1*20bb9fe5SJeremy Morse //===- VarLocBasedImpl.cpp - Tracking Debug Value MIs with VarLoc class----===// 2fba06e3cSJeremy Morse // 3fba06e3cSJeremy Morse // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4fba06e3cSJeremy Morse // See https://llvm.org/LICENSE.txt for license information. 5fba06e3cSJeremy Morse // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6fba06e3cSJeremy Morse // 7fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 8fba06e3cSJeremy Morse /// 9*20bb9fe5SJeremy Morse /// \file VarLocBasedImpl.cpp 10fba06e3cSJeremy Morse /// 11fba06e3cSJeremy Morse /// LiveDebugValues is an optimistic "available expressions" dataflow 12fba06e3cSJeremy Morse /// algorithm. The set of expressions is the set of machine locations 13fba06e3cSJeremy Morse /// (registers, spill slots, constants) that a variable fragment might be 14fba06e3cSJeremy Morse /// located, qualified by a DIExpression and indirect-ness flag, while each 15fba06e3cSJeremy Morse /// variable is identified by a DebugVariable object. The availability of an 16fba06e3cSJeremy Morse /// expression begins when a DBG_VALUE instruction specifies the location of a 17fba06e3cSJeremy Morse /// DebugVariable, and continues until that location is clobbered or 18fba06e3cSJeremy Morse /// re-specified by a different DBG_VALUE for the same DebugVariable. 19fba06e3cSJeremy Morse /// 20*20bb9fe5SJeremy Morse /// The output of LiveDebugValues is additional DBG_VALUE instructions, 21*20bb9fe5SJeremy Morse /// placed to extend variable locations as far they're available. This file 22*20bb9fe5SJeremy Morse /// and the VarLocBasedLDV class is an implementation that explicitly tracks 23*20bb9fe5SJeremy Morse /// locations, using the VarLoc class. 24*20bb9fe5SJeremy Morse /// 25fba06e3cSJeremy Morse /// The cannonical "available expressions" problem doesn't have expression 26fba06e3cSJeremy Morse /// clobbering, instead when a variable is re-assigned, any expressions using 27fba06e3cSJeremy Morse /// that variable get invalidated. LiveDebugValues can map onto "available 28fba06e3cSJeremy Morse /// expressions" by having every register represented by a variable, which is 29fba06e3cSJeremy Morse /// used in an expression that becomes available at a DBG_VALUE instruction. 30fba06e3cSJeremy Morse /// When the register is clobbered, its variable is effectively reassigned, and 31fba06e3cSJeremy Morse /// expressions computed from it become unavailable. A similar construct is 32fba06e3cSJeremy Morse /// needed when a DebugVariable has its location re-specified, to invalidate 33fba06e3cSJeremy Morse /// all other locations for that DebugVariable. 34fba06e3cSJeremy Morse /// 35fba06e3cSJeremy Morse /// Using the dataflow analysis to compute the available expressions, we create 36fba06e3cSJeremy Morse /// a DBG_VALUE at the beginning of each block where the expression is 37fba06e3cSJeremy Morse /// live-in. This propagates variable locations into every basic block where 38fba06e3cSJeremy Morse /// the location can be determined, rather than only having DBG_VALUEs in blocks 39fba06e3cSJeremy Morse /// where locations are specified due to an assignment or some optimization. 40fba06e3cSJeremy Morse /// Movements of values between registers and spill slots are annotated with 41fba06e3cSJeremy Morse /// DBG_VALUEs too to track variable values bewteen locations. All this allows 42fba06e3cSJeremy Morse /// DbgEntityHistoryCalculator to focus on only the locations within individual 43fba06e3cSJeremy Morse /// blocks, facilitating testing and improving modularity. 44fba06e3cSJeremy Morse /// 45fba06e3cSJeremy Morse /// We follow an optimisic dataflow approach, with this lattice: 46fba06e3cSJeremy Morse /// 47fba06e3cSJeremy Morse /// \verbatim 48fba06e3cSJeremy Morse /// ┬ "Unknown" 49fba06e3cSJeremy Morse /// | 50fba06e3cSJeremy Morse /// v 51fba06e3cSJeremy Morse /// True 52fba06e3cSJeremy Morse /// | 53fba06e3cSJeremy Morse /// v 54fba06e3cSJeremy Morse /// ⊥ False 55fba06e3cSJeremy Morse /// \endverbatim With "True" signifying that the expression is available (and 56fba06e3cSJeremy Morse /// thus a DebugVariable's location is the corresponding register), while 57fba06e3cSJeremy Morse /// "False" signifies that the expression is unavailable. "Unknown"s never 58fba06e3cSJeremy Morse /// survive to the end of the analysis (see below). 59fba06e3cSJeremy Morse /// 60fba06e3cSJeremy Morse /// Formally, all DebugVariable locations that are live-out of a block are 61fba06e3cSJeremy Morse /// initialized to \top. A blocks live-in values take the meet of the lattice 62fba06e3cSJeremy Morse /// value for every predecessors live-outs, except for the entry block, where 63fba06e3cSJeremy Morse /// all live-ins are \bot. The usual dataflow propagation occurs: the transfer 64fba06e3cSJeremy Morse /// function for a block assigns an expression for a DebugVariable to be "True" 65fba06e3cSJeremy Morse /// if a DBG_VALUE in the block specifies it; "False" if the location is 66fba06e3cSJeremy Morse /// clobbered; or the live-in value if it is unaffected by the block. We 67fba06e3cSJeremy Morse /// visit each block in reverse post order until a fixedpoint is reached. The 68fba06e3cSJeremy Morse /// solution produced is maximal. 69fba06e3cSJeremy Morse /// 70fba06e3cSJeremy Morse /// Intuitively, we start by assuming that every expression / variable location 71fba06e3cSJeremy Morse /// is at least "True", and then propagate "False" from the entry block and any 72fba06e3cSJeremy Morse /// clobbers until there are no more changes to make. This gives us an accurate 73fba06e3cSJeremy Morse /// solution because all incorrect locations will have a "False" propagated into 74fba06e3cSJeremy Morse /// them. It also gives us a solution that copes well with loops by assuming 75fba06e3cSJeremy Morse /// that variable locations are live-through every loop, and then removing those 76fba06e3cSJeremy Morse /// that are not through dataflow. 77fba06e3cSJeremy Morse /// 78fba06e3cSJeremy Morse /// Within LiveDebugValues: each variable location is represented by a 79fba06e3cSJeremy Morse /// VarLoc object that identifies the source variable, its current 80fba06e3cSJeremy Morse /// machine-location, and the DBG_VALUE inst that specifies the location. Each 81fba06e3cSJeremy Morse /// VarLoc is indexed in the (function-scope) \p VarLocMap, giving each VarLoc a 82fba06e3cSJeremy Morse /// unique index. Rather than operate directly on machine locations, the 83fba06e3cSJeremy Morse /// dataflow analysis in this pass identifies locations by their index in the 84fba06e3cSJeremy Morse /// VarLocMap, meaning all the variable locations in a block can be described 85fba06e3cSJeremy Morse /// by a sparse vector of VarLocMap indicies. 86fba06e3cSJeremy Morse /// 87fba06e3cSJeremy Morse /// All the storage for the dataflow analysis is local to the ExtendRanges 88fba06e3cSJeremy Morse /// method and passed down to helper methods. "OutLocs" and "InLocs" record the 89fba06e3cSJeremy Morse /// in and out lattice values for each block. "OpenRanges" maintains a list of 90fba06e3cSJeremy Morse /// variable locations and, with the "process" method, evaluates the transfer 91fba06e3cSJeremy Morse /// function of each block. "flushPendingLocs" installs DBG_VALUEs for each 92fba06e3cSJeremy Morse /// live-in location at the start of blocks, while "Transfers" records 93fba06e3cSJeremy Morse /// transfers of values between machine-locations. 94fba06e3cSJeremy Morse /// 95fba06e3cSJeremy Morse /// We avoid explicitly representing the "Unknown" (\top) lattice value in the 96fba06e3cSJeremy Morse /// implementation. Instead, unvisited blocks implicitly have all lattice 97fba06e3cSJeremy Morse /// values set as "Unknown". After being visited, there will be path back to 98fba06e3cSJeremy Morse /// the entry block where the lattice value is "False", and as the transfer 99fba06e3cSJeremy Morse /// function cannot make new "Unknown" locations, there are no scenarios where 100fba06e3cSJeremy Morse /// a block can have an "Unknown" location after being visited. Similarly, we 101fba06e3cSJeremy Morse /// don't enumerate all possible variable locations before exploring the 102fba06e3cSJeremy Morse /// function: when a new location is discovered, all blocks previously explored 103fba06e3cSJeremy Morse /// were implicitly "False" but unrecorded, and become explicitly "False" when 104fba06e3cSJeremy Morse /// a new VarLoc is created with its bit not set in predecessor InLocs or 105fba06e3cSJeremy Morse /// OutLocs. 106fba06e3cSJeremy Morse /// 107fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 108fba06e3cSJeremy Morse 109*20bb9fe5SJeremy Morse #include "LiveDebugValues.h" 110*20bb9fe5SJeremy Morse 111fba06e3cSJeremy Morse #include "llvm/ADT/CoalescingBitVector.h" 112fba06e3cSJeremy Morse #include "llvm/ADT/DenseMap.h" 113fba06e3cSJeremy Morse #include "llvm/ADT/PostOrderIterator.h" 114fba06e3cSJeremy Morse #include "llvm/ADT/SmallPtrSet.h" 115fba06e3cSJeremy Morse #include "llvm/ADT/SmallSet.h" 116fba06e3cSJeremy Morse #include "llvm/ADT/SmallVector.h" 117fba06e3cSJeremy Morse #include "llvm/ADT/Statistic.h" 118fba06e3cSJeremy Morse #include "llvm/ADT/UniqueVector.h" 119fba06e3cSJeremy Morse #include "llvm/CodeGen/LexicalScopes.h" 120fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineBasicBlock.h" 121fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineFrameInfo.h" 122fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineFunction.h" 123fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineFunctionPass.h" 124fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineInstr.h" 125fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineInstrBuilder.h" 126fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineMemOperand.h" 127fba06e3cSJeremy Morse #include "llvm/CodeGen/MachineOperand.h" 128fba06e3cSJeremy Morse #include "llvm/CodeGen/PseudoSourceValue.h" 129fba06e3cSJeremy Morse #include "llvm/CodeGen/RegisterScavenging.h" 130fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetFrameLowering.h" 131fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetInstrInfo.h" 132fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetLowering.h" 133fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetPassConfig.h" 134fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetRegisterInfo.h" 135fba06e3cSJeremy Morse #include "llvm/CodeGen/TargetSubtargetInfo.h" 136fba06e3cSJeremy Morse #include "llvm/Config/llvm-config.h" 137fba06e3cSJeremy Morse #include "llvm/IR/DIBuilder.h" 138fba06e3cSJeremy Morse #include "llvm/IR/DebugInfoMetadata.h" 139fba06e3cSJeremy Morse #include "llvm/IR/DebugLoc.h" 140fba06e3cSJeremy Morse #include "llvm/IR/Function.h" 141fba06e3cSJeremy Morse #include "llvm/IR/Module.h" 142fba06e3cSJeremy Morse #include "llvm/InitializePasses.h" 143fba06e3cSJeremy Morse #include "llvm/MC/MCRegisterInfo.h" 144fba06e3cSJeremy Morse #include "llvm/Pass.h" 145fba06e3cSJeremy Morse #include "llvm/Support/Casting.h" 146fba06e3cSJeremy Morse #include "llvm/Support/Compiler.h" 147fba06e3cSJeremy Morse #include "llvm/Support/Debug.h" 148fba06e3cSJeremy Morse #include "llvm/Support/raw_ostream.h" 149fba06e3cSJeremy Morse #include "llvm/Target/TargetMachine.h" 150fba06e3cSJeremy Morse #include <algorithm> 151fba06e3cSJeremy Morse #include <cassert> 152fba06e3cSJeremy Morse #include <cstdint> 153fba06e3cSJeremy Morse #include <functional> 154fba06e3cSJeremy Morse #include <queue> 155fba06e3cSJeremy Morse #include <tuple> 156fba06e3cSJeremy Morse #include <utility> 157fba06e3cSJeremy Morse #include <vector> 158fba06e3cSJeremy Morse 159fba06e3cSJeremy Morse using namespace llvm; 160fba06e3cSJeremy Morse 161fba06e3cSJeremy Morse #define DEBUG_TYPE "livedebugvalues" 162fba06e3cSJeremy Morse 163fba06e3cSJeremy Morse STATISTIC(NumInserted, "Number of DBG_VALUE instructions inserted"); 164fba06e3cSJeremy Morse 165fba06e3cSJeremy Morse // Options to prevent pathological compile-time behavior. If InputBBLimit and 166fba06e3cSJeremy Morse // InputDbgValueLimit are both exceeded, range extension is disabled. 167fba06e3cSJeremy Morse static cl::opt<unsigned> InputBBLimit( 168fba06e3cSJeremy Morse "livedebugvalues-input-bb-limit", 169fba06e3cSJeremy Morse cl::desc("Maximum input basic blocks before DBG_VALUE limit applies"), 170fba06e3cSJeremy Morse cl::init(10000), cl::Hidden); 171fba06e3cSJeremy Morse static cl::opt<unsigned> InputDbgValueLimit( 172fba06e3cSJeremy Morse "livedebugvalues-input-dbg-value-limit", 173fba06e3cSJeremy Morse cl::desc( 174fba06e3cSJeremy Morse "Maximum input DBG_VALUE insts supported by debug range extension"), 175fba06e3cSJeremy Morse cl::init(50000), cl::Hidden); 176fba06e3cSJeremy Morse 177fba06e3cSJeremy Morse // If @MI is a DBG_VALUE with debug value described by a defined 178fba06e3cSJeremy Morse // register, returns the number of this register. In the other case, returns 0. 