1f22ef01cSRoman Divacky //===-- MachineFunction.cpp -----------------------------------------------===// 2f22ef01cSRoman Divacky // 3f22ef01cSRoman Divacky // The LLVM Compiler Infrastructure 4f22ef01cSRoman Divacky // 5f22ef01cSRoman Divacky // This file is distributed under the University of Illinois Open Source 6f22ef01cSRoman Divacky // License. See LICENSE.TXT for details. 7f22ef01cSRoman Divacky // 8f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 9f22ef01cSRoman Divacky // 10f22ef01cSRoman Divacky // Collect native machine code information for a function. This allows 11f22ef01cSRoman Divacky // target-specific information about the generated code to be stored with each 12f22ef01cSRoman Divacky // function. 13f22ef01cSRoman Divacky // 14f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 15f22ef01cSRoman Divacky 16f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineFunction.h" 17139f7f9bSDimitry Andric #include "llvm/ADT/STLExtras.h" 18139f7f9bSDimitry Andric #include "llvm/ADT/SmallString.h" 19139f7f9bSDimitry Andric #include "llvm/Analysis/ConstantFolding.h" 207d523365SDimitry Andric #include "llvm/Analysis/EHPersonalities.h" 21dff0c46cSDimitry Andric #include "llvm/CodeGen/MachineConstantPool.h" 22f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineFrameInfo.h" 238f0fd8f6SDimitry Andric #include "llvm/CodeGen/MachineFunctionInitializer.h" 24139f7f9bSDimitry Andric #include "llvm/CodeGen/MachineFunctionPass.h" 25f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineInstr.h" 26f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineJumpTableInfo.h" 27f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineModuleInfo.h" 28f22ef01cSRoman Divacky #include "llvm/CodeGen/MachineRegisterInfo.h" 29f22ef01cSRoman Divacky #include "llvm/CodeGen/Passes.h" 307d523365SDimitry Andric #include "llvm/CodeGen/PseudoSourceValue.h" 317d523365SDimitry Andric #include "llvm/CodeGen/WinEHFuncInfo.h" 32139f7f9bSDimitry Andric #include "llvm/IR/DataLayout.h" 3391bc56edSDimitry Andric #include "llvm/IR/DebugInfo.h" 34139f7f9bSDimitry Andric #include "llvm/IR/Function.h" 35875ed548SDimitry Andric #include "llvm/IR/Module.h" 363dac3a9bSDimitry Andric #include "llvm/IR/ModuleSlotTracker.h" 37f22ef01cSRoman Divacky #include "llvm/MC/MCAsmInfo.h" 38f22ef01cSRoman Divacky #include "llvm/MC/MCContext.h" 39f22ef01cSRoman Divacky #include "llvm/Support/Debug.h" 40f22ef01cSRoman Divacky #include "llvm/Support/GraphWriter.h" 41f22ef01cSRoman Divacky #include "llvm/Support/raw_ostream.h" 42139f7f9bSDimitry Andric #include "llvm/Target/TargetFrameLowering.h" 43139f7f9bSDimitry Andric #include "llvm/Target/TargetLowering.h" 44139f7f9bSDimitry Andric #include "llvm/Target/TargetMachine.h" 4539d628a0SDimitry Andric #include "llvm/Target/TargetSubtargetInfo.h" 46f22ef01cSRoman Divacky using namespace llvm; 47f22ef01cSRoman Divacky 4891bc56edSDimitry Andric #define DEBUG_TYPE "codegen" 4991bc56edSDimitry Andric 507d523365SDimitry Andric static cl::opt<unsigned> 517d523365SDimitry Andric AlignAllFunctions("align-all-functions", 527d523365SDimitry Andric cl::desc("Force the alignment of all functions."), 537d523365SDimitry Andric cl::init(0), cl::Hidden); 547d523365SDimitry Andric 558f0fd8f6SDimitry Andric void MachineFunctionInitializer::anchor() {} 568f0fd8f6SDimitry Andric 573ca95b02SDimitry Andric void MachineFunctionProperties::print(raw_ostream &ROS, bool OnlySet) const { 583ca95b02SDimitry Andric // Leave this function even in NDEBUG as an out-of-line anchor. 593ca95b02SDimitry Andric #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 603ca95b02SDimitry Andric for (BitVector::size_type i = 0; i < Properties.size(); ++i) { 613ca95b02SDimitry Andric bool HasProperty = Properties[i]; 623ca95b02SDimitry Andric if (OnlySet && !HasProperty) 633ca95b02SDimitry Andric continue; 643ca95b02SDimitry Andric switch(static_cast<Property>(i)) { 653ca95b02SDimitry Andric case Property::IsSSA: 663ca95b02SDimitry Andric ROS << (HasProperty ? "SSA, " : "Post SSA, "); 673ca95b02SDimitry Andric break; 683ca95b02SDimitry Andric case Property::TracksLiveness: 693ca95b02SDimitry Andric ROS << (HasProperty ? "" : "not ") << "tracking liveness, "; 703ca95b02SDimitry Andric break; 713ca95b02SDimitry Andric case Property::AllVRegsAllocated: 723ca95b02SDimitry Andric ROS << (HasProperty ? "AllVRegsAllocated" : "HasVRegs"); 733ca95b02SDimitry Andric break; 743ca95b02SDimitry Andric default: 753ca95b02SDimitry Andric break; 763ca95b02SDimitry Andric } 773ca95b02SDimitry Andric } 783ca95b02SDimitry Andric #endif 793ca95b02SDimitry Andric } 803ca95b02SDimitry Andric 81f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 82f22ef01cSRoman Divacky // MachineFunction implementation 83f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 84f22ef01cSRoman Divacky 858f0fd8f6SDimitry Andric // Out-of-line virtual method. 86f22ef01cSRoman Divacky MachineFunctionInfo::~MachineFunctionInfo() {} 87f22ef01cSRoman Divacky 88f22ef01cSRoman Divacky void ilist_traits<MachineBasicBlock>::deleteNode(MachineBasicBlock *MBB) { 89f22ef01cSRoman Divacky MBB->getParent()->DeleteMachineBasicBlock(MBB); 90f22ef01cSRoman Divacky } 91f22ef01cSRoman Divacky 923ca95b02SDimitry Andric static inline unsigned getFnStackAlignment(const TargetSubtargetInfo *STI, 933ca95b02SDimitry Andric const Function *Fn) { 943ca95b02SDimitry Andric if (Fn->hasFnAttribute(Attribute::StackAlignment)) 953ca95b02SDimitry Andric return Fn->getFnStackAlignment(); 963ca95b02SDimitry Andric return STI->getFrameLowering()->getStackAlignment(); 973ca95b02SDimitry Andric } 983ca95b02SDimitry Andric 99f22ef01cSRoman Divacky MachineFunction::MachineFunction(const Function *F, const TargetMachine &TM, 10039d628a0SDimitry Andric unsigned FunctionNum, MachineModuleInfo &mmi) 101ff0cc061SDimitry Andric : Fn(F), Target(TM), STI(TM.getSubtargetImpl(*F)), Ctx(mmi.getContext()), 10239d628a0SDimitry Andric MMI(mmi) { 1033ca95b02SDimitry Andric // Assume the function starts in SSA form with correct liveness. 1043ca95b02SDimitry Andric Properties.set(MachineFunctionProperties::Property::IsSSA); 1053ca95b02SDimitry Andric Properties.set(MachineFunctionProperties::Property::TracksLiveness); 10639d628a0SDimitry Andric if (STI->getRegisterInfo()) 10739d628a0SDimitry Andric RegInfo = new (Allocator) MachineRegisterInfo(this); 108f22ef01cSRoman Divacky else 10991bc56edSDimitry Andric RegInfo = nullptr; 110f785676fSDimitry Andric 11191bc56edSDimitry Andric MFInfo = nullptr; 1123ca95b02SDimitry Andric // We can realign the stack if the target supports it and the user hasn't 1133ca95b02SDimitry Andric // explicitly asked us not to. 1143ca95b02SDimitry Andric bool CanRealignSP = STI->getFrameLowering()->isStackRealignable() && 1153ca95b02SDimitry Andric !F->hasFnAttribute("no-realign-stack"); 1163ca95b02SDimitry Andric FrameInfo = new (Allocator) MachineFrameInfo( 1173ca95b02SDimitry Andric getFnStackAlignment(STI, Fn), /*StackRealignable=*/CanRealignSP, 1183ca95b02SDimitry Andric /*ForceRealign=*/CanRealignSP && 1193ca95b02SDimitry Andric F->hasFnAttribute(Attribute::StackAlignment)); 120f785676fSDimitry Andric 121ff0cc061SDimitry Andric if (Fn->hasFnAttribute(Attribute::StackAlignment)) 122ff0cc061SDimitry Andric FrameInfo->ensureMaxAlignment(Fn->getFnStackAlignment()); 123f785676fSDimitry Andric 124875ed548SDimitry Andric ConstantPool = new (Allocator) MachineConstantPool(getDataLayout()); 12539d628a0SDimitry Andric Alignment = STI->getTargetLowering()->getMinFunctionAlignment(); 126f785676fSDimitry Andric 127bd5abe19SDimitry Andric // FIXME: Shouldn't use pref alignment if explicit alignment is set on Fn. 1287d523365SDimitry Andric // FIXME: Use Function::optForSize(). 