *FTy = cast<FunctionType>(PTy->getElementType()); 1048753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const AttrListPtr &Attrs = CS.getAttributes(); 1049753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1050753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // If the call already has the 'nest' attribute somewhere then give up - 1051753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // otherwise 'nest' would occur twice after splicing in the chain. 1052753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attrs.hasAttrSomewhere(Attribute::Nest)) 1053753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; 1054753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1055753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner IntrinsicInst *Tramp = 1056753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<IntrinsicInst>(cast<BitCastInst>(Callee)->getOperand(0)); 1057753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1058753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Function *NestF = cast<Function>(Tramp->getOperand(2)->stripPointerCasts()); 1059753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const PointerType *NestFPTy = cast<PointerType>(NestF->getType()); 1060753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const FunctionType *NestFTy = cast<FunctionType>(NestFPTy->getElementType()); 1061753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1062753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const AttrListPtr &NestAttrs = NestF->getAttributes(); 1063753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!NestAttrs.isEmpty()) { 1064753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned NestIdx = 1; 1065753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const Type *NestTy = 0; 1066753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Attributes NestAttr = Attribute::None; 1067753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1068753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Look for a parameter marked with the 'nest' attribute. 1069753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner for (FunctionType::param_iterator I = NestFTy->param_begin(), 1070753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner E = NestFTy->param_end(); I != E; ++NestIdx, ++I) 1071753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (NestAttrs.paramHasAttr(NestIdx, Attribute::Nest)) { 1072753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Record the parameter type and any other attributes. 1073753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NestTy = *I; 1074753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NestAttr = NestAttrs.getParamAttributes(NestIdx); 1075753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 1076753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1077753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1078753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (NestTy) { 1079753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *Caller = CS.getInstruction(); 1080753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner std::vector<Value*> NewArgs; 1081753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewArgs.reserve(unsigned(CS.arg_end()-CS.arg_begin())+1); 1082753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1083753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner SmallVector<AttributeWithIndex, 8> NewAttrs; 1084753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.reserve(Attrs.getNumSlots() + 1); 1085753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1086753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Insert the nest argument into the call argument list, which may 1087753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // mean appending it. Likewise for attributes. 1088753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1089753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add any result attributes. 1090753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes Attr = Attrs.getRetAttributes()) 1091753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.push_back(AttributeWithIndex::get(0, Attr)); 1092753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1093753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner { 1094753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Idx = 1; 1095753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CallSite::arg_iterator I = CS.arg_begin(), E = CS.arg_end(); 1096753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner do { 1097753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Idx == NestIdx) { 1098753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add the chain argument and attributes. 1099753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Value *NestVal = Tramp->getOperand(3); 1100753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (NestVal->getType() != NestTy) 1101753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NestVal = new BitCastInst(NestVal, NestTy, "nest", Caller); 1102753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewArgs.push_back(NestVal); 1103753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.push_back(AttributeWithIndex::get(NestIdx, NestAttr)); 1104753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1105753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1106753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (I == E) 1107753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 1108753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1109753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add the original argument and attributes. 1110753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewArgs.push_back(*I); 1111753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes Attr = Attrs.getParamAttributes(Idx)) 1112753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.push_back 1113753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner (AttributeWithIndex::get(Idx + (Idx >= NestIdx), Attr)); 1114753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1115753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ++Idx, ++I; 1116753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } while (1); 1117753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1118753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1119753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add any function attributes. 1120753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Attributes Attr = Attrs.getFnAttributes()) 1121753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.push_back(AttributeWithIndex::get(~0, Attr)); 1122753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1123753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // The trampoline may have been bitcast to a bogus type (FTy). 1124753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Handle this by synthesizing a new function type, equal to FTy 1125753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // with the chain parameter inserted. 1126753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1127753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner std::vector<const Type*> NewTypes; 1128753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewTypes.reserve(FTy->getNumParams()+1); 1129753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1130753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Insert the chain's type into the list of parameter types, which may 1131753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // mean appending it. 1132753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner { 1133753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner unsigned Idx = 1; 1134753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner FunctionType::param_iterator I = FTy->param_begin(), 1135753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner E = FTy->param_end(); 1136753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1137753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner do { 1138753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (Idx == NestIdx) 1139753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add the chain's type. 1140753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewTypes.push_back(NestTy); 1141753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1142753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (I == E) 1143753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner break; 1144753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1145753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Add the original type. 1146753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewTypes.push_back(*I); 1147753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1148753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ++Idx, ++I; 1149753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } while (1); 1150753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1151753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1152753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Replace the trampoline call with a direct call. Let the generic 1153753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // code sort out any function type mismatches. 11540c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher FunctionType *NewFTy = FunctionType::get(FTy->getReturnType(), NewTypes, 1155753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner FTy->isVarArg()); 1156753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *NewCallee = 1157753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NestF->getType() == PointerType::getUnqual(NewFTy) ? 11580c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher NestF : ConstantExpr::getBitCast(NestF, 1159753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner PointerType::getUnqual(NewFTy)); 1160753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner const AttrListPtr &NewPAL = AttrListPtr::get(NewAttrs.begin(), 1161753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewAttrs.end()); 1162753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1163753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Instruction *NewCaller; 1164753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(Caller)) { 1165753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewCaller = InvokeInst::Create(NewCallee, 1166753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner II->getNormalDest(), II->getUnwindDest(), 1167753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewArgs.begin(), NewArgs.end(), 1168753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->getName(), Caller); 1169753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<InvokeInst>(NewCaller)->setCallingConv(II->getCallingConv()); 1170753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<InvokeInst>(NewCaller)->setAttributes(NewPAL); 1171753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } else { 1172753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner NewCaller = CallInst::Create(NewCallee, NewArgs.begin(), NewArgs.end(), 1173753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->getName(), Caller); 1174753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (cast<CallInst>(Caller)->isTailCall()) 1175753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NewCaller)->setTailCall(); 1176753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NewCaller)-> 1177753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner setCallingConv(cast<CallInst>(Caller)->getCallingConv()); 1178753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner cast<CallInst>(NewCaller)->setAttributes(NewPAL); 1179753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1180753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner if (!Caller->getType()->isVoidTy()) 1181753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->replaceAllUsesWith(NewCaller); 1182753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Caller->eraseFromParent(); 1183753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Worklist.Remove(Caller); 1184753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return 0; 1185753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1186753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner } 1187753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner 1188753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // Replace the trampoline call with a direct call. Since there is no 'nest' 1189753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // parameter, there is no need to adjust the argument list. Let the generic 1190753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner // code sort out any function type mismatches. 1191753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner Constant *NewCallee = 11920c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher NestF->getType() == PTy ? NestF : 1193753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner ConstantExpr::getBitCast(NestF, PTy); 1194753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner CS.setCalledFunction(NewCallee); 1195753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner return CS.getInstruction(); 1196753a2b464d0628231bd3dce645edd05dfbaa3a06Chris Lattner} 11970c6a8f9eda4651e0f54a7edf171525d16b1ff3faEric Christopher 1198