179fba06e3cSJeremy Morse static Register isDbgValueDescribedByReg(const MachineInstr &MI) { 180fba06e3cSJeremy Morse assert(MI.isDebugValue() && "expected a DBG_VALUE"); 181fba06e3cSJeremy Morse assert(MI.getNumOperands() == 4 && "malformed DBG_VALUE"); 182fba06e3cSJeremy Morse // If location of variable is described using a register (directly 183fba06e3cSJeremy Morse // or indirectly), this register is always a first operand. 184fba06e3cSJeremy Morse return MI.getDebugOperand(0).isReg() ? MI.getDebugOperand(0).getReg() 185fba06e3cSJeremy Morse : Register(); 186fba06e3cSJeremy Morse } 187fba06e3cSJeremy Morse 188fba06e3cSJeremy Morse /// If \p Op is a stack or frame register return true, otherwise return false. 189fba06e3cSJeremy Morse /// This is used to avoid basing the debug entry values on the registers, since 190fba06e3cSJeremy Morse /// we do not support it at the moment. 191fba06e3cSJeremy Morse static bool isRegOtherThanSPAndFP(const MachineOperand &Op, 192fba06e3cSJeremy Morse const MachineInstr &MI, 193fba06e3cSJeremy Morse const TargetRegisterInfo *TRI) { 194fba06e3cSJeremy Morse if (!Op.isReg()) 195fba06e3cSJeremy Morse return false; 196fba06e3cSJeremy Morse 197fba06e3cSJeremy Morse const MachineFunction *MF = MI.getParent()->getParent(); 198fba06e3cSJeremy Morse const TargetLowering *TLI = MF->getSubtarget().getTargetLowering(); 199fba06e3cSJeremy Morse Register SP = TLI->getStackPointerRegisterToSaveRestore(); 200fba06e3cSJeremy Morse Register FP = TRI->getFrameRegister(*MF); 201fba06e3cSJeremy Morse Register Reg = Op.getReg(); 202fba06e3cSJeremy Morse 203fba06e3cSJeremy Morse return Reg && Reg != SP && Reg != FP; 204fba06e3cSJeremy Morse } 205fba06e3cSJeremy Morse 206fba06e3cSJeremy Morse namespace { 207fba06e3cSJeremy Morse 208fba06e3cSJeremy Morse // Max out the number of statically allocated elements in DefinedRegsSet, as 209fba06e3cSJeremy Morse // this prevents fallback to std::set::count() operations. 210fba06e3cSJeremy Morse using DefinedRegsSet = SmallSet<Register, 32>; 211fba06e3cSJeremy Morse 212fba06e3cSJeremy Morse using VarLocSet = CoalescingBitVector<uint64_t>; 213fba06e3cSJeremy Morse 214fba06e3cSJeremy Morse /// A type-checked pair of {Register Location (or 0), Index}, used to index 215fba06e3cSJeremy Morse /// into a \ref VarLocMap. This can be efficiently converted to a 64-bit int 216fba06e3cSJeremy Morse /// for insertion into a \ref VarLocSet, and efficiently converted back. The 217fba06e3cSJeremy Morse /// type-checker helps ensure that the conversions aren't lossy. 218fba06e3cSJeremy Morse /// 219fba06e3cSJeremy Morse /// Why encode a location /into/ the VarLocMap index? This makes it possible 220fba06e3cSJeremy Morse /// to find the open VarLocs killed by a register def very quickly. This is a 221fba06e3cSJeremy Morse /// performance-critical operation for LiveDebugValues. 222fba06e3cSJeremy Morse struct LocIndex { 223fba06e3cSJeremy Morse using u32_location_t = uint32_t; 224fba06e3cSJeremy Morse using u32_index_t = uint32_t; 225fba06e3cSJeremy Morse 226fba06e3cSJeremy Morse u32_location_t Location; // Physical registers live in the range [1;2^30) (see 227fba06e3cSJeremy Morse // \ref MCRegister), so we have plenty of range left 228fba06e3cSJeremy Morse // here to encode non-register locations. 229fba06e3cSJeremy Morse u32_index_t Index; 230fba06e3cSJeremy Morse 231fba06e3cSJeremy Morse /// The first location greater than 0 that is not reserved for VarLocs of 232fba06e3cSJeremy Morse /// kind RegisterKind. 233fba06e3cSJeremy Morse static constexpr u32_location_t kFirstInvalidRegLocation = 1 << 30; 234fba06e3cSJeremy Morse 235fba06e3cSJeremy Morse /// A special location reserved for VarLocs of kind SpillLocKind. 236fba06e3cSJeremy Morse static constexpr u32_location_t kSpillLocation = kFirstInvalidRegLocation; 237fba06e3cSJeremy Morse 238fba06e3cSJeremy Morse /// A special location reserved for VarLocs of kind EntryValueBackupKind and 239fba06e3cSJeremy Morse /// EntryValueCopyBackupKind. 240fba06e3cSJeremy Morse static constexpr u32_location_t kEntryValueBackupLocation = 241fba06e3cSJeremy Morse kFirstInvalidRegLocation + 1; 242fba06e3cSJeremy Morse 243fba06e3cSJeremy Morse LocIndex(u32_location_t Location, u32_index_t Index) 244fba06e3cSJeremy Morse : Location(Location), Index(Index) {} 245fba06e3cSJeremy Morse 246fba06e3cSJeremy Morse uint64_t getAsRawInteger() const { 247fba06e3cSJeremy Morse return (static_cast<uint64_t>(Location) << 32) | Index; 248fba06e3cSJeremy Morse } 249fba06e3cSJeremy Morse 250fba06e3cSJeremy Morse template<typename IntT> static LocIndex fromRawInteger(IntT ID) { 251fba06e3cSJeremy Morse static_assert(std::is_unsigned<IntT>::value && 252fba06e3cSJeremy Morse sizeof(ID) == sizeof(uint64_t), 253fba06e3cSJeremy Morse "Cannot convert raw integer to LocIndex"); 254fba06e3cSJeremy Morse return {static_cast<u32_location_t>(ID >> 32), 255fba06e3cSJeremy Morse static_cast<u32_index_t>(ID)}; 256fba06e3cSJeremy Morse } 257fba06e3cSJeremy Morse 258fba06e3cSJeremy Morse /// Get the start of the interval reserved for VarLocs of kind RegisterKind 259fba06e3cSJeremy Morse /// which reside in \p Reg. The end is at rawIndexForReg(Reg+1)-1. 260fba06e3cSJeremy Morse static uint64_t rawIndexForReg(uint32_t Reg) { 261fba06e3cSJeremy Morse return LocIndex(Reg, 0).getAsRawInteger(); 262fba06e3cSJeremy Morse } 263fba06e3cSJeremy Morse 264fba06e3cSJeremy Morse /// Return a range covering all set indices in the interval reserved for 265fba06e3cSJeremy Morse /// \p Location in \p Set. 266fba06e3cSJeremy Morse static auto indexRangeForLocation(const VarLocSet &Set, 267fba06e3cSJeremy Morse u32_location_t Location) { 268fba06e3cSJeremy Morse uint64_t Start = LocIndex(Location, 0).getAsRawInteger(); 269fba06e3cSJeremy Morse uint64_t End = LocIndex(Location + 1, 0).getAsRawInteger(); 270fba06e3cSJeremy Morse return Set.half_open_range(Start, End); 271fba06e3cSJeremy Morse } 272fba06e3cSJeremy Morse }; 273fba06e3cSJeremy Morse 274*20bb9fe5SJeremy Morse class VarLocBasedLDV : public LDVImpl { 275fba06e3cSJeremy Morse private: 276fba06e3cSJeremy Morse const TargetRegisterInfo *TRI; 277fba06e3cSJeremy Morse const TargetInstrInfo *TII; 278fba06e3cSJeremy Morse const TargetFrameLowering *TFI; 279*20bb9fe5SJeremy Morse TargetPassConfig *TPC; 280fba06e3cSJeremy Morse BitVector CalleeSavedRegs; 281fba06e3cSJeremy Morse LexicalScopes LS; 282fba06e3cSJeremy Morse VarLocSet::Allocator Alloc; 283fba06e3cSJeremy Morse 284fba06e3cSJeremy Morse enum struct TransferKind { TransferCopy, TransferSpill, TransferRestore }; 285fba06e3cSJeremy Morse 286fba06e3cSJeremy Morse using FragmentInfo = DIExpression::FragmentInfo; 287fba06e3cSJeremy Morse using OptFragmentInfo = Optional<DIExpression::FragmentInfo>; 288fba06e3cSJeremy Morse 289fba06e3cSJeremy Morse /// A pair of debug variable and value location. 290fba06e3cSJeremy Morse struct VarLoc { 291fba06e3cSJeremy Morse // The location at which a spilled variable resides. It consists of a 292fba06e3cSJeremy Morse // register and an offset. 293fba06e3cSJeremy Morse struct SpillLoc { 294fba06e3cSJeremy Morse unsigned SpillBase; 295fba06e3cSJeremy Morse int SpillOffset; 296fba06e3cSJeremy Morse bool operator==(const SpillLoc &Other) const { 297fba06e3cSJeremy Morse return SpillBase == Other.SpillBase && SpillOffset == Other.SpillOffset; 298fba06e3cSJeremy Morse } 299fba06e3cSJeremy Morse bool operator!=(const SpillLoc &Other) const { 300fba06e3cSJeremy Morse return !(*this == Other); 301fba06e3cSJeremy Morse } 302fba06e3cSJeremy Morse }; 303fba06e3cSJeremy Morse 304fba06e3cSJeremy Morse /// Identity of the variable at this location. 305fba06e3cSJeremy Morse const DebugVariable Var; 306fba06e3cSJeremy Morse 307fba06e3cSJeremy Morse /// The expression applied to this location. 308fba06e3cSJeremy Morse const DIExpression *Expr; 309fba06e3cSJeremy Morse 310fba06e3cSJeremy Morse /// DBG_VALUE to clone var/expr information from if this location 311fba06e3cSJeremy Morse /// is moved. 312fba06e3cSJeremy Morse const MachineInstr &MI; 313fba06e3cSJeremy Morse 314fba06e3cSJeremy Morse enum VarLocKind { 315fba06e3cSJeremy Morse InvalidKind = 0, 316fba06e3cSJeremy Morse RegisterKind, 317fba06e3cSJeremy Morse SpillLocKind, 318fba06e3cSJeremy Morse ImmediateKind, 319fba06e3cSJeremy Morse EntryValueKind, 320fba06e3cSJeremy Morse EntryValueBackupKind, 321fba06e3cSJeremy Morse EntryValueCopyBackupKind 322fba06e3cSJeremy Morse } Kind = InvalidKind; 323fba06e3cSJeremy Morse 324fba06e3cSJeremy Morse /// The value location. Stored separately to avoid repeatedly 325fba06e3cSJeremy Morse /// extracting it from MI. 326fba06e3cSJeremy Morse union { 327fba06e3cSJeremy Morse uint64_t RegNo; 328fba06e3cSJeremy Morse SpillLoc SpillLocation; 329fba06e3cSJeremy Morse uint64_t Hash; 330fba06e3cSJeremy Morse int64_t Immediate; 331fba06e3cSJeremy Morse const ConstantFP *FPImm; 332fba06e3cSJeremy Morse const ConstantInt *CImm; 333fba06e3cSJeremy Morse } Loc; 334fba06e3cSJeremy Morse 335fba06e3cSJeremy Morse VarLoc(const MachineInstr &MI, LexicalScopes &LS) 336fba06e3cSJeremy Morse : Var(MI.getDebugVariable(), MI.getDebugExpression(), 337fba06e3cSJeremy Morse MI.getDebugLoc()->getInlinedAt()), 338fba06e3cSJeremy Morse Expr(MI.getDebugExpression()), MI(MI) { 339fba06e3cSJeremy Morse static_assert((sizeof(Loc) == sizeof(uint64_t)), 340fba06e3cSJeremy Morse "hash does not cover all members of Loc"); 341fba06e3cSJeremy Morse assert(MI.isDebugValue() && "not a DBG_VALUE"); 342fba06e3cSJeremy Morse assert(MI.getNumOperands() == 4 && "malformed DBG_VALUE"); 343fba06e3cSJeremy Morse if (int RegNo = isDbgValueDescribedByReg(MI)) { 344fba06e3cSJeremy Morse Kind = RegisterKind; 345fba06e3cSJeremy Morse Loc.RegNo = RegNo; 346fba06e3cSJeremy Morse } else if (MI.getDebugOperand(0).isImm()) { 347fba06e3cSJeremy Morse Kind = ImmediateKind; 348fba06e3cSJeremy Morse Loc.Immediate = MI.getDebugOperand(0).getImm(); 349fba06e3cSJeremy Morse } else if (MI.getDebugOperand(0).isFPImm()) { 350fba06e3cSJeremy Morse Kind = ImmediateKind; 351fba06e3cSJeremy Morse Loc.FPImm = MI.getDebugOperand(0).getFPImm(); 352fba06e3cSJeremy Morse } else if (MI.getDebugOperand(0).isCImm()) { 353fba06e3cSJeremy Morse Kind = ImmediateKind; 354fba06e3cSJeremy Morse Loc.CImm = MI.getDebugOperand(0).getCImm(); 355fba06e3cSJeremy Morse } 356fba06e3cSJeremy Morse 357fba06e3cSJeremy Morse // We create the debug entry values from the factory functions rather than 358fba06e3cSJeremy Morse // from this ctor. 359fba06e3cSJeremy Morse assert(Kind != EntryValueKind && !isEntryBackupLoc()); 360fba06e3cSJeremy Morse } 361fba06e3cSJeremy Morse 362fba06e3cSJeremy Morse /// Take the variable and machine-location in DBG_VALUE MI, and build an 363fba06e3cSJeremy Morse /// entry location using the given expression. 364fba06e3cSJeremy Morse static VarLoc CreateEntryLoc(const MachineInstr &MI, LexicalScopes &LS, 365fba06e3cSJeremy Morse const DIExpression *EntryExpr, Register Reg) { 366fba06e3cSJeremy Morse VarLoc VL(MI, LS); 367fba06e3cSJeremy Morse assert(VL.Kind == RegisterKind); 368fba06e3cSJeremy Morse VL.Kind = EntryValueKind; 369fba06e3cSJeremy Morse VL.Expr = EntryExpr; 370fba06e3cSJeremy Morse VL.Loc.RegNo = Reg; 371fba06e3cSJeremy Morse return VL; 372fba06e3cSJeremy Morse } 373fba06e3cSJeremy Morse 374fba06e3cSJeremy Morse /// Take the variable and machine-location from the DBG_VALUE (from the 375fba06e3cSJeremy Morse /// function entry), and build an entry value backup location. The backup 376fba06e3cSJeremy Morse /// location will turn into the normal location if the backup is valid at 377fba06e3cSJeremy Morse /// the time of the primary location clobbering. 378fba06e3cSJeremy Morse static VarLoc CreateEntryBackupLoc(const MachineInstr &MI, 379fba06e3cSJeremy Morse LexicalScopes &LS, 380fba06e3cSJeremy Morse const DIExpression *EntryExpr) { 381fba06e3cSJeremy Morse VarLoc VL(MI, LS); 382fba06e3cSJeremy Morse assert(VL.Kind == RegisterKind); 383fba06e3cSJeremy Morse VL.Kind = EntryValueBackupKind; 384fba06e3cSJeremy Morse VL.Expr = EntryExpr; 385fba06e3cSJeremy Morse return VL; 386fba06e3cSJeremy Morse } 387fba06e3cSJeremy Morse 388fba06e3cSJeremy Morse /// Take the variable and machine-location from the DBG_VALUE (from the 389fba06e3cSJeremy Morse /// function entry), and build a copy of an entry value backup location by 390fba06e3cSJeremy Morse /// setting the register location to NewReg. 391fba06e3cSJeremy Morse static VarLoc CreateEntryCopyBackupLoc(const MachineInstr &MI, 392fba06e3cSJeremy Morse LexicalScopes &LS, 393fba06e3cSJeremy Morse const DIExpression *EntryExpr, 394fba06e3cSJeremy Morse Register NewReg) { 395fba06e3cSJeremy Morse VarLoc VL(MI, LS); 396fba06e3cSJeremy Morse assert(VL.Kind == RegisterKind); 397fba06e3cSJeremy Morse VL.Kind = EntryValueCopyBackupKind; 398fba06e3cSJeremy Morse VL.Expr = EntryExpr; 399fba06e3cSJeremy Morse VL.Loc.RegNo = NewReg; 400fba06e3cSJeremy Morse return VL; 401fba06e3cSJeremy Morse } 402fba06e3cSJeremy Morse 403fba06e3cSJeremy Morse /// Copy the register location in DBG_VALUE MI, updating the register to 404fba06e3cSJeremy Morse /// be NewReg. 