129ff0cc061SDimitry Andric if (!Fn->hasFnAttribute(Attribute::OptimizeForSize)) 130bd5abe19SDimitry Andric Alignment = std::max(Alignment, 13139d628a0SDimitry Andric STI->getTargetLowering()->getPrefFunctionAlignment()); 132f785676fSDimitry Andric 1337d523365SDimitry Andric if (AlignAllFunctions) 1347d523365SDimitry Andric Alignment = AlignAllFunctions; 1357d523365SDimitry Andric 136f22ef01cSRoman Divacky FunctionNumber = FunctionNum; 13791bc56edSDimitry Andric JumpTableInfo = nullptr; 1387d523365SDimitry Andric 1397d523365SDimitry Andric if (isFuncletEHPersonality(classifyEHPersonality( 1407d523365SDimitry Andric F->hasPersonalityFn() ? F->getPersonalityFn() : nullptr))) { 1417d523365SDimitry Andric WinEHInfo = new (Allocator) WinEHFuncInfo(); 1427d523365SDimitry Andric } 1437d523365SDimitry Andric 1447d523365SDimitry Andric assert(TM.isCompatibleDataLayout(getDataLayout()) && 1457d523365SDimitry Andric "Can't create a MachineFunction using a Module with a " 1467d523365SDimitry Andric "Target-incompatible DataLayout attached\n"); 1477d523365SDimitry Andric 1487d523365SDimitry Andric PSVManager = llvm::make_unique<PseudoSourceValueManager>(); 149f22ef01cSRoman Divacky } 150f22ef01cSRoman Divacky 151f22ef01cSRoman Divacky MachineFunction::~MachineFunction() { 152139f7f9bSDimitry Andric // Don't call destructors on MachineInstr and MachineOperand. All of their 153139f7f9bSDimitry Andric // memory comes from the BumpPtrAllocator which is about to be purged. 154139f7f9bSDimitry Andric // 155139f7f9bSDimitry Andric // Do call MachineBasicBlock destructors, it contains std::vectors. 156139f7f9bSDimitry Andric for (iterator I = begin(), E = end(); I != E; I = BasicBlocks.erase(I)) 157139f7f9bSDimitry Andric I->Insts.clearAndLeakNodesUnsafely(); 158139f7f9bSDimitry Andric 159f22ef01cSRoman Divacky InstructionRecycler.clear(Allocator); 160139f7f9bSDimitry Andric OperandRecycler.clear(Allocator); 161f22ef01cSRoman Divacky BasicBlockRecycler.clear(Allocator); 162f22ef01cSRoman Divacky if (RegInfo) { 163f22ef01cSRoman Divacky RegInfo->~MachineRegisterInfo(); 164f22ef01cSRoman Divacky Allocator.Deallocate(RegInfo); 165f22ef01cSRoman Divacky } 166f22ef01cSRoman Divacky if (MFInfo) { 167f22ef01cSRoman Divacky MFInfo->~MachineFunctionInfo(); 168f22ef01cSRoman Divacky Allocator.Deallocate(MFInfo); 169f22ef01cSRoman Divacky } 1707ae0e2c9SDimitry Andric 1717ae0e2c9SDimitry Andric FrameInfo->~MachineFrameInfo(); 1727ae0e2c9SDimitry Andric Allocator.Deallocate(FrameInfo); 1737ae0e2c9SDimitry Andric 1747ae0e2c9SDimitry Andric ConstantPool->~MachineConstantPool(); 1757ae0e2c9SDimitry Andric Allocator.Deallocate(ConstantPool); 176f22ef01cSRoman Divacky 177f22ef01cSRoman Divacky if (JumpTableInfo) { 178f22ef01cSRoman Divacky JumpTableInfo->~MachineJumpTableInfo(); 179f22ef01cSRoman Divacky Allocator.Deallocate(JumpTableInfo); 180f22ef01cSRoman Divacky } 1817d523365SDimitry Andric 1827d523365SDimitry Andric if (WinEHInfo) { 1837d523365SDimitry Andric WinEHInfo->~WinEHFuncInfo(); 1847d523365SDimitry Andric Allocator.Deallocate(WinEHInfo); 1857d523365SDimitry Andric } 186f22ef01cSRoman Divacky } 187f22ef01cSRoman Divacky 188875ed548SDimitry Andric const DataLayout &MachineFunction::getDataLayout() const { 189875ed548SDimitry Andric return Fn->getParent()->getDataLayout(); 190875ed548SDimitry Andric } 191875ed548SDimitry Andric 1928f0fd8f6SDimitry Andric /// Get the JumpTableInfo for this function. 1938f0fd8f6SDimitry Andric /// If it does not already exist, allocate one. 194f22ef01cSRoman Divacky MachineJumpTableInfo *MachineFunction:: 195f22ef01cSRoman Divacky getOrCreateJumpTableInfo(unsigned EntryKind) { 196f22ef01cSRoman Divacky if (JumpTableInfo) return JumpTableInfo; 197f22ef01cSRoman Divacky 198f22ef01cSRoman Divacky JumpTableInfo = new (Allocator) 199f22ef01cSRoman Divacky MachineJumpTableInfo((MachineJumpTableInfo::JTEntryKind)EntryKind); 200f22ef01cSRoman Divacky return JumpTableInfo; 201f22ef01cSRoman Divacky } 202f22ef01cSRoman Divacky 20391bc56edSDimitry Andric /// Should we be emitting segmented stack stuff for the function 2048c24ff90SDimitry Andric bool MachineFunction::shouldSplitStack() const { 20591bc56edSDimitry Andric return getFunction()->hasFnAttribute("split-stack"); 20691bc56edSDimitry Andric } 20791bc56edSDimitry Andric 2088f0fd8f6SDimitry Andric /// This discards all of the MachineBasicBlock numbers and recomputes them. 2098f0fd8f6SDimitry Andric /// This guarantees that the MBB numbers are sequential, dense, and match the 2108f0fd8f6SDimitry Andric /// ordering of the blocks within the function. If a specific MachineBasicBlock 2118f0fd8f6SDimitry Andric /// is specified, only that block and those after it are renumbered. 212f22ef01cSRoman Divacky void MachineFunction::RenumberBlocks(MachineBasicBlock *MBB) { 213f22ef01cSRoman Divacky if (empty()) { MBBNumbering.clear(); return; } 214f22ef01cSRoman Divacky MachineFunction::iterator MBBI, E = end(); 21591bc56edSDimitry Andric if (MBB == nullptr) 216f22ef01cSRoman Divacky MBBI = begin(); 217f22ef01cSRoman Divacky else 2187d523365SDimitry Andric MBBI = MBB->getIterator(); 219f22ef01cSRoman Divacky 220f22ef01cSRoman Divacky // Figure out the block number this should have. 221f22ef01cSRoman Divacky unsigned BlockNo = 0; 222f22ef01cSRoman Divacky if (MBBI != begin()) 22391bc56edSDimitry Andric BlockNo = std::prev(MBBI)->getNumber() + 1; 224f22ef01cSRoman Divacky 225f22ef01cSRoman Divacky for (; MBBI != E; ++MBBI, ++BlockNo) { 226f22ef01cSRoman Divacky if (MBBI->getNumber() != (int)BlockNo) { 227f22ef01cSRoman Divacky // Remove use of the old number. 228f22ef01cSRoman Divacky if (MBBI->getNumber() != -1) { 229f22ef01cSRoman Divacky assert(MBBNumbering[MBBI->getNumber()] == &*MBBI && 230f22ef01cSRoman Divacky "MBB number mismatch!"); 23191bc56edSDimitry Andric MBBNumbering[MBBI->getNumber()] = nullptr; 232f22ef01cSRoman Divacky } 233f22ef01cSRoman Divacky 234f22ef01cSRoman Divacky // If BlockNo is already taken, set that block's number to -1. 235f22ef01cSRoman Divacky if (MBBNumbering[BlockNo]) 236f22ef01cSRoman Divacky MBBNumbering[BlockNo]->setNumber(-1); 237f22ef01cSRoman Divacky 2387d523365SDimitry Andric MBBNumbering[BlockNo] = &*MBBI; 239f22ef01cSRoman Divacky MBBI->setNumber(BlockNo); 240f22ef01cSRoman Divacky } 241f22ef01cSRoman Divacky } 242f22ef01cSRoman Divacky 243f22ef01cSRoman Divacky // Okay, all the blocks are renumbered. If we have compactified the block 244f22ef01cSRoman Divacky // numbering, shrink MBBNumbering now. 245f22ef01cSRoman Divacky assert(BlockNo <= MBBNumbering.size() && "Mismatch!"); 246f22ef01cSRoman Divacky MBBNumbering.resize(BlockNo); 247f22ef01cSRoman Divacky } 248f22ef01cSRoman Divacky 2498f0fd8f6SDimitry Andric /// Allocate a new MachineInstr. Use this instead of `new MachineInstr'. 