405fba06e3cSJeremy Morse static VarLoc CreateCopyLoc(const MachineInstr &MI, LexicalScopes &LS, 406fba06e3cSJeremy Morse Register NewReg) { 407fba06e3cSJeremy Morse VarLoc VL(MI, LS); 408fba06e3cSJeremy Morse assert(VL.Kind == RegisterKind); 409fba06e3cSJeremy Morse VL.Loc.RegNo = NewReg; 410fba06e3cSJeremy Morse return VL; 411fba06e3cSJeremy Morse } 412fba06e3cSJeremy Morse 413fba06e3cSJeremy Morse /// Take the variable described by DBG_VALUE MI, and create a VarLoc 414fba06e3cSJeremy Morse /// locating it in the specified spill location. 415fba06e3cSJeremy Morse static VarLoc CreateSpillLoc(const MachineInstr &MI, unsigned SpillBase, 416fba06e3cSJeremy Morse int SpillOffset, LexicalScopes &LS) { 417fba06e3cSJeremy Morse VarLoc VL(MI, LS); 418fba06e3cSJeremy Morse assert(VL.Kind == RegisterKind); 419fba06e3cSJeremy Morse VL.Kind = SpillLocKind; 420fba06e3cSJeremy Morse VL.Loc.SpillLocation = {SpillBase, SpillOffset}; 421fba06e3cSJeremy Morse return VL; 422fba06e3cSJeremy Morse } 423fba06e3cSJeremy Morse 424fba06e3cSJeremy Morse /// Create a DBG_VALUE representing this VarLoc in the given function. 425fba06e3cSJeremy Morse /// Copies variable-specific information such as DILocalVariable and 426fba06e3cSJeremy Morse /// inlining information from the original DBG_VALUE instruction, which may 427fba06e3cSJeremy Morse /// have been several transfers ago. 428fba06e3cSJeremy Morse MachineInstr *BuildDbgValue(MachineFunction &MF) const { 429fba06e3cSJeremy Morse const DebugLoc &DbgLoc = MI.getDebugLoc(); 430fba06e3cSJeremy Morse bool Indirect = MI.isIndirectDebugValue(); 431fba06e3cSJeremy Morse const auto &IID = MI.getDesc(); 432fba06e3cSJeremy Morse const DILocalVariable *Var = MI.getDebugVariable(); 433fba06e3cSJeremy Morse const DIExpression *DIExpr = MI.getDebugExpression(); 434fba06e3cSJeremy Morse NumInserted++; 435fba06e3cSJeremy Morse 436fba06e3cSJeremy Morse switch (Kind) { 437fba06e3cSJeremy Morse case EntryValueKind: 438fba06e3cSJeremy Morse // An entry value is a register location -- but with an updated 439fba06e3cSJeremy Morse // expression. The register location of such DBG_VALUE is always the one 440fba06e3cSJeremy Morse // from the entry DBG_VALUE, it does not matter if the entry value was 441fba06e3cSJeremy Morse // copied in to another register due to some optimizations. 442fba06e3cSJeremy Morse return BuildMI(MF, DbgLoc, IID, Indirect, 443fba06e3cSJeremy Morse MI.getDebugOperand(0).getReg(), Var, Expr); 444fba06e3cSJeremy Morse case RegisterKind: 445fba06e3cSJeremy Morse // Register locations are like the source DBG_VALUE, but with the 446fba06e3cSJeremy Morse // register number from this VarLoc. 447fba06e3cSJeremy Morse return BuildMI(MF, DbgLoc, IID, Indirect, Loc.RegNo, Var, DIExpr); 448fba06e3cSJeremy Morse case SpillLocKind: { 449fba06e3cSJeremy Morse // Spills are indirect DBG_VALUEs, with a base register and offset. 450fba06e3cSJeremy Morse // Use the original DBG_VALUEs expression to build the spilt location 451fba06e3cSJeremy Morse // on top of. FIXME: spill locations created before this pass runs 452fba06e3cSJeremy Morse // are not recognized, and not handled here. 453fba06e3cSJeremy Morse auto *SpillExpr = DIExpression::prepend( 454fba06e3cSJeremy Morse DIExpr, DIExpression::ApplyOffset, Loc.SpillLocation.SpillOffset); 455fba06e3cSJeremy Morse unsigned Base = Loc.SpillLocation.SpillBase; 456fba06e3cSJeremy Morse return BuildMI(MF, DbgLoc, IID, true, Base, Var, SpillExpr); 457fba06e3cSJeremy Morse } 458fba06e3cSJeremy Morse case ImmediateKind: { 459fba06e3cSJeremy Morse MachineOperand MO = MI.getDebugOperand(0); 460fba06e3cSJeremy Morse return BuildMI(MF, DbgLoc, IID, Indirect, MO, Var, DIExpr); 461fba06e3cSJeremy Morse } 462fba06e3cSJeremy Morse case EntryValueBackupKind: 463fba06e3cSJeremy Morse case EntryValueCopyBackupKind: 464fba06e3cSJeremy Morse case InvalidKind: 465fba06e3cSJeremy Morse llvm_unreachable( 466fba06e3cSJeremy Morse "Tried to produce DBG_VALUE for invalid or backup VarLoc"); 467fba06e3cSJeremy Morse } 468*20bb9fe5SJeremy Morse llvm_unreachable("Unrecognized VarLocBasedLDV.VarLoc.Kind enum"); 469fba06e3cSJeremy Morse } 470fba06e3cSJeremy Morse 471fba06e3cSJeremy Morse /// Is the Loc field a constant or constant object? 472fba06e3cSJeremy Morse bool isConstant() const { return Kind == ImmediateKind; } 473fba06e3cSJeremy Morse 474fba06e3cSJeremy Morse /// Check if the Loc field is an entry backup location. 475fba06e3cSJeremy Morse bool isEntryBackupLoc() const { 476fba06e3cSJeremy Morse return Kind == EntryValueBackupKind || Kind == EntryValueCopyBackupKind; 477fba06e3cSJeremy Morse } 478fba06e3cSJeremy Morse 479fba06e3cSJeremy Morse /// If this variable is described by a register holding the entry value, 480fba06e3cSJeremy Morse /// return it, otherwise return 0. 481fba06e3cSJeremy Morse unsigned getEntryValueBackupReg() const { 482fba06e3cSJeremy Morse if (Kind == EntryValueBackupKind) 483fba06e3cSJeremy Morse return Loc.RegNo; 484fba06e3cSJeremy Morse return 0; 485fba06e3cSJeremy Morse } 486fba06e3cSJeremy Morse 487fba06e3cSJeremy Morse /// If this variable is described by a register holding the copy of the 488fba06e3cSJeremy Morse /// entry value, return it, otherwise return 0. 489fba06e3cSJeremy Morse unsigned getEntryValueCopyBackupReg() const { 490fba06e3cSJeremy Morse if (Kind == EntryValueCopyBackupKind) 491fba06e3cSJeremy Morse return Loc.RegNo; 492fba06e3cSJeremy Morse return 0; 493fba06e3cSJeremy Morse } 494fba06e3cSJeremy Morse 495fba06e3cSJeremy Morse /// If this variable is described by a register, return it, 496fba06e3cSJeremy Morse /// otherwise return 0. 497fba06e3cSJeremy Morse unsigned isDescribedByReg() const { 498fba06e3cSJeremy Morse if (Kind == RegisterKind) 499fba06e3cSJeremy Morse return Loc.RegNo; 500fba06e3cSJeremy Morse return 0; 501fba06e3cSJeremy Morse } 502fba06e3cSJeremy Morse 503fba06e3cSJeremy Morse /// Determine whether the lexical scope of this value's debug location 504fba06e3cSJeremy Morse /// dominates MBB. 505fba06e3cSJeremy Morse bool dominates(LexicalScopes &LS, MachineBasicBlock &MBB) const { 506fba06e3cSJeremy Morse return LS.dominates(MI.getDebugLoc().get(), &MBB); 507fba06e3cSJeremy Morse } 508fba06e3cSJeremy Morse 509fba06e3cSJeremy Morse #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 510fba06e3cSJeremy Morse // TRI can be null. 511fba06e3cSJeremy Morse void dump(const TargetRegisterInfo *TRI, raw_ostream &Out = dbgs()) const { 512fba06e3cSJeremy Morse Out << "VarLoc("; 513fba06e3cSJeremy Morse switch (Kind) { 514fba06e3cSJeremy Morse case RegisterKind: 515fba06e3cSJeremy Morse case EntryValueKind: 516fba06e3cSJeremy Morse case EntryValueBackupKind: 517fba06e3cSJeremy Morse case EntryValueCopyBackupKind: 518fba06e3cSJeremy Morse Out << printReg(Loc.RegNo, TRI); 519fba06e3cSJeremy Morse break; 520fba06e3cSJeremy Morse case SpillLocKind: 521fba06e3cSJeremy Morse Out << printReg(Loc.SpillLocation.SpillBase, TRI); 522fba06e3cSJeremy Morse Out << "[" << Loc.SpillLocation.SpillOffset << "]"; 523fba06e3cSJeremy Morse break; 524fba06e3cSJeremy Morse case ImmediateKind: 525fba06e3cSJeremy Morse Out << Loc.Immediate; 526fba06e3cSJeremy Morse break; 527fba06e3cSJeremy Morse case InvalidKind: 528fba06e3cSJeremy Morse llvm_unreachable("Invalid VarLoc in dump method"); 529fba06e3cSJeremy Morse } 530fba06e3cSJeremy Morse 531fba06e3cSJeremy Morse Out << ", \"" << Var.getVariable()->getName() << "\", " << *Expr << ", "; 532fba06e3cSJeremy Morse if (Var.getInlinedAt()) 533fba06e3cSJeremy Morse Out << "!" << Var.getInlinedAt()->getMetadataID() << ")\n"; 534fba06e3cSJeremy Morse else 535fba06e3cSJeremy Morse Out << "(null))"; 536fba06e3cSJeremy Morse 537fba06e3cSJeremy Morse if (isEntryBackupLoc()) 538fba06e3cSJeremy Morse Out << " (backup loc)\n"; 539fba06e3cSJeremy Morse else 540fba06e3cSJeremy Morse Out << "\n"; 541fba06e3cSJeremy Morse } 542fba06e3cSJeremy Morse #endif 543fba06e3cSJeremy Morse 544fba06e3cSJeremy Morse bool operator==(const VarLoc &Other) const { 545fba06e3cSJeremy Morse return Kind == Other.Kind && Var == Other.Var && 546fba06e3cSJeremy Morse Loc.Hash == Other.Loc.Hash && Expr == Other.Expr; 547fba06e3cSJeremy Morse } 548fba06e3cSJeremy Morse 549fba06e3cSJeremy Morse /// This operator guarantees that VarLocs are sorted by Variable first. 550fba06e3cSJeremy Morse bool operator<(const VarLoc &Other) const { 551fba06e3cSJeremy Morse return std::tie(Var, Kind, Loc.Hash, Expr) < 552fba06e3cSJeremy Morse std::tie(Other.Var, Other.Kind, Other.Loc.Hash, Other.Expr); 553fba06e3cSJeremy Morse } 554fba06e3cSJeremy Morse }; 555fba06e3cSJeremy Morse 556fba06e3cSJeremy Morse /// VarLocMap is used for two things: 557fba06e3cSJeremy Morse /// 1) Assigning a unique LocIndex to a VarLoc. This LocIndex can be used to 558fba06e3cSJeremy Morse /// virtually insert a VarLoc into a VarLocSet. 559fba06e3cSJeremy Morse /// 2) Given a LocIndex, look up the unique associated VarLoc. 560fba06e3cSJeremy Morse class VarLocMap { 561fba06e3cSJeremy Morse /// Map a VarLoc to an index within the vector reserved for its location 562fba06e3cSJeremy Morse /// within Loc2Vars. 563fba06e3cSJeremy Morse std::map<VarLoc, LocIndex::u32_index_t> Var2Index; 564fba06e3cSJeremy Morse 565fba06e3cSJeremy Morse /// Map a location to a vector which holds VarLocs which live in that 566fba06e3cSJeremy Morse /// location. 567fba06e3cSJeremy Morse SmallDenseMap<LocIndex::u32_location_t, std::vector<VarLoc>> Loc2Vars; 568fba06e3cSJeremy Morse 569fba06e3cSJeremy Morse /// Determine the 32-bit location reserved for \p VL, based on its kind. 570fba06e3cSJeremy Morse static LocIndex::u32_location_t getLocationForVar(const VarLoc &VL) { 571fba06e3cSJeremy Morse switch (VL.Kind) { 572fba06e3cSJeremy Morse case VarLoc::RegisterKind: 573fba06e3cSJeremy Morse assert((VL.Loc.RegNo < LocIndex::kFirstInvalidRegLocation) && 574fba06e3cSJeremy Morse "Physreg out of range?"); 575fba06e3cSJeremy Morse return VL.Loc.RegNo; 576fba06e3cSJeremy Morse case VarLoc::SpillLocKind: 577fba06e3cSJeremy Morse return LocIndex::kSpillLocation; 578fba06e3cSJeremy Morse case VarLoc::EntryValueBackupKind: 579fba06e3cSJeremy Morse case VarLoc::EntryValueCopyBackupKind: 580fba06e3cSJeremy Morse return LocIndex::kEntryValueBackupLocation; 581fba06e3cSJeremy Morse default: 582fba06e3cSJeremy Morse return 0; 583fba06e3cSJeremy Morse } 584fba06e3cSJeremy Morse } 585fba06e3cSJeremy Morse 586fba06e3cSJeremy Morse public: 587fba06e3cSJeremy Morse /// Retrieve a unique LocIndex for \p VL. 588fba06e3cSJeremy Morse LocIndex insert(const VarLoc &VL) { 589fba06e3cSJeremy Morse LocIndex::u32_location_t Location = getLocationForVar(VL); 590fba06e3cSJeremy Morse LocIndex::u32_index_t &Index = Var2Index[VL]; 591fba06e3cSJeremy Morse if (!Index) { 592fba06e3cSJeremy Morse auto &Vars = Loc2Vars[Location]; 593fba06e3cSJeremy Morse Vars.push_back(VL); 594fba06e3cSJeremy Morse Index = Vars.size(); 595fba06e3cSJeremy Morse } 596fba06e3cSJeremy Morse return {Location, Index - 1}; 597fba06e3cSJeremy Morse } 598fba06e3cSJeremy Morse 599fba06e3cSJeremy Morse /// Retrieve the unique VarLoc associated with \p ID. 600fba06e3cSJeremy Morse const VarLoc &operator[](LocIndex ID) const { 601fba06e3cSJeremy Morse auto LocIt = Loc2Vars.find(ID.Location); 602fba06e3cSJeremy Morse assert(LocIt != Loc2Vars.end() && "Location not tracked"); 603fba06e3cSJeremy Morse return LocIt->second[ID.Index]; 604fba06e3cSJeremy Morse } 605fba06e3cSJeremy Morse }; 606fba06e3cSJeremy Morse 607fba06e3cSJeremy Morse using VarLocInMBB = 608fba06e3cSJeremy Morse SmallDenseMap<const MachineBasicBlock *, std::unique_ptr<VarLocSet>>; 609fba06e3cSJeremy Morse struct TransferDebugPair { 610fba06e3cSJeremy Morse MachineInstr *TransferInst; ///< Instruction where this transfer occurs. 611fba06e3cSJeremy Morse LocIndex LocationID; ///< Location number for the transfer dest. 612fba06e3cSJeremy Morse }; 613fba06e3cSJeremy Morse using TransferMap = SmallVector<TransferDebugPair, 4>; 614fba06e3cSJeremy Morse 615fba06e3cSJeremy Morse // Types for recording sets of variable fragments that overlap. For a given 616fba06e3cSJeremy Morse // local variable, we record all other fragments of that variable that could 617fba06e3cSJeremy Morse // overlap it, to reduce search time. 618fba06e3cSJeremy Morse using FragmentOfVar = 619fba06e3cSJeremy Morse std::pair<const DILocalVariable *, DIExpression::FragmentInfo>; 620fba06e3cSJeremy Morse using OverlapMap = 621fba06e3cSJeremy Morse DenseMap<FragmentOfVar, SmallVector<DIExpression::FragmentInfo, 1>>; 622fba06e3cSJeremy Morse 623fba06e3cSJeremy Morse // Helper while building OverlapMap, a map of all fragments seen for a given 624fba06e3cSJeremy Morse // DILocalVariable. 