2503ca95b02SDimitry Andric MachineInstr *MachineFunction::CreateMachineInstr(const MCInstrDesc &MCID, 2513ca95b02SDimitry Andric const DebugLoc &DL, 2523ca95b02SDimitry Andric bool NoImp) { 253f22ef01cSRoman Divacky return new (InstructionRecycler.Allocate<MachineInstr>(Allocator)) 254139f7f9bSDimitry Andric MachineInstr(*this, MCID, DL, NoImp); 255f22ef01cSRoman Divacky } 256f22ef01cSRoman Divacky 2578f0fd8f6SDimitry Andric /// Create a new MachineInstr which is a copy of the 'Orig' instruction, 2588f0fd8f6SDimitry Andric /// identical in all ways except the instruction has no parent, prev, or next. 259f22ef01cSRoman Divacky MachineInstr * 260f22ef01cSRoman Divacky MachineFunction::CloneMachineInstr(const MachineInstr *Orig) { 261f22ef01cSRoman Divacky return new (InstructionRecycler.Allocate<MachineInstr>(Allocator)) 262f22ef01cSRoman Divacky MachineInstr(*this, *Orig); 263f22ef01cSRoman Divacky } 264f22ef01cSRoman Divacky 2658f0fd8f6SDimitry Andric /// Delete the given MachineInstr. 266f22ef01cSRoman Divacky /// 267139f7f9bSDimitry Andric /// This function also serves as the MachineInstr destructor - the real 268139f7f9bSDimitry Andric /// ~MachineInstr() destructor must be empty. 269f22ef01cSRoman Divacky void 270f22ef01cSRoman Divacky MachineFunction::DeleteMachineInstr(MachineInstr *MI) { 271139f7f9bSDimitry Andric // Strip it for parts. The operand array and the MI object itself are 272139f7f9bSDimitry Andric // independently recyclable. 273139f7f9bSDimitry Andric if (MI->Operands) 274139f7f9bSDimitry Andric deallocateOperandArray(MI->CapOperands, MI->Operands); 275139f7f9bSDimitry Andric // Don't call ~MachineInstr() which must be trivial anyway because 276139f7f9bSDimitry Andric // ~MachineFunction drops whole lists of MachineInstrs wihout calling their 277139f7f9bSDimitry Andric // destructors. 278f22ef01cSRoman Divacky InstructionRecycler.Deallocate(Allocator, MI); 279f22ef01cSRoman Divacky } 280f22ef01cSRoman Divacky 2818f0fd8f6SDimitry Andric /// Allocate a new MachineBasicBlock. Use this instead of 2828f0fd8f6SDimitry Andric /// `new MachineBasicBlock'. 283f22ef01cSRoman Divacky MachineBasicBlock * 284f22ef01cSRoman Divacky MachineFunction::CreateMachineBasicBlock(const BasicBlock *bb) { 285f22ef01cSRoman Divacky return new (BasicBlockRecycler.Allocate<MachineBasicBlock>(Allocator)) 286f22ef01cSRoman Divacky MachineBasicBlock(*this, bb); 287f22ef01cSRoman Divacky } 288f22ef01cSRoman Divacky 2898f0fd8f6SDimitry Andric /// Delete the given MachineBasicBlock. 290f22ef01cSRoman Divacky void 291f22ef01cSRoman Divacky MachineFunction::DeleteMachineBasicBlock(MachineBasicBlock *MBB) { 292f22ef01cSRoman Divacky assert(MBB->getParent() == this && "MBB parent mismatch!"); 293f22ef01cSRoman Divacky MBB->~MachineBasicBlock(); 294f22ef01cSRoman Divacky BasicBlockRecycler.Deallocate(Allocator, MBB); 295f22ef01cSRoman Divacky } 296f22ef01cSRoman Divacky 2973ca95b02SDimitry Andric MachineMemOperand *MachineFunction::getMachineMemOperand( 2983ca95b02SDimitry Andric MachinePointerInfo PtrInfo, MachineMemOperand::Flags f, uint64_t s, 2993ca95b02SDimitry Andric unsigned base_alignment, const AAMDNodes &AAInfo, const MDNode *Ranges) { 3003ca95b02SDimitry Andric return new (Allocator) 3013ca95b02SDimitry Andric MachineMemOperand(PtrInfo, f, s, base_alignment, AAInfo, Ranges); 302f22ef01cSRoman Divacky } 303f22ef01cSRoman Divacky 304f22ef01cSRoman Divacky MachineMemOperand * 305f22ef01cSRoman Divacky MachineFunction::getMachineMemOperand(const MachineMemOperand *MMO, 306f22ef01cSRoman Divacky int64_t Offset, uint64_t Size) { 30791bc56edSDimitry Andric if (MMO->getValue()) 308f22ef01cSRoman Divacky return new (Allocator) 3092754fe60SDimitry Andric MachineMemOperand(MachinePointerInfo(MMO->getValue(), 3102754fe60SDimitry Andric MMO->getOffset()+Offset), 3112754fe60SDimitry Andric MMO->getFlags(), Size, 31239d628a0SDimitry Andric MMO->getBaseAlignment()); 31391bc56edSDimitry Andric return new (Allocator) 31491bc56edSDimitry Andric MachineMemOperand(MachinePointerInfo(MMO->getPseudoValue(), 31591bc56edSDimitry Andric MMO->getOffset()+Offset), 31691bc56edSDimitry Andric MMO->getFlags(), Size, 31739d628a0SDimitry Andric MMO->getBaseAlignment()); 318f22ef01cSRoman Divacky } 319f22ef01cSRoman Divacky 320f22ef01cSRoman Divacky MachineInstr::mmo_iterator 321f22ef01cSRoman Divacky MachineFunction::allocateMemRefsArray(unsigned long Num) { 322f22ef01cSRoman Divacky return Allocator.Allocate<MachineMemOperand *>(Num); 323f22ef01cSRoman Divacky } 324f22ef01cSRoman Divacky 325f22ef01cSRoman Divacky std::pair<MachineInstr::mmo_iterator, MachineInstr::mmo_iterator> 326f22ef01cSRoman Divacky MachineFunction::extractLoadMemRefs(MachineInstr::mmo_iterator Begin, 327f22ef01cSRoman Divacky MachineInstr::mmo_iterator End) { 328f22ef01cSRoman Divacky // Count the number of load mem refs. 329f22ef01cSRoman Divacky unsigned Num = 0; 330f22ef01cSRoman Divacky for (MachineInstr::mmo_iterator I = Begin; I != End; ++I) 331f22ef01cSRoman Divacky if ((*I)->isLoad()) 332f22ef01cSRoman Divacky ++Num; 333f22ef01cSRoman Divacky 334f22ef01cSRoman Divacky // Allocate a new array and populate it with the load information. 335f22ef01cSRoman Divacky MachineInstr::mmo_iterator Result = allocateMemRefsArray(Num); 336f22ef01cSRoman Divacky unsigned Index = 0; 337f22ef01cSRoman Divacky for (MachineInstr::mmo_iterator I = Begin; I != End; ++I) { 338f22ef01cSRoman Divacky if ((*I)->isLoad()) { 339f22ef01cSRoman Divacky if (!(*I)->isStore()) 340f22ef01cSRoman Divacky // Reuse the MMO. 341f22ef01cSRoman Divacky Result[Index] = *I; 342f22ef01cSRoman Divacky else { 343f22ef01cSRoman Divacky // Clone the MMO and unset the store flag. 344f22ef01cSRoman Divacky MachineMemOperand *JustLoad = 3452754fe60SDimitry Andric getMachineMemOperand((*I)->getPointerInfo(), 346f22ef01cSRoman Divacky (*I)->getFlags() & ~MachineMemOperand::MOStore, 3472754fe60SDimitry Andric (*I)->getSize(), (*I)->getBaseAlignment(), 34839d628a0SDimitry Andric (*I)->getAAInfo()); 349f22ef01cSRoman Divacky Result[Index] = JustLoad; 350f22ef01cSRoman Divacky } 351f22ef01cSRoman Divacky ++Index; 352f22ef01cSRoman Divacky } 353f22ef01cSRoman Divacky } 354f22ef01cSRoman Divacky return std::make_pair(Result, Result + Num); 355f22ef01cSRoman Divacky } 356f22ef01cSRoman Divacky 357f22ef01cSRoman Divacky std::pair<MachineInstr::mmo_iterator, MachineInstr::mmo_iterator> 358f22ef01cSRoman Divacky MachineFunction::extractStoreMemRefs(MachineInstr::mmo_iterator Begin, 359f22ef01cSRoman Divacky MachineInstr::mmo_iterator End) { 360f22ef01cSRoman Divacky // Count the number of load mem refs. 361f22ef01cSRoman Divacky unsigned Num = 0; 362f22ef01cSRoman Divacky for (MachineInstr::mmo_iterator I = Begin; I != End; ++I) 363f22ef01cSRoman Divacky if ((*I)->isStore()) 364f22ef01cSRoman Divacky ++Num; 365f22ef01cSRoman Divacky 366f22ef01cSRoman Divacky // Allocate a new array and populate it with the store information. 367f22ef01cSRoman Divacky MachineInstr::mmo_iterator Result = allocateMemRefsArray(Num); 368f22ef01cSRoman Divacky unsigned Index = 0; 369f22ef01cSRoman Divacky for (MachineInstr::mmo_iterator I = Begin; I != End; ++I) { 370f22ef01cSRoman Divacky if ((*I)->isStore()) { 371f22ef01cSRoman Divacky if (!