625fba06e3cSJeremy Morse using VarToFragments = 626fba06e3cSJeremy Morse DenseMap<const DILocalVariable *, SmallSet<FragmentInfo, 4>>; 627fba06e3cSJeremy Morse 628fba06e3cSJeremy Morse /// This holds the working set of currently open ranges. For fast 629fba06e3cSJeremy Morse /// access, this is done both as a set of VarLocIDs, and a map of 630fba06e3cSJeremy Morse /// DebugVariable to recent VarLocID. Note that a DBG_VALUE ends all 631fba06e3cSJeremy Morse /// previous open ranges for the same variable. In addition, we keep 632fba06e3cSJeremy Morse /// two different maps (Vars/EntryValuesBackupVars), so erase/insert 633fba06e3cSJeremy Morse /// methods act differently depending on whether a VarLoc is primary 634fba06e3cSJeremy Morse /// location or backup one. In the case the VarLoc is backup location 635fba06e3cSJeremy Morse /// we will erase/insert from the EntryValuesBackupVars map, otherwise 636fba06e3cSJeremy Morse /// we perform the operation on the Vars. 637fba06e3cSJeremy Morse class OpenRangesSet { 638fba06e3cSJeremy Morse VarLocSet VarLocs; 639fba06e3cSJeremy Morse // Map the DebugVariable to recent primary location ID. 640fba06e3cSJeremy Morse SmallDenseMap<DebugVariable, LocIndex, 8> Vars; 641fba06e3cSJeremy Morse // Map the DebugVariable to recent backup location ID. 642fba06e3cSJeremy Morse SmallDenseMap<DebugVariable, LocIndex, 8> EntryValuesBackupVars; 643fba06e3cSJeremy Morse OverlapMap &OverlappingFragments; 644fba06e3cSJeremy Morse 645fba06e3cSJeremy Morse public: 646fba06e3cSJeremy Morse OpenRangesSet(VarLocSet::Allocator &Alloc, OverlapMap &_OLapMap) 647fba06e3cSJeremy Morse : VarLocs(Alloc), OverlappingFragments(_OLapMap) {} 648fba06e3cSJeremy Morse 649fba06e3cSJeremy Morse const VarLocSet &getVarLocs() const { return VarLocs; } 650fba06e3cSJeremy Morse 651fba06e3cSJeremy Morse /// Terminate all open ranges for VL.Var by removing it from the set. 652fba06e3cSJeremy Morse void erase(const VarLoc &VL); 653fba06e3cSJeremy Morse 654fba06e3cSJeremy Morse /// Terminate all open ranges listed in \c KillSet by removing 655fba06e3cSJeremy Morse /// them from the set. 656fba06e3cSJeremy Morse void erase(const VarLocSet &KillSet, const VarLocMap &VarLocIDs); 657fba06e3cSJeremy Morse 658fba06e3cSJeremy Morse /// Insert a new range into the set. 659fba06e3cSJeremy Morse void insert(LocIndex VarLocID, const VarLoc &VL); 660fba06e3cSJeremy Morse 661fba06e3cSJeremy Morse /// Insert a set of ranges. 662fba06e3cSJeremy Morse void insertFromLocSet(const VarLocSet &ToLoad, const VarLocMap &Map) { 663fba06e3cSJeremy Morse for (uint64_t ID : ToLoad) { 664fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 665fba06e3cSJeremy Morse const VarLoc &VarL = Map[Idx]; 666fba06e3cSJeremy Morse insert(Idx, VarL); 667fba06e3cSJeremy Morse } 668fba06e3cSJeremy Morse } 669fba06e3cSJeremy Morse 670fba06e3cSJeremy Morse llvm::Optional<LocIndex> getEntryValueBackup(DebugVariable Var); 671fba06e3cSJeremy Morse 672fba06e3cSJeremy Morse /// Empty the set. 673fba06e3cSJeremy Morse void clear() { 674fba06e3cSJeremy Morse VarLocs.clear(); 675fba06e3cSJeremy Morse Vars.clear(); 676fba06e3cSJeremy Morse EntryValuesBackupVars.clear(); 677fba06e3cSJeremy Morse } 678fba06e3cSJeremy Morse 679fba06e3cSJeremy Morse /// Return whether the set is empty or not. 680fba06e3cSJeremy Morse bool empty() const { 681fba06e3cSJeremy Morse assert(Vars.empty() == EntryValuesBackupVars.empty() && 682fba06e3cSJeremy Morse Vars.empty() == VarLocs.empty() && 683fba06e3cSJeremy Morse "open ranges are inconsistent"); 684fba06e3cSJeremy Morse return VarLocs.empty(); 685fba06e3cSJeremy Morse } 686fba06e3cSJeremy Morse 687fba06e3cSJeremy Morse /// Get an empty range of VarLoc IDs. 688fba06e3cSJeremy Morse auto getEmptyVarLocRange() const { 689fba06e3cSJeremy Morse return iterator_range<VarLocSet::const_iterator>(getVarLocs().end(), 690fba06e3cSJeremy Morse getVarLocs().end()); 691fba06e3cSJeremy Morse } 692fba06e3cSJeremy Morse 693fba06e3cSJeremy Morse /// Get all set IDs for VarLocs of kind RegisterKind in \p Reg. 694fba06e3cSJeremy Morse auto getRegisterVarLocs(Register Reg) const { 695fba06e3cSJeremy Morse return LocIndex::indexRangeForLocation(getVarLocs(), Reg); 696fba06e3cSJeremy Morse } 697fba06e3cSJeremy Morse 698fba06e3cSJeremy Morse /// Get all set IDs for VarLocs of kind SpillLocKind. 699fba06e3cSJeremy Morse auto getSpillVarLocs() const { 700fba06e3cSJeremy Morse return LocIndex::indexRangeForLocation(getVarLocs(), 701fba06e3cSJeremy Morse LocIndex::kSpillLocation); 702fba06e3cSJeremy Morse } 703fba06e3cSJeremy Morse 704fba06e3cSJeremy Morse /// Get all set IDs for VarLocs of kind EntryValueBackupKind or 705fba06e3cSJeremy Morse /// EntryValueCopyBackupKind. 706fba06e3cSJeremy Morse auto getEntryValueBackupVarLocs() const { 707fba06e3cSJeremy Morse return LocIndex::indexRangeForLocation( 708fba06e3cSJeremy Morse getVarLocs(), LocIndex::kEntryValueBackupLocation); 709fba06e3cSJeremy Morse } 710fba06e3cSJeremy Morse }; 711fba06e3cSJeremy Morse 712fba06e3cSJeremy Morse /// Collect all VarLoc IDs from \p CollectFrom for VarLocs of kind 713fba06e3cSJeremy Morse /// RegisterKind which are located in any reg in \p Regs. Insert collected IDs 714fba06e3cSJeremy Morse /// into \p Collected. 715fba06e3cSJeremy Morse void collectIDsForRegs(VarLocSet &Collected, const DefinedRegsSet &Regs, 716fba06e3cSJeremy Morse const VarLocSet &CollectFrom) const; 717fba06e3cSJeremy Morse 718fba06e3cSJeremy Morse /// Get the registers which are used by VarLocs of kind RegisterKind tracked 719fba06e3cSJeremy Morse /// by \p CollectFrom. 720fba06e3cSJeremy Morse void getUsedRegs(const VarLocSet &CollectFrom, 721fba06e3cSJeremy Morse SmallVectorImpl<uint32_t> &UsedRegs) const; 722fba06e3cSJeremy Morse 723fba06e3cSJeremy Morse VarLocSet &getVarLocsInMBB(const MachineBasicBlock *MBB, VarLocInMBB &Locs) { 724fba06e3cSJeremy Morse std::unique_ptr<VarLocSet> &VLS = Locs[MBB]; 725fba06e3cSJeremy Morse if (!VLS) 726fba06e3cSJeremy Morse VLS = std::make_unique<VarLocSet>(Alloc); 727fba06e3cSJeremy Morse return *VLS.get(); 728fba06e3cSJeremy Morse } 729fba06e3cSJeremy Morse 730fba06e3cSJeremy Morse const VarLocSet &getVarLocsInMBB(const MachineBasicBlock *MBB, 731fba06e3cSJeremy Morse const VarLocInMBB &Locs) const { 732fba06e3cSJeremy Morse auto It = Locs.find(MBB); 733fba06e3cSJeremy Morse assert(It != Locs.end() && "MBB not in map"); 734fba06e3cSJeremy Morse return *It->second.get(); 735fba06e3cSJeremy Morse } 736fba06e3cSJeremy Morse 737fba06e3cSJeremy Morse /// Tests whether this instruction is a spill to a stack location. 738fba06e3cSJeremy Morse bool isSpillInstruction(const MachineInstr &MI, MachineFunction *MF); 739fba06e3cSJeremy Morse 740fba06e3cSJeremy Morse /// Decide if @MI is a spill instruction and return true if it is. We use 2 741fba06e3cSJeremy Morse /// criteria to make this decision: 742fba06e3cSJeremy Morse /// - Is this instruction a store to a spill slot? 743fba06e3cSJeremy Morse /// - Is there a register operand that is both used and killed? 744fba06e3cSJeremy Morse /// TODO: Store optimization can fold spills into other stores (including 745fba06e3cSJeremy Morse /// other spills). We do not handle this yet (more than one memory operand). 746fba06e3cSJeremy Morse bool isLocationSpill(const MachineInstr &MI, MachineFunction *MF, 747fba06e3cSJeremy Morse Register &Reg); 748fba06e3cSJeremy Morse 749fba06e3cSJeremy Morse /// Returns true if the given machine instruction is a debug value which we 750fba06e3cSJeremy Morse /// can emit entry values for. 751fba06e3cSJeremy Morse /// 752fba06e3cSJeremy Morse /// Currently, we generate debug entry values only for parameters that are 753fba06e3cSJeremy Morse /// unmodified throughout the function and located in a register. 754fba06e3cSJeremy Morse bool isEntryValueCandidate(const MachineInstr &MI, 755fba06e3cSJeremy Morse const DefinedRegsSet &Regs) const; 756fba06e3cSJeremy Morse 757fba06e3cSJeremy Morse /// If a given instruction is identified as a spill, return the spill location 758fba06e3cSJeremy Morse /// and set \p Reg to the spilled register. 759fba06e3cSJeremy Morse Optional<VarLoc::SpillLoc> isRestoreInstruction(const MachineInstr &MI, 760fba06e3cSJeremy Morse MachineFunction *MF, 761fba06e3cSJeremy Morse Register &Reg); 762fba06e3cSJeremy Morse /// Given a spill instruction, extract the register and offset used to 763fba06e3cSJeremy Morse /// address the spill location in a target independent way. 764fba06e3cSJeremy Morse VarLoc::SpillLoc extractSpillBaseRegAndOffset(const MachineInstr &MI); 765fba06e3cSJeremy Morse void insertTransferDebugPair(MachineInstr &MI, OpenRangesSet &OpenRanges, 766fba06e3cSJeremy Morse TransferMap &Transfers, VarLocMap &VarLocIDs, 767fba06e3cSJeremy Morse LocIndex OldVarID, TransferKind Kind, 768fba06e3cSJeremy Morse Register NewReg = Register()); 769fba06e3cSJeremy Morse 770fba06e3cSJeremy Morse void transferDebugValue(const MachineInstr &MI, OpenRangesSet &OpenRanges, 771fba06e3cSJeremy Morse VarLocMap &VarLocIDs); 772fba06e3cSJeremy Morse void transferSpillOrRestoreInst(MachineInstr &MI, OpenRangesSet &OpenRanges, 773fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers); 774fba06e3cSJeremy Morse bool removeEntryValue(const MachineInstr &MI, OpenRangesSet &OpenRanges, 775fba06e3cSJeremy Morse VarLocMap &VarLocIDs, const VarLoc &EntryVL); 776fba06e3cSJeremy Morse void emitEntryValues(MachineInstr &MI, OpenRangesSet &OpenRanges, 777fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers, 778fba06e3cSJeremy Morse VarLocSet &KillSet); 779fba06e3cSJeremy Morse void recordEntryValue(const MachineInstr &MI, 780fba06e3cSJeremy Morse const DefinedRegsSet &DefinedRegs, 781fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, VarLocMap &VarLocIDs); 782fba06e3cSJeremy Morse void transferRegisterCopy(MachineInstr &MI, OpenRangesSet &OpenRanges, 783fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers); 784fba06e3cSJeremy Morse void transferRegisterDef(MachineInstr &MI, OpenRangesSet &OpenRanges, 785fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers); 786fba06e3cSJeremy Morse bool transferTerminator(MachineBasicBlock *MBB, OpenRangesSet &OpenRanges, 787fba06e3cSJeremy Morse VarLocInMBB &OutLocs, const VarLocMap &VarLocIDs); 788fba06e3cSJeremy Morse 789fba06e3cSJeremy Morse void process(MachineInstr &MI, OpenRangesSet &OpenRanges, 790fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers); 791fba06e3cSJeremy Morse 792fba06e3cSJeremy Morse void accumulateFragmentMap(MachineInstr &MI, VarToFragments &SeenFragments, 793fba06e3cSJeremy Morse OverlapMap &OLapMap); 794fba06e3cSJeremy Morse 795fba06e3cSJeremy Morse bool join(MachineBasicBlock &MBB, VarLocInMBB &OutLocs, VarLocInMBB &InLocs, 796fba06e3cSJeremy Morse const VarLocMap &VarLocIDs, 797fba06e3cSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 16> &Visited, 798fba06e3cSJeremy Morse SmallPtrSetImpl<const MachineBasicBlock *> &ArtificialBlocks); 799fba06e3cSJeremy Morse 800fba06e3cSJeremy Morse /// Create DBG_VALUE insts for inlocs that have been propagated but 801fba06e3cSJeremy Morse /// had their instruction creation deferred. 802fba06e3cSJeremy Morse void flushPendingLocs(VarLocInMBB &PendingInLocs, VarLocMap &VarLocIDs); 803fba06e3cSJeremy Morse 804*20bb9fe5SJeremy Morse bool ExtendRanges(MachineFunction &MF, TargetPassConfig *TPC); 805fba06e3cSJeremy Morse 806fba06e3cSJeremy Morse public: 807fba06e3cSJeremy Morse /// Default construct and initialize the pass. 808*20bb9fe5SJeremy Morse VarLocBasedLDV(); 809fba06e3cSJeremy Morse 810*20bb9fe5SJeremy Morse ~VarLocBasedLDV(); 811fba06e3cSJeremy Morse 812fba06e3cSJeremy Morse /// Print to ostream with a message. 813fba06e3cSJeremy Morse void printVarLocInMBB(const MachineFunction &MF, const VarLocInMBB &V, 814fba06e3cSJeremy Morse const VarLocMap &VarLocIDs, const char *msg, 815fba06e3cSJeremy Morse raw_ostream &Out) const; 816fba06e3cSJeremy Morse }; 817fba06e3cSJeremy Morse 818fba06e3cSJeremy Morse } // end anonymous namespace 819fba06e3cSJeremy Morse 820fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 821fba06e3cSJeremy Morse // Implementation 822fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 823fba06e3cSJeremy Morse 824*20bb9fe5SJeremy Morse VarLocBasedLDV::VarLocBasedLDV() { } 825fba06e3cSJeremy Morse 826*20bb9fe5SJeremy Morse VarLocBasedLDV::~VarLocBasedLDV() { } 827fba06e3cSJeremy Morse 828fba06e3cSJeremy Morse /// Erase a variable from the set of open ranges, and additionally erase any 829fba06e3cSJeremy Morse /// fragments that may overlap it. If the VarLoc is a buckup location, erase 830fba06e3cSJeremy Morse /// the variable from the EntryValuesBackupVars set, indicating we should stop 831fba06e3cSJeremy Morse /// tracking its backup entry location. Otherwise, if the VarLoc is primary 832fba06e3cSJeremy Morse /// location, erase the variable from the Vars set. 833*20bb9fe5SJeremy Morse void VarLocBasedLDV::OpenRangesSet::erase(const VarLoc &VL) { 834fba06e3cSJeremy Morse // Erasure helper. 