(*I)->isLoad()) 372f22ef01cSRoman Divacky // Reuse the MMO. 373f22ef01cSRoman Divacky Result[Index] = *I; 374f22ef01cSRoman Divacky else { 375f22ef01cSRoman Divacky // Clone the MMO and unset the load flag. 376f22ef01cSRoman Divacky MachineMemOperand *JustStore = 3772754fe60SDimitry Andric getMachineMemOperand((*I)->getPointerInfo(), 378f22ef01cSRoman Divacky (*I)->getFlags() & ~MachineMemOperand::MOLoad, 3792754fe60SDimitry Andric (*I)->getSize(), (*I)->getBaseAlignment(), 38039d628a0SDimitry Andric (*I)->getAAInfo()); 381f22ef01cSRoman Divacky Result[Index] = JustStore; 382f22ef01cSRoman Divacky } 383f22ef01cSRoman Divacky ++Index; 384f22ef01cSRoman Divacky } 385f22ef01cSRoman Divacky } 386f22ef01cSRoman Divacky return std::make_pair(Result, Result + Num); 387f22ef01cSRoman Divacky } 388f22ef01cSRoman Divacky 3897d523365SDimitry Andric const char *MachineFunction::createExternalSymbolName(StringRef Name) { 3907d523365SDimitry Andric char *Dest = Allocator.Allocate<char>(Name.size() + 1); 3917d523365SDimitry Andric std::copy(Name.begin(), Name.end(), Dest); 3927d523365SDimitry Andric Dest[Name.size()] = 0; 3937d523365SDimitry Andric return Dest; 3947d523365SDimitry Andric } 3957d523365SDimitry Andric 3963861d79fSDimitry Andric #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 3973ca95b02SDimitry Andric LLVM_DUMP_METHOD void MachineFunction::dump() const { 398f22ef01cSRoman Divacky print(dbgs()); 399f22ef01cSRoman Divacky } 4003861d79fSDimitry Andric #endif 4013861d79fSDimitry Andric 4023861d79fSDimitry Andric StringRef MachineFunction::getName() const { 4033861d79fSDimitry Andric assert(getFunction() && "No function!"); 4043861d79fSDimitry Andric return getFunction()->getName(); 4053861d79fSDimitry Andric } 406f22ef01cSRoman Divacky 4073ca95b02SDimitry Andric void MachineFunction::print(raw_ostream &OS, const SlotIndexes *Indexes) const { 4083861d79fSDimitry Andric OS << "# Machine code for function " << getName() << ": "; 4093ca95b02SDimitry Andric OS << "Properties: <"; 4103ca95b02SDimitry Andric getProperties().print(OS); 4113ca95b02SDimitry Andric OS << ">\n"; 412f22ef01cSRoman Divacky 413f22ef01cSRoman Divacky // Print Frame Information 414f22ef01cSRoman Divacky FrameInfo->print(*this, OS); 415f22ef01cSRoman Divacky 416f22ef01cSRoman Divacky // Print JumpTable Information 417f22ef01cSRoman Divacky if (JumpTableInfo) 418f22ef01cSRoman Divacky JumpTableInfo->print(OS); 419f22ef01cSRoman Divacky 420f22ef01cSRoman Divacky // Print Constant Pool 421f22ef01cSRoman Divacky ConstantPool->print(OS); 422f22ef01cSRoman Divacky 42339d628a0SDimitry Andric const TargetRegisterInfo *TRI = getSubtarget().getRegisterInfo(); 424f22ef01cSRoman Divacky 425f22ef01cSRoman Divacky if (RegInfo && !RegInfo->livein_empty()) { 426f22ef01cSRoman Divacky OS << "Function Live Ins: "; 427f22ef01cSRoman Divacky for (MachineRegisterInfo::livein_iterator 428f22ef01cSRoman Divacky I = RegInfo->livein_begin(), E = RegInfo->livein_end(); I != E; ++I) { 429bd5abe19SDimitry Andric OS << PrintReg(I->first, TRI); 430f22ef01cSRoman Divacky if (I->second) 431bd5abe19SDimitry Andric OS << " in " << PrintReg(I->second, TRI); 43291bc56edSDimitry Andric if (std::next(I) != E) 433f22ef01cSRoman Divacky OS << ", "; 434f22ef01cSRoman Divacky } 435f22ef01cSRoman Divacky OS << '\n'; 436f22ef01cSRoman Divacky } 437f22ef01cSRoman Divacky 4383dac3a9bSDimitry Andric ModuleSlotTracker MST(getFunction()->getParent()); 4393dac3a9bSDimitry Andric MST.incorporateFunction(*getFunction()); 44091bc56edSDimitry Andric for (const auto &BB : *this) { 441f22ef01cSRoman Divacky OS << '\n'; 4423dac3a9bSDimitry Andric BB.print(OS, MST, Indexes); 443f22ef01cSRoman Divacky } 444f22ef01cSRoman Divacky 4453861d79fSDimitry Andric OS << "\n# End machine code for function " << getName() << ".\n\n"; 446f22ef01cSRoman Divacky } 447f22ef01cSRoman Divacky 448f22ef01cSRoman Divacky namespace llvm { 449f22ef01cSRoman Divacky template<> 450f22ef01cSRoman Divacky struct DOTGraphTraits<const MachineFunction*> : public DefaultDOTGraphTraits { 451f22ef01cSRoman Divacky 452f22ef01cSRoman Divacky DOTGraphTraits (bool isSimple=false) : DefaultDOTGraphTraits(isSimple) {} 453f22ef01cSRoman Divacky 454f22ef01cSRoman Divacky static std::string getGraphName(const MachineFunction *F) { 455ff0cc061SDimitry Andric return ("CFG for '" + F->getName() + "' function").str(); 456f22ef01cSRoman Divacky } 457f22ef01cSRoman Divacky 458f22ef01cSRoman Divacky std::string getNodeLabel(const MachineBasicBlock *Node, 459f22ef01cSRoman Divacky const MachineFunction *Graph) { 460f22ef01cSRoman Divacky std::string OutStr; 461f22ef01cSRoman Divacky { 462f22ef01cSRoman Divacky raw_string_ostream OSS(OutStr); 463f22ef01cSRoman Divacky 4642754fe60SDimitry Andric if (isSimple()) { 4652754fe60SDimitry Andric OSS << "BB#" << Node->getNumber(); 4662754fe60SDimitry Andric if (const BasicBlock *BB = Node->getBasicBlock()) 4672754fe60SDimitry Andric OSS << ": " << BB->getName(); 4682754fe60SDimitry Andric } else 469f22ef01cSRoman Divacky Node->print(OSS); 470f22ef01cSRoman Divacky } 471f22ef01cSRoman Divacky 472f22ef01cSRoman Divacky if (OutStr[0] == '\n') OutStr.erase(OutStr.begin()); 473f22ef01cSRoman Divacky 474f22ef01cSRoman Divacky // Process string output to make it nicer... 475f22ef01cSRoman Divacky for (unsigned i = 0; i != OutStr.length(); ++i) 476f22ef01cSRoman Divacky if (OutStr[i] == '\n') { // Left justify 477f22ef01cSRoman Divacky OutStr[i] = '\\'; 478f22ef01cSRoman Divacky OutStr.insert(OutStr.begin()+i+1, 'l'); 479f22ef01cSRoman Divacky } 480f22ef01cSRoman Divacky return OutStr; 481f22ef01cSRoman Divacky } 482f22ef01cSRoman Divacky }; 4833dac3a9bSDimitry Andric } 484f22ef01cSRoman Divacky 485f22ef01cSRoman Divacky void MachineFunction::viewCFG() const 486f22ef01cSRoman Divacky { 487f22ef01cSRoman Divacky #ifndef NDEBUG 4883861d79fSDimitry Andric ViewGraph(this, "mf" + getName()); 489f22ef01cSRoman Divacky #else 490ffd1746dSEd Schouten errs() << "MachineFunction::viewCFG is only available in debug builds on " 491f22ef01cSRoman Divacky << "systems with Graphviz or gv!\n"; 492f22ef01cSRoman Divacky #endif // NDEBUG 493f22ef01cSRoman Divacky } 494f22ef01cSRoman Divacky 495f22ef01cSRoman Divacky void MachineFunction::viewCFGOnly() const 496f22ef01cSRoman Divacky { 497f22ef01cSRoman Divacky #ifndef NDEBUG 4983861d79fSDimitry Andric ViewGraph(this, "mf" + getName(), true); 499f22ef01cSRoman Divacky #else 500ffd1746dSEd Schouten errs() << "MachineFunction::viewCFGOnly is only available in debug builds on " 501f22ef01cSRoman Divacky << "systems with Graphviz or gv!\n"; 502f22ef01cSRoman Divacky #endif // NDEBUG 503f22ef01cSRoman Divacky } 504f22ef01cSRoman Divacky 5058f0fd8f6SDimitry Andric /// Add the specified physical register as a live-in value and 506f22ef01cSRoman Divacky /// create a corresponding virtual register for it. 507f22ef01cSRoman Divacky unsigned MachineFunction::addLiveIn(unsigned PReg, 508dd6029ffSDimitry Andric const TargetRegisterClass *RC) { 509f22ef01cSRoman Divacky MachineRegisterInfo &MRI = getRegInfo(); 510f22ef01cSRoman Divacky unsigned VReg = MRI.getLiveInVirtReg(PReg); 511f22ef01cSRoman Divacky if (VReg) { 51291bc56edSDimitry Andric const TargetRegisterClass *VRegRC = MRI.getRegClass(VReg); 51391bc56edSDimitry Andric (void)VRegRC; 51491bc56edSDimitry Andric // A physical register can be added several times. 51591bc56edSDimitry Andric // Between two calls, the register class of the related virtual register 51691bc56edSDimitry Andric // may have been constrained to match some operation constraints. 51791bc56edSDimitry Andric // In that case, check that the current register class includes the 51891bc56edSDimitry Andric // physical register and is a sub class of the specified RC. 51991bc56edSDimitry Andric assert((VRegRC == RC || (VRegRC->contains(PReg) && 52091bc56edSDimitry Andric RC->hasSubClassEq(VRegRC))) && 52191bc56edSDimitry Andric "Register class mismatch!"); 522f22ef01cSRoman Divacky return VReg; 523f22ef01cSRoman Divacky } 524f22ef01cSRoman Divacky VReg = MRI.createVirtualRegister(RC); 525f22ef01cSRoman Divacky MRI.addLiveIn(PReg, VReg); 526f22ef01cSRoman Divacky return VReg; 527f22ef01cSRoman Divacky } 528f22ef01cSRoman Divacky 5298f0fd8f6SDimitry Andric /// Return the MCSymbol for the specified non-empty jump table. 530f22ef01cSRoman Divacky /// If isLinkerPrivate is specified, an 'l' label is returned, otherwise a 531f22ef01cSRoman Divacky /// normal 'L' label is returned. 532f22ef01cSRoman Divacky MCSymbol *MachineFunction::getJTISymbol(unsigned JTI, MCContext &Ctx, 533f22ef01cSRoman Divacky bool isLinkerPrivate) const { 534875ed548SDimitry Andric const DataLayout &DL = getDataLayout(); 535f22ef01cSRoman Divacky assert(JumpTableInfo && "No jump tables"); 536f22ef01cSRoman Divacky assert(JTI < JumpTableInfo->getJumpTables().size() && "Invalid JTI!"); 537f22ef01cSRoman Divacky 538875ed548SDimitry Andric const char *Prefix = isLinkerPrivate ? DL.getLinkerPrivateGlobalPrefix() 539875ed548SDimitry Andric : DL.getPrivateGlobalPrefix(); 540f22ef01cSRoman Divacky SmallString<60> Name; 541f22ef01cSRoman Divacky raw_svector_ostream(Name) 542f22ef01cSRoman Divacky << Prefix << "JTI" << getFunctionNumber() << '_' << JTI; 543ff0cc061SDimitry Andric return Ctx.getOrCreateSymbol(Name); 544f22ef01cSRoman Divacky } 545f22ef01cSRoman Divacky 5468f0fd8f6SDimitry Andric /// Return a function-local symbol to represent the PIC base. 5472754fe60SDimitry Andric MCSymbol *MachineFunction::getPICBaseSymbol() const { 548875ed548SDimitry Andric const DataLayout &DL = getDataLayout(); 549875ed548SDimitry Andric return Ctx.getOrCreateSymbol(Twine(DL.getPrivateGlobalPrefix()) + 5502754fe60SDimitry Andric Twine(getFunctionNumber()) + "$pb"); 5512754fe60SDimitry Andric } 552f22ef01cSRoman Divacky 553f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 554f22ef01cSRoman Divacky // MachineFrameInfo implementation 555f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 556f22ef01cSRoman Divacky 5578f0fd8f6SDimitry Andric /// Make sure the function is at least Align bytes aligned. 558139f7f9bSDimitry Andric void MachineFrameInfo::ensureMaxAlignment(unsigned Align) { 5593ca95b02SDimitry Andric if (!StackRealignable) 56039d628a0SDimitry Andric assert(Align <= StackAlignment && 561139f7f9bSDimitry Andric "For targets without stack realignment, Align is out of limit!"); 562139f7f9bSDimitry Andric if (MaxAlignment < Align) MaxAlignment = Align; 563139f7f9bSDimitry Andric } 564139f7f9bSDimitry Andric 5658f0fd8f6SDimitry Andric /// Clamp the alignment if requested and emit a warning. 566139f7f9bSDimitry Andric static inline unsigned clampStackAlignment(bool ShouldClamp, unsigned Align, 567139f7f9bSDimitry Andric unsigned StackAlign) { 568139f7f9bSDimitry Andric if (!ShouldClamp || Align <= StackAlign) 569139f7f9bSDimitry Andric return Align; 570139f7f9bSDimitry Andric DEBUG(dbgs() << "Warning: requested alignment " << Align 571139f7f9bSDimitry Andric << " exceeds the stack alignment " << StackAlign 572139f7f9bSDimitry Andric << " when stack realignment is off" << '\n'); 573139f7f9bSDimitry Andric return StackAlign; 574139f7f9bSDimitry Andric } 575139f7f9bSDimitry Andric 5768f0fd8f6SDimitry Andric /// Create a new statically sized stack object, returning a nonnegative 5778f0fd8f6SDimitry Andric /// identifier to represent it. 578139f7f9bSDimitry Andric int MachineFrameInfo::CreateStackObject(uint64_t Size, unsigned Alignment, 57991bc56edSDimitry Andric bool isSS, const AllocaInst *Alloca) { 580139f7f9bSDimitry Andric assert(Size != 0 && "Cannot allocate zero size stack objects!"); 5813ca95b02SDimitry Andric Alignment = clampStackAlignment(!StackRealignable, Alignment, StackAlignment); 58239d628a0SDimitry Andric Objects.push_back(StackObject(Size, Alignment, 0, false, isSS, Alloca, 58339d628a0SDimitry Andric !isSS)); 584139f7f9bSDimitry Andric int Index = (int)Objects.size() - NumFixedObjects - 1; 585139f7f9bSDimitry Andric assert(Index >= 0 && "Bad frame index!"); 586139f7f9bSDimitry Andric ensureMaxAlignment(Alignment); 587139f7f9bSDimitry Andric return Index; 588139f7f9bSDimitry Andric } 589139f7f9bSDimitry Andric 5908f0fd8f6SDimitry Andric /// Create a new statically sized stack object that represents a spill slot, 5918f0fd8f6SDimitry Andric /// returning a nonnegative identifier to represent it. 592139f7f9bSDimitry Andric int MachineFrameInfo::CreateSpillStackObject(uint64_t Size, 593139f7f9bSDimitry Andric unsigned Alignment) { 5943ca95b02SDimitry Andric Alignment = clampStackAlignment(!StackRealignable, Alignment, StackAlignment); 59591bc56edSDimitry Andric CreateStackObject(Size, Alignment, true); 596139f7f9bSDimitry Andric int Index = (int)Objects.size() - NumFixedObjects - 1; 597139f7f9bSDimitry Andric ensureMaxAlignment(Alignment); 598139f7f9bSDimitry Andric return Index; 599139f7f9bSDimitry Andric } 600139f7f9bSDimitry Andric 6018f0fd8f6SDimitry Andric /// Notify the MachineFrameInfo object that a variable sized object has been 6028f0fd8f6SDimitry Andric /// created. This must be created whenever a variable sized object is created, 6038f0fd8f6SDimitry Andric /// whether or not the index returned is actually used. 604*4f00c8c6SDimitry Andric int MachineFrameInfo::CreateVariableSizedObject(unsigned Alignment, 605*4f00c8c6SDimitry Andric const AllocaInst *Alloca) { 606139f7f9bSDimitry Andric HasVarSizedObjects = true; 6073ca95b02SDimitry Andric Alignment = clampStackAlignment(!StackRealignable, Alignment, StackAlignment); 60839d628a0SDimitry Andric Objects.push_back(StackObject(0, Alignment, 0, false, false, Alloca, true)); 609139f7f9bSDimitry Andric ensureMaxAlignment(Alignment); 610139f7f9bSDimitry Andric return (int)Objects.size()-NumFixedObjects-1; 611139f7f9bSDimitry Andric } 612139f7f9bSDimitry Andric 6138f0fd8f6SDimitry Andric /// Create a new object at a fixed location on the stack. 614f22ef01cSRoman Divacky /// All fixed objects should be created before other objects are created for 615f22ef01cSRoman Divacky /// efficiency. By default, fixed objects are immutable. This returns an 616f22ef01cSRoman Divacky /// index with a negative value. 617f22ef01cSRoman Divacky int MachineFrameInfo::CreateFixedObject(uint64_t Size, int64_t SPOffset, 61839d628a0SDimitry Andric bool Immutable, bool isAliased) { 619f22ef01cSRoman Divacky assert(Size != 0 && "Cannot allocate zero size fixed stack objects!"); 620ffd1746dSEd Schouten // The alignment of the frame index can be determined from its offset from 621ffd1746dSEd Schouten // the incoming frame position. If the frame object is at offset 32 and 622ffd1746dSEd Schouten // the stack is guaranteed to be 16-byte aligned, then we know that the 6233ca95b02SDimitry Andric // object is 16-byte aligned. Note that unlike the non-fixed case, if the 6243ca95b02SDimitry Andric // stack needs realignment, we can't assume that the stack will in fact be 6253ca95b02SDimitry Andric // aligned. 6263ca95b02SDimitry Andric unsigned Align = MinAlign(SPOffset, ForcedRealign ? 