835fba06e3cSJeremy Morse auto DoErase = [VL, this](DebugVariable VarToErase) { 836fba06e3cSJeremy Morse auto *EraseFrom = VL.isEntryBackupLoc() ? &EntryValuesBackupVars : &Vars; 837fba06e3cSJeremy Morse auto It = EraseFrom->find(VarToErase); 838fba06e3cSJeremy Morse if (It != EraseFrom->end()) { 839fba06e3cSJeremy Morse LocIndex ID = It->second; 840fba06e3cSJeremy Morse VarLocs.reset(ID.getAsRawInteger()); 841fba06e3cSJeremy Morse EraseFrom->erase(It); 842fba06e3cSJeremy Morse } 843fba06e3cSJeremy Morse }; 844fba06e3cSJeremy Morse 845fba06e3cSJeremy Morse DebugVariable Var = VL.Var; 846fba06e3cSJeremy Morse 847fba06e3cSJeremy Morse // Erase the variable/fragment that ends here. 848fba06e3cSJeremy Morse DoErase(Var); 849fba06e3cSJeremy Morse 850fba06e3cSJeremy Morse // Extract the fragment. Interpret an empty fragment as one that covers all 851fba06e3cSJeremy Morse // possible bits. 852fba06e3cSJeremy Morse FragmentInfo ThisFragment = Var.getFragmentOrDefault(); 853fba06e3cSJeremy Morse 854fba06e3cSJeremy Morse // There may be fragments that overlap the designated fragment. Look them up 855fba06e3cSJeremy Morse // in the pre-computed overlap map, and erase them too. 856fba06e3cSJeremy Morse auto MapIt = OverlappingFragments.find({Var.getVariable(), ThisFragment}); 857fba06e3cSJeremy Morse if (MapIt != OverlappingFragments.end()) { 858fba06e3cSJeremy Morse for (auto Fragment : MapIt->second) { 859*20bb9fe5SJeremy Morse VarLocBasedLDV::OptFragmentInfo FragmentHolder; 860fba06e3cSJeremy Morse if (!DebugVariable::isDefaultFragment(Fragment)) 861*20bb9fe5SJeremy Morse FragmentHolder = VarLocBasedLDV::OptFragmentInfo(Fragment); 862fba06e3cSJeremy Morse DoErase({Var.getVariable(), FragmentHolder, Var.getInlinedAt()}); 863fba06e3cSJeremy Morse } 864fba06e3cSJeremy Morse } 865fba06e3cSJeremy Morse } 866fba06e3cSJeremy Morse 867*20bb9fe5SJeremy Morse void VarLocBasedLDV::OpenRangesSet::erase(const VarLocSet &KillSet, 868fba06e3cSJeremy Morse const VarLocMap &VarLocIDs) { 869fba06e3cSJeremy Morse VarLocs.intersectWithComplement(KillSet); 870fba06e3cSJeremy Morse for (uint64_t ID : KillSet) { 871fba06e3cSJeremy Morse const VarLoc *VL = &VarLocIDs[LocIndex::fromRawInteger(ID)]; 872fba06e3cSJeremy Morse auto *EraseFrom = VL->isEntryBackupLoc() ? &EntryValuesBackupVars : &Vars; 873fba06e3cSJeremy Morse EraseFrom->erase(VL->Var); 874fba06e3cSJeremy Morse } 875fba06e3cSJeremy Morse } 876fba06e3cSJeremy Morse 877*20bb9fe5SJeremy Morse void VarLocBasedLDV::OpenRangesSet::insert(LocIndex VarLocID, 878fba06e3cSJeremy Morse const VarLoc &VL) { 879fba06e3cSJeremy Morse auto *InsertInto = VL.isEntryBackupLoc() ? &EntryValuesBackupVars : &Vars; 880fba06e3cSJeremy Morse VarLocs.set(VarLocID.getAsRawInteger()); 881fba06e3cSJeremy Morse InsertInto->insert({VL.Var, VarLocID}); 882fba06e3cSJeremy Morse } 883fba06e3cSJeremy Morse 884fba06e3cSJeremy Morse /// Return the Loc ID of an entry value backup location, if it exists for the 885fba06e3cSJeremy Morse /// variable. 886fba06e3cSJeremy Morse llvm::Optional<LocIndex> 887*20bb9fe5SJeremy Morse VarLocBasedLDV::OpenRangesSet::getEntryValueBackup(DebugVariable Var) { 888fba06e3cSJeremy Morse auto It = EntryValuesBackupVars.find(Var); 889fba06e3cSJeremy Morse if (It != EntryValuesBackupVars.end()) 890fba06e3cSJeremy Morse return It->second; 891fba06e3cSJeremy Morse 892fba06e3cSJeremy Morse return llvm::None; 893fba06e3cSJeremy Morse } 894fba06e3cSJeremy Morse 895*20bb9fe5SJeremy Morse void VarLocBasedLDV::collectIDsForRegs(VarLocSet &Collected, 896fba06e3cSJeremy Morse const DefinedRegsSet &Regs, 897fba06e3cSJeremy Morse const VarLocSet &CollectFrom) const { 898fba06e3cSJeremy Morse assert(!Regs.empty() && "Nothing to collect"); 899fba06e3cSJeremy Morse SmallVector<uint32_t, 32> SortedRegs; 900fba06e3cSJeremy Morse for (Register Reg : Regs) 901fba06e3cSJeremy Morse SortedRegs.push_back(Reg); 902fba06e3cSJeremy Morse array_pod_sort(SortedRegs.begin(), SortedRegs.end()); 903fba06e3cSJeremy Morse auto It = CollectFrom.find(LocIndex::rawIndexForReg(SortedRegs.front())); 904fba06e3cSJeremy Morse auto End = CollectFrom.end(); 905fba06e3cSJeremy Morse for (uint32_t Reg : SortedRegs) { 906fba06e3cSJeremy Morse // The half-open interval [FirstIndexForReg, FirstInvalidIndex) contains all 907fba06e3cSJeremy Morse // possible VarLoc IDs for VarLocs of kind RegisterKind which live in Reg. 908fba06e3cSJeremy Morse uint64_t FirstIndexForReg = LocIndex::rawIndexForReg(Reg); 909fba06e3cSJeremy Morse uint64_t FirstInvalidIndex = LocIndex::rawIndexForReg(Reg + 1); 910fba06e3cSJeremy Morse It.advanceToLowerBound(FirstIndexForReg); 911fba06e3cSJeremy Morse 912fba06e3cSJeremy Morse // Iterate through that half-open interval and collect all the set IDs. 913fba06e3cSJeremy Morse for (; It != End && *It < FirstInvalidIndex; ++It) 914fba06e3cSJeremy Morse Collected.set(*It); 915fba06e3cSJeremy Morse 916fba06e3cSJeremy Morse if (It == End) 917fba06e3cSJeremy Morse return; 918fba06e3cSJeremy Morse } 919fba06e3cSJeremy Morse } 920fba06e3cSJeremy Morse 921*20bb9fe5SJeremy Morse void VarLocBasedLDV::getUsedRegs(const VarLocSet &CollectFrom, 922fba06e3cSJeremy Morse SmallVectorImpl<uint32_t> &UsedRegs) const { 923fba06e3cSJeremy Morse // All register-based VarLocs are assigned indices greater than or equal to 924fba06e3cSJeremy Morse // FirstRegIndex. 925fba06e3cSJeremy Morse uint64_t FirstRegIndex = LocIndex::rawIndexForReg(1); 926fba06e3cSJeremy Morse uint64_t FirstInvalidIndex = 927fba06e3cSJeremy Morse LocIndex::rawIndexForReg(LocIndex::kFirstInvalidRegLocation); 928fba06e3cSJeremy Morse for (auto It = CollectFrom.find(FirstRegIndex), 929fba06e3cSJeremy Morse End = CollectFrom.find(FirstInvalidIndex); 930fba06e3cSJeremy Morse It != End;) { 931fba06e3cSJeremy Morse // We found a VarLoc ID for a VarLoc that lives in a register. Figure out 932fba06e3cSJeremy Morse // which register and add it to UsedRegs. 933fba06e3cSJeremy Morse uint32_t FoundReg = LocIndex::fromRawInteger(*It).Location; 934fba06e3cSJeremy Morse assert((UsedRegs.empty() || FoundReg != UsedRegs.back()) && 935fba06e3cSJeremy Morse "Duplicate used reg"); 936fba06e3cSJeremy Morse UsedRegs.push_back(FoundReg); 937fba06e3cSJeremy Morse 938fba06e3cSJeremy Morse // Skip to the next /set/ register. Note that this finds a lower bound, so 939fba06e3cSJeremy Morse // even if there aren't any VarLocs living in `FoundReg+1`, we're still 940fba06e3cSJeremy Morse // guaranteed to move on to the next register (or to end()). 941fba06e3cSJeremy Morse uint64_t NextRegIndex = LocIndex::rawIndexForReg(FoundReg + 1); 942fba06e3cSJeremy Morse It.advanceToLowerBound(NextRegIndex); 943fba06e3cSJeremy Morse } 944fba06e3cSJeremy Morse } 945fba06e3cSJeremy Morse 946fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 947fba06e3cSJeremy Morse // Debug Range Extension Implementation 948fba06e3cSJeremy Morse //===----------------------------------------------------------------------===// 949fba06e3cSJeremy Morse 950fba06e3cSJeremy Morse #ifndef NDEBUG 951*20bb9fe5SJeremy Morse void VarLocBasedLDV::printVarLocInMBB(const MachineFunction &MF, 952fba06e3cSJeremy Morse const VarLocInMBB &V, 953fba06e3cSJeremy Morse const VarLocMap &VarLocIDs, 954fba06e3cSJeremy Morse const char *msg, 955fba06e3cSJeremy Morse raw_ostream &Out) const { 956fba06e3cSJeremy Morse Out << '\n' << msg << '\n'; 957fba06e3cSJeremy Morse for (const MachineBasicBlock &BB : MF) { 958fba06e3cSJeremy Morse if (!V.count(&BB)) 959fba06e3cSJeremy Morse continue; 960fba06e3cSJeremy Morse const VarLocSet &L = getVarLocsInMBB(&BB, V); 961fba06e3cSJeremy Morse if (L.empty()) 962fba06e3cSJeremy Morse continue; 963fba06e3cSJeremy Morse Out << "MBB: " << BB.getNumber() << ":\n"; 964fba06e3cSJeremy Morse for (uint64_t VLL : L) { 965fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[LocIndex::fromRawInteger(VLL)]; 966fba06e3cSJeremy Morse Out << " Var: " << VL.Var.getVariable()->getName(); 967fba06e3cSJeremy Morse Out << " MI: "; 968fba06e3cSJeremy Morse VL.dump(TRI, Out); 969fba06e3cSJeremy Morse } 970fba06e3cSJeremy Morse } 971fba06e3cSJeremy Morse Out << "\n"; 972fba06e3cSJeremy Morse } 973fba06e3cSJeremy Morse #endif 974fba06e3cSJeremy Morse 975*20bb9fe5SJeremy Morse VarLocBasedLDV::VarLoc::SpillLoc 976*20bb9fe5SJeremy Morse VarLocBasedLDV::extractSpillBaseRegAndOffset(const MachineInstr &MI) { 977fba06e3cSJeremy Morse assert(MI.hasOneMemOperand() && 978fba06e3cSJeremy Morse "Spill instruction does not have exactly one memory operand?"); 979fba06e3cSJeremy Morse auto MMOI = MI.memoperands_begin(); 980fba06e3cSJeremy Morse const PseudoSourceValue *PVal = (*MMOI)->getPseudoValue(); 981fba06e3cSJeremy Morse assert(PVal->kind() == PseudoSourceValue::FixedStack && 982fba06e3cSJeremy Morse "Inconsistent memory operand in spill instruction"); 983fba06e3cSJeremy Morse int FI = cast<FixedStackPseudoSourceValue>(PVal)->getFrameIndex(); 984fba06e3cSJeremy Morse const MachineBasicBlock *MBB = MI.getParent(); 985fba06e3cSJeremy Morse Register Reg; 986fba06e3cSJeremy Morse int Offset = TFI->getFrameIndexReference(*MBB->getParent(), FI, Reg); 987fba06e3cSJeremy Morse return {Reg, Offset}; 988fba06e3cSJeremy Morse } 989fba06e3cSJeremy Morse 990fba06e3cSJeremy Morse /// Try to salvage the debug entry value if we encounter a new debug value 991fba06e3cSJeremy Morse /// describing the same parameter, otherwise stop tracking the value. Return 992fba06e3cSJeremy Morse /// true if we should stop tracking the entry value, otherwise return false. 993*20bb9fe5SJeremy Morse bool VarLocBasedLDV::removeEntryValue(const MachineInstr &MI, 994fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 995fba06e3cSJeremy Morse VarLocMap &VarLocIDs, 996fba06e3cSJeremy Morse const VarLoc &EntryVL) { 997fba06e3cSJeremy Morse // Skip the DBG_VALUE which is the debug entry value itself. 998fba06e3cSJeremy Morse if (MI.isIdenticalTo(EntryVL.MI)) 999fba06e3cSJeremy Morse return false; 1000fba06e3cSJeremy Morse 1001fba06e3cSJeremy Morse // If the parameter's location is not register location, we can not track 1002fba06e3cSJeremy Morse // the entry value any more. In addition, if the debug expression from the 1003fba06e3cSJeremy Morse // DBG_VALUE is not empty, we can assume the parameter's value has changed 1004fba06e3cSJeremy Morse // indicating that we should stop tracking its entry value as well. 1005fba06e3cSJeremy Morse if (!MI.getDebugOperand(0).isReg() || 1006fba06e3cSJeremy Morse MI.getDebugExpression()->getNumElements() != 0) 1007fba06e3cSJeremy Morse return true; 1008fba06e3cSJeremy Morse 1009fba06e3cSJeremy Morse // If the DBG_VALUE comes from a copy instruction that copies the entry value, 1010fba06e3cSJeremy Morse // it means the parameter's value has not changed and we should be able to use 1011fba06e3cSJeremy Morse // its entry value. 1012fba06e3cSJeremy Morse bool TrySalvageEntryValue = false; 1013fba06e3cSJeremy Morse Register Reg = MI.getDebugOperand(0).getReg(); 1014fba06e3cSJeremy Morse auto I = std::next(MI.getReverseIterator()); 1015fba06e3cSJeremy Morse const MachineOperand *SrcRegOp, *DestRegOp; 1016fba06e3cSJeremy Morse if (I != MI.getParent()->rend()) { 1017fba06e3cSJeremy Morse // TODO: Try to keep tracking of an entry value if we encounter a propagated 1018fba06e3cSJeremy Morse // DBG_VALUE describing the copy of the entry value. (Propagated entry value 1019fba06e3cSJeremy Morse // does not indicate the parameter modification.) 1020fba06e3cSJeremy Morse auto DestSrc = TII->isCopyInstr(*I); 1021fba06e3cSJeremy Morse if (!DestSrc) 1022fba06e3cSJeremy Morse return true; 1023fba06e3cSJeremy Morse 1024fba06e3cSJeremy Morse SrcRegOp = DestSrc->Source; 1025fba06e3cSJeremy Morse DestRegOp = DestSrc->Destination; 1026fba06e3cSJeremy Morse if (Reg != DestRegOp->getReg()) 1027fba06e3cSJeremy Morse return true; 1028fba06e3cSJeremy Morse TrySalvageEntryValue = true; 1029fba06e3cSJeremy Morse } 1030fba06e3cSJeremy Morse 1031fba06e3cSJeremy Morse if (TrySalvageEntryValue) { 1032fba06e3cSJeremy Morse for (uint64_t ID : OpenRanges.getEntryValueBackupVarLocs()) { 1033fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[LocIndex::fromRawInteger(ID)]; 1034fba06e3cSJeremy Morse if (VL.getEntryValueCopyBackupReg() == Reg && 1035fba06e3cSJeremy Morse VL.MI.getDebugOperand(0).getReg() == SrcRegOp->getReg()) 1036fba06e3cSJeremy Morse return false; 1037fba06e3cSJeremy Morse } 1038fba06e3cSJeremy Morse } 1039fba06e3cSJeremy Morse 1040fba06e3cSJeremy Morse return true; 1041fba06e3cSJeremy Morse } 1042fba06e3cSJeremy Morse 1043fba06e3cSJeremy Morse /// End all previous ranges related to @MI and start a new range from @MI 1044fba06e3cSJeremy Morse /// if it is a DBG_VALUE instr. 1045*20bb9fe5SJeremy Morse void VarLocBasedLDV::transferDebugValue(const MachineInstr &MI, 1046fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1047fba06e3cSJeremy Morse VarLocMap &VarLocIDs) { 1048fba06e3cSJeremy Morse if (!MI.isDebugValue()) 1049fba06e3cSJeremy Morse return; 1050fba06e3cSJeremy Morse const DILocalVariable *Var = MI.getDebugVariable(); 1051fba06e3cSJeremy Morse const DIExpression *Expr = MI.getDebugExpression(); 1052fba06e3cSJeremy Morse const DILocation *DebugLoc = MI.getDebugLoc(); 1053fba06e3cSJeremy Morse const DILocation *InlinedAt = DebugLoc->getInlinedAt(); 1054fba06e3cSJeremy Morse assert(Var->isValidLocationForIntrinsic(DebugLoc) && 1055fba06e3cSJeremy Morse "Expected inlined-at fields to agree"); 1056fba06e3cSJeremy Morse 1057fba06e3cSJeremy Morse DebugVariable V(Var, Expr, InlinedAt); 1058fba06e3cSJeremy Morse 1059fba06e3cSJeremy Morse // Check if this DBG_VALUE indicates a parameter's value changing. 1060fba06e3cSJeremy Morse // If that is the case, we should stop tracking its entry value. 1061fba06e3cSJeremy Morse auto EntryValBackupID = OpenRanges.getEntryValueBackup(V); 1062fba06e3cSJeremy Morse if (Var->isParameter() && EntryValBackupID) { 1063fba06e3cSJeremy Morse const VarLoc &EntryVL = VarLocIDs[*EntryValBackupID]; 1064fba06e3cSJeremy Morse if (removeEntryValue(MI, OpenRanges, VarLocIDs, EntryVL)) { 1065fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Deleting a DBG entry value because of: "; 1066fba06e3cSJeremy Morse MI.print(dbgs(), /*IsStandalone*/ false, 1067fba06e3cSJeremy Morse /*SkipOpers*/ false, /*SkipDebugLoc*/ false, 1068fba06e3cSJeremy Morse /*AddNewLine*/ true, TII)); 1069fba06e3cSJeremy Morse OpenRanges.erase(EntryVL); 1070fba06e3cSJeremy Morse } 1071fba06e3cSJeremy Morse } 1072fba06e3cSJeremy Morse 1073fba06e3cSJeremy Morse if (isDbgValueDescribedByReg(MI) || MI.getDebugOperand(0).isImm() || 1074fba06e3cSJeremy Morse MI.getDebugOperand(0).isFPImm() || MI.getDebugOperand(0).isCImm()) { 1075fba06e3cSJeremy Morse // Use normal VarLoc constructor for registers and immediates. 1076fba06e3cSJeremy Morse VarLoc VL(MI, LS); 1077fba06e3cSJeremy Morse // End all previous ranges of VL.Var. 1078fba06e3cSJeremy Morse OpenRanges.erase(VL); 1079fba06e3cSJeremy Morse 1080fba06e3cSJeremy Morse LocIndex ID = VarLocIDs.insert(VL); 1081fba06e3cSJeremy Morse // Add the VarLoc to OpenRanges from this DBG_VALUE. 1082fba06e3cSJeremy Morse OpenRanges.insert(ID, VL); 1083fba06e3cSJeremy Morse } else if (MI.hasOneMemOperand()) { 1084fba06e3cSJeremy Morse llvm_unreachable("DBG_VALUE with mem operand encountered after regalloc?"); 1085fba06e3cSJeremy Morse } else { 1086fba06e3cSJeremy Morse // This must be an undefined location. If it has an open range, erase it. 1087fba06e3cSJeremy Morse assert(MI.getDebugOperand(0).isReg() && 1088fba06e3cSJeremy Morse MI.getDebugOperand(0).getReg() == 0 && 1089fba06e3cSJeremy Morse "Unexpected non-undef DBG_VALUE encountered"); 1090fba06e3cSJeremy Morse VarLoc VL(MI, LS); 1091fba06e3cSJeremy Morse OpenRanges.erase(VL); 1092fba06e3cSJeremy Morse } 1093fba06e3cSJeremy Morse } 1094fba06e3cSJeremy Morse 1095fba06e3cSJeremy Morse /// Turn the entry value backup locations into primary locations. 1096*20bb9fe5SJeremy Morse void VarLocBasedLDV::emitEntryValues(MachineInstr &MI, 1097fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1098fba06e3cSJeremy Morse VarLocMap &VarLocIDs, 1099fba06e3cSJeremy Morse TransferMap &Transfers, 1100fba06e3cSJeremy Morse VarLocSet &KillSet) { 1101fba06e3cSJeremy Morse // Do not insert entry value locations after a terminator. 1102fba06e3cSJeremy Morse if (MI.isTerminator()) 1103fba06e3cSJeremy Morse return; 1104fba06e3cSJeremy Morse 1105fba06e3cSJeremy Morse for (uint64_t ID : KillSet) { 1106fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1107fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[Idx]; 1108fba06e3cSJeremy Morse if (!VL.Var.getVariable()->isParameter()) 1109fba06e3cSJeremy Morse continue; 1110fba06e3cSJeremy Morse 1111fba06e3cSJeremy Morse auto DebugVar = VL.Var; 1112fba06e3cSJeremy Morse Optional<LocIndex> EntryValBackupID = 1113fba06e3cSJeremy Morse OpenRanges.getEntryValueBackup(DebugVar); 1114fba06e3cSJeremy Morse 1115fba06e3cSJeremy Morse // If the parameter has the entry value backup, it means we should 1116fba06e3cSJeremy Morse // be able to use its entry value. 1117fba06e3cSJeremy Morse if (!EntryValBackupID) 1118fba06e3cSJeremy Morse continue; 1119fba06e3cSJeremy Morse 1120fba06e3cSJeremy Morse const VarLoc &EntryVL = VarLocIDs[*EntryValBackupID]; 1121fba06e3cSJeremy Morse VarLoc EntryLoc = 1122fba06e3cSJeremy Morse VarLoc::CreateEntryLoc(EntryVL.MI, LS, EntryVL.Expr, EntryVL.Loc.RegNo); 1123fba06e3cSJeremy Morse LocIndex EntryValueID = VarLocIDs.insert(EntryLoc); 1124fba06e3cSJeremy Morse Transfers.push_back({&MI, EntryValueID}); 1125fba06e3cSJeremy Morse OpenRanges.insert(EntryValueID, EntryLoc); 1126fba06e3cSJeremy Morse } 1127fba06e3cSJeremy Morse } 1128fba06e3cSJeremy Morse 1129fba06e3cSJeremy Morse /// Create new TransferDebugPair and insert it in \p Transfers. The VarLoc 1130fba06e3cSJeremy Morse /// with \p OldVarID should be deleted form \p OpenRanges and replaced with 1131fba06e3cSJeremy Morse /// new VarLoc. If \p NewReg is different than default zero value then the 1132fba06e3cSJeremy Morse /// new location will be register location created by the copy like instruction, 1133fba06e3cSJeremy Morse /// otherwise it is variable's location on the stack. 1134*20bb9fe5SJeremy Morse void VarLocBasedLDV::insertTransferDebugPair( 1135fba06e3cSJeremy Morse MachineInstr &MI, OpenRangesSet &OpenRanges, TransferMap &Transfers, 1136fba06e3cSJeremy Morse VarLocMap &VarLocIDs, LocIndex OldVarID, TransferKind Kind, 1137fba06e3cSJeremy Morse Register NewReg) { 1138fba06e3cSJeremy Morse const MachineInstr *DebugInstr = &VarLocIDs[OldVarID].MI; 1139fba06e3cSJeremy Morse 1140fba06e3cSJeremy Morse auto ProcessVarLoc = [&MI, &OpenRanges, &Transfers, &VarLocIDs](VarLoc &VL) { 1141fba06e3cSJeremy Morse LocIndex LocId = VarLocIDs.insert(VL); 1142fba06e3cSJeremy Morse 1143fba06e3cSJeremy Morse // Close this variable's previous location range. 1144fba06e3cSJeremy Morse OpenRanges.erase(VL); 1145fba06e3cSJeremy Morse 1146fba06e3cSJeremy Morse // Record the new location as an open range, and a postponed transfer 1147fba06e3cSJeremy Morse // inserting a DBG_VALUE for this location. 1148fba06e3cSJeremy Morse OpenRanges.insert(LocId, VL); 1149fba06e3cSJeremy Morse assert(!MI.isTerminator() && "Cannot insert DBG_VALUE after terminator"); 1150fba06e3cSJeremy Morse TransferDebugPair MIP = {&MI, LocId}; 1151fba06e3cSJeremy Morse Transfers.push_back(MIP); 1152fba06e3cSJeremy Morse }; 1153fba06e3cSJeremy Morse 1154fba06e3cSJeremy Morse // End all previous ranges of VL.Var. 1155fba06e3cSJeremy Morse OpenRanges.erase(VarLocIDs[OldVarID]); 1156fba06e3cSJeremy Morse switch (Kind) { 1157fba06e3cSJeremy Morse case TransferKind::TransferCopy: { 1158fba06e3cSJeremy Morse assert(NewReg && 1159fba06e3cSJeremy Morse "No register supplied when handling a copy of a debug value"); 1160fba06e3cSJeremy Morse // Create a DBG_VALUE instruction to describe the Var in its new 1161fba06e3cSJeremy Morse // register location. 1162fba06e3cSJeremy Morse VarLoc VL = VarLoc::CreateCopyLoc(*DebugInstr, LS, NewReg); 1163fba06e3cSJeremy Morse ProcessVarLoc(VL); 1164fba06e3cSJeremy Morse LLVM_DEBUG({ 1165fba06e3cSJeremy Morse dbgs() << "Creating VarLoc for register copy:"; 1166fba06e3cSJeremy Morse VL.dump(TRI); 1167fba06e3cSJeremy Morse }); 1168fba06e3cSJeremy Morse return; 1169fba06e3cSJeremy Morse } 1170fba06e3cSJeremy Morse case TransferKind::TransferSpill: { 1171fba06e3cSJeremy Morse // Create a DBG_VALUE instruction to describe the Var in its spilled 1172fba06e3cSJeremy Morse // location. 1173fba06e3cSJeremy Morse VarLoc::SpillLoc SpillLocation = extractSpillBaseRegAndOffset(MI); 1174fba06e3cSJeremy Morse VarLoc VL = VarLoc::CreateSpillLoc(*DebugInstr, SpillLocation.SpillBase, 1175fba06e3cSJeremy Morse SpillLocation.SpillOffset, LS); 1176fba06e3cSJeremy Morse ProcessVarLoc(VL); 1177fba06e3cSJeremy Morse LLVM_DEBUG({ 1178fba06e3cSJeremy Morse dbgs() << "Creating VarLoc for spill:"; 1179fba06e3cSJeremy Morse VL.dump(TRI); 1180fba06e3cSJeremy Morse }); 1181fba06e3cSJeremy Morse return; 1182fba06e3cSJeremy Morse } 1183fba06e3cSJeremy Morse case TransferKind::TransferRestore: { 1184fba06e3cSJeremy Morse assert(NewReg && 1185fba06e3cSJeremy Morse "No register supplied when handling a restore of a debug value"); 1186fba06e3cSJeremy Morse // DebugInstr refers to the pre-spill location, therefore we can reuse 1187fba06e3cSJeremy Morse // its expression. 1188fba06e3cSJeremy Morse VarLoc VL = VarLoc::CreateCopyLoc(*DebugInstr, LS, NewReg); 1189fba06e3cSJeremy Morse ProcessVarLoc(VL); 1190fba06e3cSJeremy Morse LLVM_DEBUG({ 1191fba06e3cSJeremy Morse dbgs() << "Creating VarLoc for restore:"; 1192fba06e3cSJeremy Morse VL.dump(TRI); 1193fba06e3cSJeremy Morse }); 1194fba06e3cSJeremy Morse return; 1195fba06e3cSJeremy Morse } 1196fba06e3cSJeremy Morse } 1197fba06e3cSJeremy Morse llvm_unreachable("Invalid transfer kind"); 1198fba06e3cSJeremy Morse } 1199fba06e3cSJeremy Morse 1200fba06e3cSJeremy Morse /// A definition of a register may mark the end of a range. 1201*20bb9fe5SJeremy Morse void VarLocBasedLDV::transferRegisterDef( 1202fba06e3cSJeremy Morse MachineInstr &MI, OpenRangesSet &OpenRanges, VarLocMap &VarLocIDs, 1203fba06e3cSJeremy Morse TransferMap &Transfers) { 1204fba06e3cSJeremy Morse 1205fba06e3cSJeremy Morse // Meta Instructions do not affect the debug liveness of any register they 1206fba06e3cSJeremy Morse // define. 1207fba06e3cSJeremy Morse if (MI.isMetaInstruction()) 1208fba06e3cSJeremy Morse return; 1209fba06e3cSJeremy Morse 1210fba06e3cSJeremy Morse MachineFunction *MF = MI.getMF(); 1211fba06e3cSJeremy Morse const TargetLowering *TLI = MF->getSubtarget().getTargetLowering(); 1212fba06e3cSJeremy Morse Register SP = TLI->getStackPointerRegisterToSaveRestore(); 1213fba06e3cSJeremy Morse 1214fba06e3cSJeremy Morse // Find the regs killed by MI, and find regmasks of preserved regs. 1215fba06e3cSJeremy Morse DefinedRegsSet DeadRegs; 1216fba06e3cSJeremy Morse SmallVector<const uint32_t *, 4> RegMasks; 1217fba06e3cSJeremy Morse for (const MachineOperand &MO : MI.operands()) { 1218fba06e3cSJeremy Morse // Determine whether the operand is a register def. 1219fba06e3cSJeremy Morse if (MO.isReg() && MO.isDef() && MO.getReg() && 1220fba06e3cSJeremy Morse Register::isPhysicalRegister(MO.getReg()) && 1221fba06e3cSJeremy Morse !(MI.isCall() && MO.getReg() == SP)) { 1222fba06e3cSJeremy Morse // Remove ranges of all aliased registers. 1223fba06e3cSJeremy Morse for (MCRegAliasIterator RAI(MO.getReg(), TRI, true); RAI.isValid(); ++RAI) 1224fba06e3cSJeremy Morse // FIXME: Can we break out of this loop early if no insertion occurs? 1225fba06e3cSJeremy Morse DeadRegs.insert(*RAI); 1226fba06e3cSJeremy Morse } else if (MO.isRegMask()) { 1227fba06e3cSJeremy Morse RegMasks.push_back(MO.getRegMask()); 1228fba06e3cSJeremy Morse } 1229fba06e3cSJeremy Morse } 1230fba06e3cSJeremy Morse 1231fba06e3cSJeremy Morse // Erase VarLocs which reside in one of the dead registers. For performance 1232fba06e3cSJeremy Morse // reasons, it's critical to not iterate over the full set of open VarLocs. 1233fba06e3cSJeremy Morse // Iterate over the set of dying/used regs instead. 1234fba06e3cSJeremy Morse if (!RegMasks.empty()) { 1235fba06e3cSJeremy Morse SmallVector<uint32_t, 32> UsedRegs; 1236fba06e3cSJeremy Morse getUsedRegs(OpenRanges.getVarLocs(), UsedRegs); 1237fba06e3cSJeremy Morse for (uint32_t Reg : UsedRegs) { 1238fba06e3cSJeremy Morse // Remove ranges of all clobbered registers. Register masks don't usually 1239fba06e3cSJeremy Morse // list SP as preserved. Assume that call instructions never clobber SP, 1240fba06e3cSJeremy Morse // because some backends (e.g., AArch64) never list SP in the regmask. 1241fba06e3cSJeremy Morse // While the debug info may be off for an instruction or two around 1242fba06e3cSJeremy Morse // callee-cleanup calls, transferring the DEBUG_VALUE across the call is 1243fba06e3cSJeremy Morse // still a better user experience. 