1 : StackAlignment); 6273ca95b02SDimitry Andric Align = clampStackAlignment(!StackRealignable, Align, StackAlignment); 628ffd1746dSEd Schouten Objects.insert(Objects.begin(), StackObject(Size, Align, SPOffset, Immutable, 6293861d79fSDimitry Andric /*isSS*/ false, 63039d628a0SDimitry Andric /*Alloca*/ nullptr, isAliased)); 631f22ef01cSRoman Divacky return -++NumFixedObjects; 632f22ef01cSRoman Divacky } 633f22ef01cSRoman Divacky 6348f0fd8f6SDimitry Andric /// Create a spill slot at a fixed location on the stack. 6358f0fd8f6SDimitry Andric /// Returns an index with a negative value. 63691bc56edSDimitry Andric int MachineFrameInfo::CreateFixedSpillStackObject(uint64_t Size, 63791bc56edSDimitry Andric int64_t SPOffset) { 6383ca95b02SDimitry Andric unsigned Align = MinAlign(SPOffset, ForcedRealign ? 1 : StackAlignment); 6393ca95b02SDimitry Andric Align = clampStackAlignment(!StackRealignable, Align, StackAlignment); 64091bc56edSDimitry Andric Objects.insert(Objects.begin(), StackObject(Size, Align, SPOffset, 64191bc56edSDimitry Andric /*Immutable*/ true, 64291bc56edSDimitry Andric /*isSS*/ true, 64339d628a0SDimitry Andric /*Alloca*/ nullptr, 64439d628a0SDimitry Andric /*isAliased*/ false)); 64591bc56edSDimitry Andric return -++NumFixedObjects; 64691bc56edSDimitry Andric } 647f22ef01cSRoman Divacky 64897bc6c73SDimitry Andric BitVector MachineFrameInfo::getPristineRegs(const MachineFunction &MF) const { 64997bc6c73SDimitry Andric const TargetRegisterInfo *TRI = MF.getSubtarget().getRegisterInfo(); 650f22ef01cSRoman Divacky BitVector BV(TRI->getNumRegs()); 651f22ef01cSRoman Divacky 652f22ef01cSRoman Divacky // Before CSI is calculated, no registers are considered pristine. They can be 653f22ef01cSRoman Divacky // freely used and PEI will make sure they are saved. 654f22ef01cSRoman Divacky if (!isCalleeSavedInfoValid()) 655f22ef01cSRoman Divacky return BV; 656f22ef01cSRoman Divacky 65797bc6c73SDimitry Andric for (const MCPhysReg *CSR = TRI->getCalleeSavedRegs(&MF); CSR && *CSR; ++CSR) 658f22ef01cSRoman Divacky BV.set(*CSR); 659f22ef01cSRoman Divacky 66097bc6c73SDimitry Andric // Saved CSRs are not pristine. 6617d523365SDimitry Andric for (auto &I : getCalleeSavedInfo()) 6627d523365SDimitry Andric for (MCSubRegIterator S(I.getReg(), TRI, true); S.isValid(); ++S) 6637d523365SDimitry Andric BV.reset(*S); 664f22ef01cSRoman Divacky 665f22ef01cSRoman Divacky return BV; 666f22ef01cSRoman Divacky } 667f22ef01cSRoman Divacky 668139f7f9bSDimitry Andric unsigned MachineFrameInfo::estimateStackSize(const MachineFunction &MF) const { 66939d628a0SDimitry Andric const TargetFrameLowering *TFI = MF.getSubtarget().getFrameLowering(); 67039d628a0SDimitry Andric const TargetRegisterInfo *RegInfo = MF.getSubtarget().getRegisterInfo(); 671139f7f9bSDimitry Andric unsigned MaxAlign = getMaxAlignment(); 672139f7f9bSDimitry Andric int Offset = 0; 673139f7f9bSDimitry Andric 674139f7f9bSDimitry Andric // This code is very, very similar to PEI::calculateFrameObjectOffsets(). 675139f7f9bSDimitry Andric // It really should be refactored to share code. Until then, changes 676139f7f9bSDimitry Andric // should keep in mind that there's tight coupling between the two. 677139f7f9bSDimitry Andric 678139f7f9bSDimitry Andric for (int i = getObjectIndexBegin(); i != 0; ++i) { 679139f7f9bSDimitry Andric int FixedOff = -getObjectOffset(i); 680139f7f9bSDimitry Andric if (FixedOff > Offset) Offset = FixedOff; 681139f7f9bSDimitry Andric } 682139f7f9bSDimitry Andric for (unsigned i = 0, e = getObjectIndexEnd(); i != e; ++i) { 683139f7f9bSDimitry Andric if (isDeadObjectIndex(i)) 684139f7f9bSDimitry Andric continue; 685139f7f9bSDimitry Andric Offset += getObjectSize(i); 686139f7f9bSDimitry Andric unsigned Align = getObjectAlignment(i); 687139f7f9bSDimitry Andric // Adjust to alignment boundary 688139f7f9bSDimitry Andric Offset = (Offset+Align-1)/Align*Align; 689139f7f9bSDimitry Andric 690139f7f9bSDimitry Andric MaxAlign = std::max(Align, MaxAlign); 691139f7f9bSDimitry Andric } 692139f7f9bSDimitry Andric 693139f7f9bSDimitry Andric if (adjustsStack() && TFI->hasReservedCallFrame(MF)) 694139f7f9bSDimitry Andric Offset += getMaxCallFrameSize(); 695139f7f9bSDimitry Andric 696139f7f9bSDimitry Andric // Round up the size to a multiple of the alignment. If the function has 697139f7f9bSDimitry Andric // any calls or alloca's, align to the target's StackAlignment value to 698139f7f9bSDimitry Andric // ensure that the callee's frame or the alloca data is suitably aligned; 699139f7f9bSDimitry Andric // otherwise, for leaf functions, align to the TransientStackAlignment 700139f7f9bSDimitry Andric // value. 701139f7f9bSDimitry Andric unsigned StackAlign; 702139f7f9bSDimitry Andric if (adjustsStack() || hasVarSizedObjects() || 703139f7f9bSDimitry Andric (RegInfo->needsStackRealignment(MF) && getObjectIndexEnd() != 0)) 704139f7f9bSDimitry Andric StackAlign = TFI->getStackAlignment(); 705139f7f9bSDimitry Andric else 706139f7f9bSDimitry Andric StackAlign = TFI->getTransientStackAlignment(); 707139f7f9bSDimitry Andric 708139f7f9bSDimitry Andric // If the frame pointer is eliminated, all frame offsets will be relative to 709139f7f9bSDimitry Andric // SP not FP. Align to MaxAlign so this works. 710139f7f9bSDimitry Andric StackAlign = std::max(StackAlign, MaxAlign); 711139f7f9bSDimitry Andric unsigned AlignMask = StackAlign - 1; 712139f7f9bSDimitry Andric Offset = (Offset + AlignMask) & ~uint64_t(AlignMask); 713139f7f9bSDimitry Andric 714139f7f9bSDimitry Andric return (unsigned)Offset; 715139f7f9bSDimitry Andric } 716f22ef01cSRoman Divacky 717f22ef01cSRoman Divacky void MachineFrameInfo::print(const MachineFunction &MF, raw_ostream &OS) const{ 718f22ef01cSRoman Divacky if (Objects.empty()) return; 719f22ef01cSRoman Divacky 72039d628a0SDimitry Andric const TargetFrameLowering *FI = MF.getSubtarget().getFrameLowering(); 721f22ef01cSRoman Divacky int ValOffset = (FI ? FI->getOffsetOfLocalArea() : 0); 722f22ef01cSRoman Divacky 723f22ef01cSRoman Divacky OS << "Frame Objects:\n"; 724f22ef01cSRoman Divacky 725f22ef01cSRoman Divacky for (unsigned i = 0, e = Objects.size(); i != e; ++i) { 726f22ef01cSRoman Divacky const StackObject &SO = Objects[i]; 727f22ef01cSRoman Divacky OS << " fi#" << (int)(i-NumFixedObjects) << ": "; 728f22ef01cSRoman Divacky if (SO.Size == ~0ULL) { 729f22ef01cSRoman Divacky OS << "dead\n"; 730f22ef01cSRoman Divacky continue; 731f22ef01cSRoman Divacky } 732f22ef01cSRoman Divacky if (SO.Size == 0) 733f22ef01cSRoman Divacky OS << "variable sized"; 734f22ef01cSRoman Divacky else 735f22ef01cSRoman Divacky OS << "size=" << SO.Size; 736f22ef01cSRoman Divacky OS << ", align=" << SO.Alignment; 737f22ef01cSRoman Divacky 738f22ef01cSRoman Divacky if (i < NumFixedObjects) 739f22ef01cSRoman Divacky OS << ", fixed"; 740f22ef01cSRoman Divacky if (i < NumFixedObjects || SO.SPOffset != -1) { 741f22ef01cSRoman Divacky int64_t Off = SO.SPOffset - ValOffset; 742f22ef01cSRoman Divacky OS << ", at location [SP"; 743f22ef01cSRoman Divacky if (Off > 0) 744f22ef01cSRoman Divacky OS << "+" << Off; 745f22ef01cSRoman Divacky else if (Off < 0) 746f22ef01cSRoman Divacky OS << Off; 747f22ef01cSRoman Divacky OS << "]"; 748f22ef01cSRoman Divacky } 749f22ef01cSRoman Divacky OS << "\n"; 750f22ef01cSRoman Divacky } 751f22ef01cSRoman Divacky } 752f22ef01cSRoman Divacky 7533861d79fSDimitry Andric #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 754f22ef01cSRoman Divacky void MachineFrameInfo::dump(const MachineFunction &MF) const { 755f22ef01cSRoman Divacky print(MF, dbgs()); 756f22ef01cSRoman Divacky } 7573861d79fSDimitry Andric #endif 758f22ef01cSRoman Divacky 759f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 760f22ef01cSRoman Divacky // MachineJumpTableInfo implementation 761f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 762f22ef01cSRoman Divacky 7638f0fd8f6SDimitry Andric /// Return the size of each entry in the jump table. 7643861d79fSDimitry Andric unsigned MachineJumpTableInfo::getEntrySize(const DataLayout &TD) const { 765f22ef01cSRoman Divacky // The size of a jump table entry is 4 bytes unless the entry is just the 766f22ef01cSRoman Divacky // address of a block, in which case it is the pointer size. 767f22ef01cSRoman Divacky switch (getEntryKind()) { 768f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_BlockAddress: 769f22ef01cSRoman Divacky return TD.getPointerSize(); 770dff0c46cSDimitry Andric case MachineJumpTableInfo::EK_GPRel64BlockAddress: 771dff0c46cSDimitry Andric return 8; 772f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_GPRel32BlockAddress: 773f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_LabelDifference32: 774f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_Custom32: 775f22ef01cSRoman Divacky return 4; 776f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_Inline: 777f22ef01cSRoman Divacky return 0; 778f22ef01cSRoman Divacky } 779dff0c46cSDimitry Andric llvm_unreachable("Unknown jump table encoding!"); 780f22ef01cSRoman Divacky } 781f22ef01cSRoman Divacky 7828f0fd8f6SDimitry Andric /// Return the alignment of each entry in the jump table. 7833861d79fSDimitry Andric unsigned MachineJumpTableInfo::getEntryAlignment(const DataLayout &TD) const { 784f22ef01cSRoman Divacky // The alignment of a jump table entry is the alignment of int32 unless the 785f22ef01cSRoman Divacky // entry is just the address of a block, in which case it is the pointer 786f22ef01cSRoman Divacky // alignment. 787f22ef01cSRoman Divacky switch (getEntryKind()) { 788f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_BlockAddress: 789f22ef01cSRoman Divacky return TD.getPointerABIAlignment(); 790dff0c46cSDimitry Andric case MachineJumpTableInfo::EK_GPRel64BlockAddress: 791dff0c46cSDimitry Andric return TD.getABIIntegerTypeAlignment(64); 792f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_GPRel32BlockAddress: 793f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_LabelDifference32: 794f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_Custom32: 795f22ef01cSRoman Divacky return TD.getABIIntegerTypeAlignment(32); 796f22ef01cSRoman Divacky case MachineJumpTableInfo::EK_Inline: 797f22ef01cSRoman Divacky return 1; 798f22ef01cSRoman Divacky } 799dff0c46cSDimitry Andric llvm_unreachable("Unknown jump table encoding!"); 800f22ef01cSRoman Divacky } 801f22ef01cSRoman Divacky 8028f0fd8f6SDimitry Andric /// Create a new jump table entry in the jump table info. 803f22ef01cSRoman Divacky unsigned MachineJumpTableInfo::createJumpTableIndex( 804f22ef01cSRoman Divacky const std::vector<MachineBasicBlock*> &DestBBs) { 805f22ef01cSRoman Divacky assert(!DestBBs.empty() && "Cannot create an empty jump table!"); 806f22ef01cSRoman Divacky JumpTables.push_back(MachineJumpTableEntry(DestBBs)); 807f22ef01cSRoman Divacky return JumpTables.size()-1; 808f22ef01cSRoman Divacky } 809f22ef01cSRoman Divacky 8108f0fd8f6SDimitry Andric /// If Old is the target of any jump tables, update the jump tables to branch 8118f0fd8f6SDimitry Andric /// to New instead. 812f22ef01cSRoman Divacky bool MachineJumpTableInfo::ReplaceMBBInJumpTables(MachineBasicBlock *Old, 813f22ef01cSRoman Divacky MachineBasicBlock *New) { 814f22ef01cSRoman Divacky assert(Old != New && "Not making a change?"); 815f22ef01cSRoman Divacky bool MadeChange = false; 816f22ef01cSRoman Divacky for (size_t i = 0, e = JumpTables.size(); i != e; ++i) 817f22ef01cSRoman Divacky ReplaceMBBInJumpTable(i, Old, New); 818f22ef01cSRoman Divacky return MadeChange; 819f22ef01cSRoman Divacky } 820f22ef01cSRoman Divacky 8218f0fd8f6SDimitry Andric /// If Old is a target of the jump tables, update the jump table to branch to 8228f0fd8f6SDimitry Andric /// New instead. 823f22ef01cSRoman Divacky bool MachineJumpTableInfo::ReplaceMBBInJumpTable(unsigned Idx, 824f22ef01cSRoman Divacky MachineBasicBlock *Old, 825f22ef01cSRoman Divacky MachineBasicBlock *New) { 826f22ef01cSRoman Divacky assert(Old != New && "Not making a change?"); 827f22ef01cSRoman Divacky bool MadeChange = false; 828f22ef01cSRoman Divacky MachineJumpTableEntry &JTE = JumpTables[Idx]; 829f22ef01cSRoman Divacky for (size_t j = 0, e = JTE.MBBs.size(); j != e; ++j) 830f22ef01cSRoman Divacky if (JTE.MBBs[j] == Old) { 831f22ef01cSRoman Divacky JTE.MBBs[j] = New; 832f22ef01cSRoman Divacky MadeChange = true; 833f22ef01cSRoman Divacky } 834f22ef01cSRoman Divacky return MadeChange; 835f22ef01cSRoman Divacky } 836f22ef01cSRoman Divacky 837f22ef01cSRoman Divacky void MachineJumpTableInfo::print(raw_ostream &OS) const { 838f22ef01cSRoman Divacky if (JumpTables.empty()) return; 839f22ef01cSRoman Divacky 840f22ef01cSRoman Divacky OS << "Jump Tables:\n"; 841f22ef01cSRoman Divacky 842f22ef01cSRoman Divacky for (unsigned i = 0, e = JumpTables.size(); i != e; ++i) { 843f22ef01cSRoman Divacky OS << " jt#" << i << ": "; 844f22ef01cSRoman Divacky for (unsigned j = 0, f = JumpTables[i].MBBs.size(); j != f; ++j) 845f22ef01cSRoman Divacky OS << " BB#" << JumpTables[i].MBBs[j]->getNumber(); 846f22ef01cSRoman Divacky } 847f22ef01cSRoman Divacky 848f22ef01cSRoman Divacky OS << '\n'; 849f22ef01cSRoman Divacky } 850f22ef01cSRoman Divacky 8513861d79fSDimitry Andric #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 8523ca95b02SDimitry Andric LLVM_DUMP_METHOD void MachineJumpTableInfo::dump() const { print(dbgs()); } 8533861d79fSDimitry Andric #endif 854f22ef01cSRoman Divacky 855f22ef01cSRoman Divacky 856f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 857f22ef01cSRoman Divacky // MachineConstantPool implementation 858f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 859f22ef01cSRoman Divacky 860dff0c46cSDimitry Andric void MachineConstantPoolValue::anchor() { } 861dff0c46cSDimitry Andric 8626122f3e6SDimitry Andric Type *MachineConstantPoolEntry::getType() const { 863f22ef01cSRoman Divacky if (isMachineConstantPoolEntry()) 864f22ef01cSRoman Divacky return Val.MachineCPVal->getType(); 865f22ef01cSRoman Divacky return Val.ConstVal->getType(); 866f22ef01cSRoman Divacky } 867f22ef01cSRoman Divacky 8687d523365SDimitry Andric bool MachineConstantPoolEntry::needsRelocation() const { 869f22ef01cSRoman Divacky if (isMachineConstantPoolEntry()) 8707d523365SDimitry Andric return true; 8717d523365SDimitry Andric return Val.ConstVal->needsRelocation(); 872f22ef01cSRoman Divacky } 873f22ef01cSRoman Divacky 87491bc56edSDimitry Andric SectionKind 87591bc56edSDimitry Andric MachineConstantPoolEntry::getSectionKind(const DataLayout *DL) const { 8767d523365SDimitry Andric if (needsRelocation()) 8777d523365SDimitry Andric return SectionKind::getReadOnlyWithRel(); 87891bc56edSDimitry Andric switch (DL->getTypeAllocSize(getType())) { 87991bc56edSDimitry Andric case 4: 8807d523365SDimitry Andric return