1244fba06e3cSJeremy Morse if (Reg == SP) 1245fba06e3cSJeremy Morse continue; 1246fba06e3cSJeremy Morse bool AnyRegMaskKillsReg = 1247fba06e3cSJeremy Morse any_of(RegMasks, [Reg](const uint32_t *RegMask) { 1248fba06e3cSJeremy Morse return MachineOperand::clobbersPhysReg(RegMask, Reg); 1249fba06e3cSJeremy Morse }); 1250fba06e3cSJeremy Morse if (AnyRegMaskKillsReg) 1251fba06e3cSJeremy Morse DeadRegs.insert(Reg); 1252fba06e3cSJeremy Morse } 1253fba06e3cSJeremy Morse } 1254fba06e3cSJeremy Morse 1255fba06e3cSJeremy Morse if (DeadRegs.empty()) 1256fba06e3cSJeremy Morse return; 1257fba06e3cSJeremy Morse 1258fba06e3cSJeremy Morse VarLocSet KillSet(Alloc); 1259fba06e3cSJeremy Morse collectIDsForRegs(KillSet, DeadRegs, OpenRanges.getVarLocs()); 1260fba06e3cSJeremy Morse OpenRanges.erase(KillSet, VarLocIDs); 1261fba06e3cSJeremy Morse 1262*20bb9fe5SJeremy Morse if (TPC) { 1263fba06e3cSJeremy Morse auto &TM = TPC->getTM<TargetMachine>(); 1264fba06e3cSJeremy Morse if (TM.Options.ShouldEmitDebugEntryValues()) 1265fba06e3cSJeremy Morse emitEntryValues(MI, OpenRanges, VarLocIDs, Transfers, KillSet); 1266fba06e3cSJeremy Morse } 1267fba06e3cSJeremy Morse } 1268fba06e3cSJeremy Morse 1269*20bb9fe5SJeremy Morse bool VarLocBasedLDV::isSpillInstruction(const MachineInstr &MI, 1270fba06e3cSJeremy Morse MachineFunction *MF) { 1271fba06e3cSJeremy Morse // TODO: Handle multiple stores folded into one. 1272fba06e3cSJeremy Morse if (!MI.hasOneMemOperand()) 1273fba06e3cSJeremy Morse return false; 1274fba06e3cSJeremy Morse 1275fba06e3cSJeremy Morse if (!MI.getSpillSize(TII) && !MI.getFoldedSpillSize(TII)) 1276fba06e3cSJeremy Morse return false; // This is not a spill instruction, since no valid size was 1277fba06e3cSJeremy Morse // returned from either function. 1278fba06e3cSJeremy Morse 1279fba06e3cSJeremy Morse return true; 1280fba06e3cSJeremy Morse } 1281fba06e3cSJeremy Morse 1282*20bb9fe5SJeremy Morse bool VarLocBasedLDV::isLocationSpill(const MachineInstr &MI, 1283fba06e3cSJeremy Morse MachineFunction *MF, Register &Reg) { 1284fba06e3cSJeremy Morse if (!isSpillInstruction(MI, MF)) 1285fba06e3cSJeremy Morse return false; 1286fba06e3cSJeremy Morse 1287fba06e3cSJeremy Morse auto isKilledReg = [&](const MachineOperand MO, Register &Reg) { 1288fba06e3cSJeremy Morse if (!MO.isReg() || !MO.isUse()) { 1289fba06e3cSJeremy Morse Reg = 0; 1290fba06e3cSJeremy Morse return false; 1291fba06e3cSJeremy Morse } 1292fba06e3cSJeremy Morse Reg = MO.getReg(); 1293fba06e3cSJeremy Morse return MO.isKill(); 1294fba06e3cSJeremy Morse }; 1295fba06e3cSJeremy Morse 1296fba06e3cSJeremy Morse for (const MachineOperand &MO : MI.operands()) { 1297fba06e3cSJeremy Morse // In a spill instruction generated by the InlineSpiller the spilled 1298fba06e3cSJeremy Morse // register has its kill flag set. 1299fba06e3cSJeremy Morse if (isKilledReg(MO, Reg)) 1300fba06e3cSJeremy Morse return true; 1301fba06e3cSJeremy Morse if (Reg != 0) { 1302fba06e3cSJeremy Morse // Check whether next instruction kills the spilled register. 1303fba06e3cSJeremy Morse // FIXME: Current solution does not cover search for killed register in 1304fba06e3cSJeremy Morse // bundles and instructions further down the chain. 1305fba06e3cSJeremy Morse auto NextI = std::next(MI.getIterator()); 1306fba06e3cSJeremy Morse // Skip next instruction that points to basic block end iterator. 1307fba06e3cSJeremy Morse if (MI.getParent()->end() == NextI) 1308fba06e3cSJeremy Morse continue; 1309fba06e3cSJeremy Morse Register RegNext; 1310fba06e3cSJeremy Morse for (const MachineOperand &MONext : NextI->operands()) { 1311fba06e3cSJeremy Morse // Return true if we came across the register from the 1312fba06e3cSJeremy Morse // previous spill instruction that is killed in NextI. 1313fba06e3cSJeremy Morse if (isKilledReg(MONext, RegNext) && RegNext == Reg) 1314fba06e3cSJeremy Morse return true; 1315fba06e3cSJeremy Morse } 1316fba06e3cSJeremy Morse } 1317fba06e3cSJeremy Morse } 1318fba06e3cSJeremy Morse // Return false if we didn't find spilled register. 1319fba06e3cSJeremy Morse return false; 1320fba06e3cSJeremy Morse } 1321fba06e3cSJeremy Morse 1322*20bb9fe5SJeremy Morse Optional<VarLocBasedLDV::VarLoc::SpillLoc> 1323*20bb9fe5SJeremy Morse VarLocBasedLDV::isRestoreInstruction(const MachineInstr &MI, 1324fba06e3cSJeremy Morse MachineFunction *MF, Register &Reg) { 1325fba06e3cSJeremy Morse if (!MI.hasOneMemOperand()) 1326fba06e3cSJeremy Morse return None; 1327fba06e3cSJeremy Morse 1328fba06e3cSJeremy Morse // FIXME: Handle folded restore instructions with more than one memory 1329fba06e3cSJeremy Morse // operand. 1330fba06e3cSJeremy Morse if (MI.getRestoreSize(TII)) { 1331fba06e3cSJeremy Morse Reg = MI.getOperand(0).getReg(); 1332fba06e3cSJeremy Morse return extractSpillBaseRegAndOffset(MI); 1333fba06e3cSJeremy Morse } 1334fba06e3cSJeremy Morse return None; 1335fba06e3cSJeremy Morse } 1336fba06e3cSJeremy Morse 1337fba06e3cSJeremy Morse /// A spilled register may indicate that we have to end the current range of 1338fba06e3cSJeremy Morse /// a variable and create a new one for the spill location. 1339fba06e3cSJeremy Morse /// A restored register may indicate the reverse situation. 1340fba06e3cSJeremy Morse /// We don't want to insert any instructions in process(), so we just create 1341fba06e3cSJeremy Morse /// the DBG_VALUE without inserting it and keep track of it in \p Transfers. 1342fba06e3cSJeremy Morse /// It will be inserted into the BB when we're done iterating over the 1343fba06e3cSJeremy Morse /// instructions. 1344*20bb9fe5SJeremy Morse void VarLocBasedLDV::transferSpillOrRestoreInst(MachineInstr &MI, 1345fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1346fba06e3cSJeremy Morse VarLocMap &VarLocIDs, 1347fba06e3cSJeremy Morse TransferMap &Transfers) { 1348fba06e3cSJeremy Morse MachineFunction *MF = MI.getMF(); 1349fba06e3cSJeremy Morse TransferKind TKind; 1350fba06e3cSJeremy Morse Register Reg; 1351fba06e3cSJeremy Morse Optional<VarLoc::SpillLoc> Loc; 1352fba06e3cSJeremy Morse 1353fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Examining instruction: "; MI.dump();); 1354fba06e3cSJeremy Morse 1355fba06e3cSJeremy Morse // First, if there are any DBG_VALUEs pointing at a spill slot that is 1356fba06e3cSJeremy Morse // written to, then close the variable location. The value in memory 1357fba06e3cSJeremy Morse // will have changed. 1358fba06e3cSJeremy Morse VarLocSet KillSet(Alloc); 1359fba06e3cSJeremy Morse if (isSpillInstruction(MI, MF)) { 1360fba06e3cSJeremy Morse Loc = extractSpillBaseRegAndOffset(MI); 1361fba06e3cSJeremy Morse for (uint64_t ID : OpenRanges.getSpillVarLocs()) { 1362fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1363fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[Idx]; 1364fba06e3cSJeremy Morse assert(VL.Kind == VarLoc::SpillLocKind && "Broken VarLocSet?"); 1365fba06e3cSJeremy Morse if (VL.Loc.SpillLocation == *Loc) { 1366fba06e3cSJeremy Morse // This location is overwritten by the current instruction -- terminate 1367fba06e3cSJeremy Morse // the open range, and insert an explicit DBG_VALUE $noreg. 1368fba06e3cSJeremy Morse // 1369fba06e3cSJeremy Morse // Doing this at a later stage would require re-interpreting all 1370fba06e3cSJeremy Morse // DBG_VALUes and DIExpressions to identify whether they point at 1371fba06e3cSJeremy Morse // memory, and then analysing all memory writes to see if they 1372fba06e3cSJeremy Morse // overwrite that memory, which is expensive. 1373fba06e3cSJeremy Morse // 1374fba06e3cSJeremy Morse // At this stage, we already know which DBG_VALUEs are for spills and 1375fba06e3cSJeremy Morse // where they are located; it's best to fix handle overwrites now. 1376fba06e3cSJeremy Morse KillSet.set(ID); 1377fba06e3cSJeremy Morse VarLoc UndefVL = VarLoc::CreateCopyLoc(VL.MI, LS, 0); 1378fba06e3cSJeremy Morse LocIndex UndefLocID = VarLocIDs.insert(UndefVL); 1379fba06e3cSJeremy Morse Transfers.push_back({&MI, UndefLocID}); 1380fba06e3cSJeremy Morse } 1381fba06e3cSJeremy Morse } 1382fba06e3cSJeremy Morse OpenRanges.erase(KillSet, VarLocIDs); 1383fba06e3cSJeremy Morse } 1384fba06e3cSJeremy Morse 1385fba06e3cSJeremy Morse // Try to recognise spill and restore instructions that may create a new 1386fba06e3cSJeremy Morse // variable location. 1387fba06e3cSJeremy Morse if (isLocationSpill(MI, MF, Reg)) { 1388fba06e3cSJeremy Morse TKind = TransferKind::TransferSpill; 1389fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Recognized as spill: "; MI.dump();); 1390fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Register: " << Reg << " " << printReg(Reg, TRI) 1391fba06e3cSJeremy Morse << "\n"); 1392fba06e3cSJeremy Morse } else { 1393fba06e3cSJeremy Morse if (!(Loc = isRestoreInstruction(MI, MF, Reg))) 1394fba06e3cSJeremy Morse return; 1395fba06e3cSJeremy Morse TKind = TransferKind::TransferRestore; 1396fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Recognized as restore: "; MI.dump();); 1397fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Register: " << Reg << " " << printReg(Reg, TRI) 1398fba06e3cSJeremy Morse << "\n"); 1399fba06e3cSJeremy Morse } 1400fba06e3cSJeremy Morse // Check if the register or spill location is the location of a debug value. 1401fba06e3cSJeremy Morse auto TransferCandidates = OpenRanges.getEmptyVarLocRange(); 1402fba06e3cSJeremy Morse if (TKind == TransferKind::TransferSpill) 1403fba06e3cSJeremy Morse TransferCandidates = OpenRanges.getRegisterVarLocs(Reg); 1404fba06e3cSJeremy Morse else if (TKind == TransferKind::TransferRestore) 1405fba06e3cSJeremy Morse TransferCandidates = OpenRanges.getSpillVarLocs(); 1406fba06e3cSJeremy Morse for (uint64_t ID : TransferCandidates) { 1407fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1408fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[Idx]; 1409fba06e3cSJeremy Morse if (TKind == TransferKind::TransferSpill) { 1410fba06e3cSJeremy Morse assert(VL.isDescribedByReg() == Reg && "Broken VarLocSet?"); 1411fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Spilling Register " << printReg(Reg, TRI) << '(' 1412fba06e3cSJeremy Morse << VL.Var.getVariable()->getName() << ")\n"); 1413fba06e3cSJeremy Morse } else { 1414fba06e3cSJeremy Morse assert(TKind == TransferKind::TransferRestore && 1415fba06e3cSJeremy Morse VL.Kind == VarLoc::SpillLocKind && "Broken VarLocSet?"); 1416fba06e3cSJeremy Morse if (VL.Loc.SpillLocation != *Loc) 1417fba06e3cSJeremy Morse // The spill location is not the location of a debug value. 1418fba06e3cSJeremy Morse continue; 1419fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Restoring Register " << printReg(Reg, TRI) << '(' 1420fba06e3cSJeremy Morse << VL.Var.getVariable()->getName() << ")\n"); 1421fba06e3cSJeremy Morse } 1422fba06e3cSJeremy Morse insertTransferDebugPair(MI, OpenRanges, Transfers, VarLocIDs, Idx, TKind, 1423fba06e3cSJeremy Morse Reg); 1424fba06e3cSJeremy Morse // FIXME: A comment should explain why it's correct to return early here, 1425fba06e3cSJeremy Morse // if that is in fact correct. 1426fba06e3cSJeremy Morse return; 1427fba06e3cSJeremy Morse } 1428fba06e3cSJeremy Morse } 1429fba06e3cSJeremy Morse 1430fba06e3cSJeremy Morse /// If \p MI is a register copy instruction, that copies a previously tracked 1431fba06e3cSJeremy Morse /// value from one register to another register that is callee saved, we 1432fba06e3cSJeremy Morse /// create new DBG_VALUE instruction described with copy destination register. 1433*20bb9fe5SJeremy Morse void VarLocBasedLDV::transferRegisterCopy(MachineInstr &MI, 1434fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1435fba06e3cSJeremy Morse VarLocMap &VarLocIDs, 1436fba06e3cSJeremy Morse TransferMap &Transfers) { 1437fba06e3cSJeremy Morse auto DestSrc = TII->isCopyInstr(MI); 1438fba06e3cSJeremy Morse if (!DestSrc) 1439fba06e3cSJeremy Morse return; 1440fba06e3cSJeremy Morse 1441fba06e3cSJeremy Morse const MachineOperand *DestRegOp = DestSrc->Destination; 1442fba06e3cSJeremy Morse const MachineOperand *SrcRegOp = DestSrc->Source; 1443fba06e3cSJeremy Morse 1444fba06e3cSJeremy Morse if (!DestRegOp->isDef()) 1445fba06e3cSJeremy Morse return; 1446fba06e3cSJeremy Morse 1447fba06e3cSJeremy Morse auto isCalleeSavedReg = [&](Register Reg) { 1448fba06e3cSJeremy Morse for (MCRegAliasIterator RAI(Reg, TRI, true); RAI.isValid(); ++RAI) 1449fba06e3cSJeremy Morse if (CalleeSavedRegs.test(*RAI)) 1450fba06e3cSJeremy Morse return true; 1451fba06e3cSJeremy Morse return false; 1452fba06e3cSJeremy Morse }; 1453fba06e3cSJeremy Morse 1454fba06e3cSJeremy Morse Register SrcReg = SrcRegOp->getReg(); 1455fba06e3cSJeremy Morse Register DestReg = DestRegOp->getReg(); 1456fba06e3cSJeremy Morse 1457fba06e3cSJeremy Morse // We want to recognize instructions where destination register is callee 1458fba06e3cSJeremy Morse // saved register. If register that could be clobbered by the call is 1459fba06e3cSJeremy Morse // included, there would be a great chance that it is going to be clobbered 1460fba06e3cSJeremy Morse // soon. It is more likely that previous register location, which is callee 1461fba06e3cSJeremy Morse // saved, is going to stay unclobbered longer, even if it is killed. 1462fba06e3cSJeremy Morse if (!isCalleeSavedReg(DestReg)) 1463fba06e3cSJeremy Morse return; 1464fba06e3cSJeremy Morse 1465fba06e3cSJeremy Morse // Remember an entry value movement. If we encounter a new debug value of 1466fba06e3cSJeremy Morse // a parameter describing only a moving of the value around, rather then 1467fba06e3cSJeremy Morse // modifying it, we are still able to use the entry value if needed. 