SectionKind::getMergeableConst4(); 88191bc56edSDimitry Andric case 8: 8827d523365SDimitry Andric return SectionKind::getMergeableConst8(); 88391bc56edSDimitry Andric case 16: 8847d523365SDimitry Andric return SectionKind::getMergeableConst16(); 8853ca95b02SDimitry Andric case 32: 8863ca95b02SDimitry Andric return SectionKind::getMergeableConst32(); 88791bc56edSDimitry Andric default: 8887d523365SDimitry Andric return SectionKind::getReadOnly(); 88991bc56edSDimitry Andric } 89091bc56edSDimitry Andric } 89191bc56edSDimitry Andric 892f22ef01cSRoman Divacky MachineConstantPool::~MachineConstantPool() { 893f22ef01cSRoman Divacky for (unsigned i = 0, e = Constants.size(); i != e; ++i) 894f22ef01cSRoman Divacky if (Constants[i].isMachineConstantPoolEntry()) 895f22ef01cSRoman Divacky delete Constants[i].Val.MachineCPVal; 896dd6029ffSDimitry Andric for (DenseSet<MachineConstantPoolValue*>::iterator I = 897dd6029ffSDimitry Andric MachineCPVsSharingEntries.begin(), E = MachineCPVsSharingEntries.end(); 898dd6029ffSDimitry Andric I != E; ++I) 899dd6029ffSDimitry Andric delete *I; 900f22ef01cSRoman Divacky } 901f22ef01cSRoman Divacky 9028f0fd8f6SDimitry Andric /// Test whether the given two constants can be allocated the same constant pool 9038f0fd8f6SDimitry Andric /// entry. 904f22ef01cSRoman Divacky static bool CanShareConstantPoolEntry(const Constant *A, const Constant *B, 905875ed548SDimitry Andric const DataLayout &DL) { 906f22ef01cSRoman Divacky // Handle the trivial case quickly. 907f22ef01cSRoman Divacky if (A == B) return true; 908f22ef01cSRoman Divacky 909f22ef01cSRoman Divacky // If they have the same type but weren't the same constant, quickly 910f22ef01cSRoman Divacky // reject them. 911f22ef01cSRoman Divacky if (A->getType() == B->getType()) return false; 912f22ef01cSRoman Divacky 913dff0c46cSDimitry Andric // We can't handle structs or arrays. 914dff0c46cSDimitry Andric if (isa<StructType>(A->getType()) || isa<ArrayType>(A->getType()) || 915dff0c46cSDimitry Andric isa<StructType>(B->getType()) || isa<ArrayType>(B->getType())) 916dff0c46cSDimitry Andric return false; 917dff0c46cSDimitry Andric 918f22ef01cSRoman Divacky // For now, only support constants with the same size. 919875ed548SDimitry Andric uint64_t StoreSize = DL.getTypeStoreSize(A->getType()); 920875ed548SDimitry Andric if (StoreSize != DL.getTypeStoreSize(B->getType()) || StoreSize > 128) 921f22ef01cSRoman Divacky return false; 922f22ef01cSRoman Divacky 923dff0c46cSDimitry Andric Type *IntTy = IntegerType::get(A->getContext(), StoreSize*8); 924f22ef01cSRoman Divacky 925dff0c46cSDimitry Andric // Try constant folding a bitcast of both instructions to an integer. If we 926dff0c46cSDimitry Andric // get two identical ConstantInt's, then we are good to share them. We use 927dff0c46cSDimitry Andric // the constant folding APIs to do this so that we get the benefit of 9283861d79fSDimitry Andric // DataLayout. 929dff0c46cSDimitry Andric if (isa<PointerType>(A->getType())) 9303ca95b02SDimitry Andric A = ConstantFoldCastOperand(Instruction::PtrToInt, 9313ca95b02SDimitry Andric const_cast<Constant *>(A), IntTy, DL); 932dff0c46cSDimitry Andric else if (A->getType() != IntTy) 9333ca95b02SDimitry Andric A = ConstantFoldCastOperand(Instruction::BitCast, const_cast<Constant *>(A), 9343ca95b02SDimitry Andric IntTy, DL); 935dff0c46cSDimitry Andric if (isa<PointerType>(B->getType())) 9363ca95b02SDimitry Andric B = ConstantFoldCastOperand(Instruction::PtrToInt, 9373ca95b02SDimitry Andric const_cast<Constant *>(B), IntTy, DL); 938dff0c46cSDimitry Andric else if (B->getType() != IntTy) 9393ca95b02SDimitry Andric B = ConstantFoldCastOperand(Instruction::BitCast, const_cast<Constant *>(B), 9403ca95b02SDimitry Andric IntTy, DL); 941f22ef01cSRoman Divacky 942dff0c46cSDimitry Andric return A == B; 943f22ef01cSRoman Divacky } 944f22ef01cSRoman Divacky 9458f0fd8f6SDimitry Andric /// Create a new entry in the constant pool or return an existing one. 9468f0fd8f6SDimitry Andric /// User must specify the log2 of the minimum required alignment for the object. 947f22ef01cSRoman Divacky unsigned MachineConstantPool::getConstantPoolIndex(const Constant *C, 948f22ef01cSRoman Divacky unsigned Alignment) { 949f22ef01cSRoman Divacky assert(Alignment && "Alignment must be specified!"); 950f22ef01cSRoman Divacky if (Alignment > PoolAlignment) PoolAlignment = Alignment; 951f22ef01cSRoman Divacky 952f22ef01cSRoman Divacky // Check to see if we already have this constant. 953f22ef01cSRoman Divacky // 954f22ef01cSRoman Divacky // FIXME, this could be made much more efficient for large constant pools. 955f22ef01cSRoman Divacky for (unsigned i = 0, e = Constants.size(); i != e; ++i) 956f22ef01cSRoman Divacky if (!Constants[i].isMachineConstantPoolEntry() && 957875ed548SDimitry Andric CanShareConstantPoolEntry(Constants[i].Val.ConstVal, C, DL)) { 958f22ef01cSRoman Divacky if ((unsigned)Constants[i].getAlignment() < Alignment) 959f22ef01cSRoman Divacky Constants[i].Alignment = Alignment; 960f22ef01cSRoman Divacky return i; 961f22ef01cSRoman Divacky } 962f22ef01cSRoman Divacky 963f22ef01cSRoman Divacky Constants.push_back(MachineConstantPoolEntry(C, Alignment)); 964f22ef01cSRoman Divacky return Constants.size()-1; 965f22ef01cSRoman Divacky } 966f22ef01cSRoman Divacky 967f22ef01cSRoman Divacky unsigned MachineConstantPool::getConstantPoolIndex(MachineConstantPoolValue *V, 968f22ef01cSRoman Divacky unsigned Alignment) { 969f22ef01cSRoman Divacky assert(Alignment && "Alignment must be specified!"); 970f22ef01cSRoman Divacky if (Alignment > PoolAlignment) PoolAlignment = Alignment; 971f22ef01cSRoman Divacky 972f22ef01cSRoman Divacky // Check to see if we already have this constant. 973f22ef01cSRoman Divacky // 974f22ef01cSRoman Divacky // FIXME, this could be made much more efficient for large constant pools. 975f22ef01cSRoman Divacky int Idx = V->getExistingMachineCPValue(this, Alignment); 976dd6029ffSDimitry Andric if (Idx != -1) { 977dd6029ffSDimitry Andric MachineCPVsSharingEntries.insert(V); 978f22ef01cSRoman Divacky return (unsigned)Idx; 979dd6029ffSDimitry Andric } 980f22ef01cSRoman Divacky 981f22ef01cSRoman Divacky Constants.push_back(MachineConstantPoolEntry(V, Alignment)); 982f22ef01cSRoman Divacky return Constants.size()-1; 983f22ef01cSRoman Divacky } 984f22ef01cSRoman Divacky 985f22ef01cSRoman Divacky void MachineConstantPool::print(raw_ostream &OS) const { 986f22ef01cSRoman Divacky if (Constants.empty()) return; 987f22ef01cSRoman Divacky 988f22ef01cSRoman Divacky OS << "Constant Pool:\n"; 989f22ef01cSRoman Divacky for (unsigned i = 0, e = Constants.size(); i != e; ++i) { 990f22ef01cSRoman Divacky OS << " cp#" << i << ": "; 991f22ef01cSRoman Divacky if (Constants[i].isMachineConstantPoolEntry()) 992f22ef01cSRoman Divacky Constants[i].Val.MachineCPVal->print(OS); 993f22ef01cSRoman Divacky else 99491bc56edSDimitry Andric Constants[i].Val.ConstVal->printAsOperand(OS, /*PrintType=*/false); 995f22ef01cSRoman Divacky OS << ", align=" << Constants[i].getAlignment(); 996f22ef01cSRoman Divacky OS << "\n"; 997f22ef01cSRoman Divacky } 998f22ef01cSRoman Divacky } 999f22ef01cSRoman Divacky 10003861d79fSDimitry Andric #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 10013ca95b02SDimitry Andric LLVM_DUMP_METHOD void MachineConstantPool::dump() const { print(dbgs()); } 10023861d79fSDimitry Andric #endif 1003