1468fba06e3cSJeremy Morse if (isRegOtherThanSPAndFP(*DestRegOp, MI, TRI)) { 1469fba06e3cSJeremy Morse for (uint64_t ID : OpenRanges.getEntryValueBackupVarLocs()) { 1470fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1471fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[Idx]; 1472fba06e3cSJeremy Morse if (VL.getEntryValueBackupReg() == SrcReg) { 1473fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Copy of the entry value: "; MI.dump();); 1474fba06e3cSJeremy Morse VarLoc EntryValLocCopyBackup = 1475fba06e3cSJeremy Morse VarLoc::CreateEntryCopyBackupLoc(VL.MI, LS, VL.Expr, DestReg); 1476fba06e3cSJeremy Morse 1477fba06e3cSJeremy Morse // Stop tracking the original entry value. 1478fba06e3cSJeremy Morse OpenRanges.erase(VL); 1479fba06e3cSJeremy Morse 1480fba06e3cSJeremy Morse // Start tracking the entry value copy. 1481fba06e3cSJeremy Morse LocIndex EntryValCopyLocID = VarLocIDs.insert(EntryValLocCopyBackup); 1482fba06e3cSJeremy Morse OpenRanges.insert(EntryValCopyLocID, EntryValLocCopyBackup); 1483fba06e3cSJeremy Morse break; 1484fba06e3cSJeremy Morse } 1485fba06e3cSJeremy Morse } 1486fba06e3cSJeremy Morse } 1487fba06e3cSJeremy Morse 1488fba06e3cSJeremy Morse if (!SrcRegOp->isKill()) 1489fba06e3cSJeremy Morse return; 1490fba06e3cSJeremy Morse 1491fba06e3cSJeremy Morse for (uint64_t ID : OpenRanges.getRegisterVarLocs(SrcReg)) { 1492fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1493fba06e3cSJeremy Morse assert(VarLocIDs[Idx].isDescribedByReg() == SrcReg && "Broken VarLocSet?"); 1494fba06e3cSJeremy Morse insertTransferDebugPair(MI, OpenRanges, Transfers, VarLocIDs, Idx, 1495fba06e3cSJeremy Morse TransferKind::TransferCopy, DestReg); 1496fba06e3cSJeremy Morse // FIXME: A comment should explain why it's correct to return early here, 1497fba06e3cSJeremy Morse // if that is in fact correct. 1498fba06e3cSJeremy Morse return; 1499fba06e3cSJeremy Morse } 1500fba06e3cSJeremy Morse } 1501fba06e3cSJeremy Morse 1502fba06e3cSJeremy Morse /// Terminate all open ranges at the end of the current basic block. 1503*20bb9fe5SJeremy Morse bool VarLocBasedLDV::transferTerminator(MachineBasicBlock *CurMBB, 1504fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1505fba06e3cSJeremy Morse VarLocInMBB &OutLocs, 1506fba06e3cSJeremy Morse const VarLocMap &VarLocIDs) { 1507fba06e3cSJeremy Morse bool Changed = false; 1508fba06e3cSJeremy Morse 1509fba06e3cSJeremy Morse LLVM_DEBUG(for (uint64_t ID 1510fba06e3cSJeremy Morse : OpenRanges.getVarLocs()) { 1511fba06e3cSJeremy Morse // Copy OpenRanges to OutLocs, if not already present. 1512fba06e3cSJeremy Morse dbgs() << "Add to OutLocs in MBB #" << CurMBB->getNumber() << ": "; 1513fba06e3cSJeremy Morse VarLocIDs[LocIndex::fromRawInteger(ID)].dump(TRI); 1514fba06e3cSJeremy Morse }); 1515fba06e3cSJeremy Morse VarLocSet &VLS = getVarLocsInMBB(CurMBB, OutLocs); 1516fba06e3cSJeremy Morse Changed = VLS != OpenRanges.getVarLocs(); 1517fba06e3cSJeremy Morse // New OutLocs set may be different due to spill, restore or register 1518fba06e3cSJeremy Morse // copy instruction processing. 1519fba06e3cSJeremy Morse if (Changed) 1520fba06e3cSJeremy Morse VLS = OpenRanges.getVarLocs(); 1521fba06e3cSJeremy Morse OpenRanges.clear(); 1522fba06e3cSJeremy Morse return Changed; 1523fba06e3cSJeremy Morse } 1524fba06e3cSJeremy Morse 1525fba06e3cSJeremy Morse /// Accumulate a mapping between each DILocalVariable fragment and other 1526fba06e3cSJeremy Morse /// fragments of that DILocalVariable which overlap. This reduces work during 1527fba06e3cSJeremy Morse /// the data-flow stage from "Find any overlapping fragments" to "Check if the 1528fba06e3cSJeremy Morse /// known-to-overlap fragments are present". 1529fba06e3cSJeremy Morse /// \param MI A previously unprocessed DEBUG_VALUE instruction to analyze for 1530fba06e3cSJeremy Morse /// fragment usage. 1531fba06e3cSJeremy Morse /// \param SeenFragments Map from DILocalVariable to all fragments of that 1532fba06e3cSJeremy Morse /// Variable which are known to exist. 1533fba06e3cSJeremy Morse /// \param OverlappingFragments The overlap map being constructed, from one 1534fba06e3cSJeremy Morse /// Var/Fragment pair to a vector of fragments known to overlap. 1535*20bb9fe5SJeremy Morse void VarLocBasedLDV::accumulateFragmentMap(MachineInstr &MI, 1536fba06e3cSJeremy Morse VarToFragments &SeenFragments, 1537fba06e3cSJeremy Morse OverlapMap &OverlappingFragments) { 1538fba06e3cSJeremy Morse DebugVariable MIVar(MI.getDebugVariable(), MI.getDebugExpression(), 1539fba06e3cSJeremy Morse MI.getDebugLoc()->getInlinedAt()); 1540fba06e3cSJeremy Morse FragmentInfo ThisFragment = MIVar.getFragmentOrDefault(); 1541fba06e3cSJeremy Morse 1542fba06e3cSJeremy Morse // If this is the first sighting of this variable, then we are guaranteed 1543fba06e3cSJeremy Morse // there are currently no overlapping fragments either. Initialize the set 1544fba06e3cSJeremy Morse // of seen fragments, record no overlaps for the current one, and return. 1545fba06e3cSJeremy Morse auto SeenIt = SeenFragments.find(MIVar.getVariable()); 1546fba06e3cSJeremy Morse if (SeenIt == SeenFragments.end()) { 1547fba06e3cSJeremy Morse SmallSet<FragmentInfo, 4> OneFragment; 1548fba06e3cSJeremy Morse OneFragment.insert(ThisFragment); 1549fba06e3cSJeremy Morse SeenFragments.insert({MIVar.getVariable(), OneFragment}); 1550fba06e3cSJeremy Morse 1551fba06e3cSJeremy Morse OverlappingFragments.insert({{MIVar.getVariable(), ThisFragment}, {}}); 1552fba06e3cSJeremy Morse return; 1553fba06e3cSJeremy Morse } 1554fba06e3cSJeremy Morse 1555fba06e3cSJeremy Morse // If this particular Variable/Fragment pair already exists in the overlap 1556fba06e3cSJeremy Morse // map, it has already been accounted for. 1557fba06e3cSJeremy Morse auto IsInOLapMap = 1558fba06e3cSJeremy Morse OverlappingFragments.insert({{MIVar.getVariable(), ThisFragment}, {}}); 1559fba06e3cSJeremy Morse if (!IsInOLapMap.second) 1560fba06e3cSJeremy Morse return; 1561fba06e3cSJeremy Morse 1562fba06e3cSJeremy Morse auto &ThisFragmentsOverlaps = IsInOLapMap.first->second; 1563fba06e3cSJeremy Morse auto &AllSeenFragments = SeenIt->second; 1564fba06e3cSJeremy Morse 1565fba06e3cSJeremy Morse // Otherwise, examine all other seen fragments for this variable, with "this" 1566fba06e3cSJeremy Morse // fragment being a previously unseen fragment. Record any pair of 1567fba06e3cSJeremy Morse // overlapping fragments. 1568fba06e3cSJeremy Morse for (auto &ASeenFragment : AllSeenFragments) { 1569fba06e3cSJeremy Morse // Does this previously seen fragment overlap? 1570fba06e3cSJeremy Morse if (DIExpression::fragmentsOverlap(ThisFragment, ASeenFragment)) { 1571fba06e3cSJeremy Morse // Yes: Mark the current fragment as being overlapped. 1572fba06e3cSJeremy Morse ThisFragmentsOverlaps.push_back(ASeenFragment); 1573fba06e3cSJeremy Morse // Mark the previously seen fragment as being overlapped by the current 1574fba06e3cSJeremy Morse // one. 1575fba06e3cSJeremy Morse auto ASeenFragmentsOverlaps = 1576fba06e3cSJeremy Morse OverlappingFragments.find({MIVar.getVariable(), ASeenFragment}); 1577fba06e3cSJeremy Morse assert(ASeenFragmentsOverlaps != OverlappingFragments.end() && 1578fba06e3cSJeremy Morse "Previously seen var fragment has no vector of overlaps"); 1579fba06e3cSJeremy Morse ASeenFragmentsOverlaps->second.push_back(ThisFragment); 1580fba06e3cSJeremy Morse } 1581fba06e3cSJeremy Morse } 1582fba06e3cSJeremy Morse 1583fba06e3cSJeremy Morse AllSeenFragments.insert(ThisFragment); 1584fba06e3cSJeremy Morse } 1585fba06e3cSJeremy Morse 1586fba06e3cSJeremy Morse /// This routine creates OpenRanges. 1587*20bb9fe5SJeremy Morse void VarLocBasedLDV::process(MachineInstr &MI, OpenRangesSet &OpenRanges, 1588fba06e3cSJeremy Morse VarLocMap &VarLocIDs, TransferMap &Transfers) { 1589fba06e3cSJeremy Morse transferDebugValue(MI, OpenRanges, VarLocIDs); 1590fba06e3cSJeremy Morse transferRegisterDef(MI, OpenRanges, VarLocIDs, Transfers); 1591fba06e3cSJeremy Morse transferRegisterCopy(MI, OpenRanges, VarLocIDs, Transfers); 1592fba06e3cSJeremy Morse transferSpillOrRestoreInst(MI, OpenRanges, VarLocIDs, Transfers); 1593fba06e3cSJeremy Morse } 1594fba06e3cSJeremy Morse 1595fba06e3cSJeremy Morse /// This routine joins the analysis results of all incoming edges in @MBB by 1596fba06e3cSJeremy Morse /// inserting a new DBG_VALUE instruction at the start of the @MBB - if the same 1597fba06e3cSJeremy Morse /// source variable in all the predecessors of @MBB reside in the same location. 1598*20bb9fe5SJeremy Morse bool VarLocBasedLDV::join( 1599fba06e3cSJeremy Morse MachineBasicBlock &MBB, VarLocInMBB &OutLocs, VarLocInMBB &InLocs, 1600fba06e3cSJeremy Morse const VarLocMap &VarLocIDs, 1601fba06e3cSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 16> &Visited, 1602fba06e3cSJeremy Morse SmallPtrSetImpl<const MachineBasicBlock *> &ArtificialBlocks) { 1603fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "join MBB: " << MBB.getNumber() << "\n"); 1604fba06e3cSJeremy Morse 1605fba06e3cSJeremy Morse VarLocSet InLocsT(Alloc); // Temporary incoming locations. 1606fba06e3cSJeremy Morse 1607fba06e3cSJeremy Morse // For all predecessors of this MBB, find the set of VarLocs that 1608fba06e3cSJeremy Morse // can be joined. 1609fba06e3cSJeremy Morse int NumVisited = 0; 1610fba06e3cSJeremy Morse for (auto p : MBB.predecessors()) { 1611fba06e3cSJeremy Morse // Ignore backedges if we have not visited the predecessor yet. As the 1612fba06e3cSJeremy Morse // predecessor hasn't yet had locations propagated into it, most locations 1613fba06e3cSJeremy Morse // will not yet be valid, so treat them as all being uninitialized and 1614fba06e3cSJeremy Morse // potentially valid. If a location guessed to be correct here is 1615fba06e3cSJeremy Morse // invalidated later, we will remove it when we revisit this block. 1616fba06e3cSJeremy Morse if (!Visited.count(p)) { 1617fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << " ignoring unvisited pred MBB: " << p->getNumber() 1618fba06e3cSJeremy Morse << "\n"); 1619fba06e3cSJeremy Morse continue; 1620fba06e3cSJeremy Morse } 1621fba06e3cSJeremy Morse auto OL = OutLocs.find(p); 1622fba06e3cSJeremy Morse // Join is null in case of empty OutLocs from any of the pred. 1623fba06e3cSJeremy Morse if (OL == OutLocs.end()) 1624fba06e3cSJeremy Morse return false; 1625fba06e3cSJeremy Morse 1626fba06e3cSJeremy Morse // Just copy over the Out locs to incoming locs for the first visited 1627fba06e3cSJeremy Morse // predecessor, and for all other predecessors join the Out locs. 1628fba06e3cSJeremy Morse VarLocSet &OutLocVLS = *OL->second.get(); 1629fba06e3cSJeremy Morse if (!NumVisited) 1630fba06e3cSJeremy Morse InLocsT = OutLocVLS; 1631fba06e3cSJeremy Morse else 1632fba06e3cSJeremy Morse InLocsT &= OutLocVLS; 1633fba06e3cSJeremy Morse 1634fba06e3cSJeremy Morse LLVM_DEBUG({ 1635fba06e3cSJeremy Morse if (!InLocsT.empty()) { 1636fba06e3cSJeremy Morse for (uint64_t ID : InLocsT) 1637fba06e3cSJeremy Morse dbgs() << " gathered candidate incoming var: " 1638fba06e3cSJeremy Morse << VarLocIDs[LocIndex::fromRawInteger(ID)] 1639fba06e3cSJeremy Morse .Var.getVariable() 1640fba06e3cSJeremy Morse ->getName() 1641fba06e3cSJeremy Morse << "\n"; 1642fba06e3cSJeremy Morse } 1643fba06e3cSJeremy Morse }); 1644fba06e3cSJeremy Morse 1645fba06e3cSJeremy Morse NumVisited++; 1646fba06e3cSJeremy Morse } 1647fba06e3cSJeremy Morse 1648fba06e3cSJeremy Morse // Filter out DBG_VALUES that are out of scope. 1649fba06e3cSJeremy Morse VarLocSet KillSet(Alloc); 1650fba06e3cSJeremy Morse bool IsArtificial = ArtificialBlocks.count(&MBB); 1651fba06e3cSJeremy Morse if (!IsArtificial) { 1652fba06e3cSJeremy Morse for (uint64_t ID : InLocsT) { 1653fba06e3cSJeremy Morse LocIndex Idx = LocIndex::fromRawInteger(ID); 1654fba06e3cSJeremy Morse if (!VarLocIDs[Idx].dominates(LS, MBB)) { 1655fba06e3cSJeremy Morse KillSet.set(ID); 1656fba06e3cSJeremy Morse LLVM_DEBUG({ 1657fba06e3cSJeremy Morse auto Name = VarLocIDs[Idx].Var.getVariable()->getName(); 1658fba06e3cSJeremy Morse dbgs() << " killing " << Name << ", it doesn't dominate MBB\n"; 1659fba06e3cSJeremy Morse }); 1660fba06e3cSJeremy Morse } 1661fba06e3cSJeremy Morse } 1662fba06e3cSJeremy Morse } 1663fba06e3cSJeremy Morse InLocsT.intersectWithComplement(KillSet); 1664fba06e3cSJeremy Morse 1665fba06e3cSJeremy Morse // As we are processing blocks in reverse post-order we 1666fba06e3cSJeremy Morse // should have processed at least one predecessor, unless it 1667fba06e3cSJeremy Morse // is the entry block which has no predecessor. 1668fba06e3cSJeremy Morse assert((NumVisited || MBB.pred_empty()) && 1669fba06e3cSJeremy Morse "Should have processed at least one predecessor"); 1670fba06e3cSJeremy Morse 1671fba06e3cSJeremy Morse VarLocSet &ILS = getVarLocsInMBB(&MBB, InLocs); 1672fba06e3cSJeremy Morse bool Changed = false; 1673fba06e3cSJeremy Morse if (ILS != InLocsT) { 1674fba06e3cSJeremy Morse ILS = InLocsT; 1675fba06e3cSJeremy Morse Changed = true; 1676fba06e3cSJeremy Morse } 1677fba06e3cSJeremy Morse 1678fba06e3cSJeremy Morse return Changed; 1679fba06e3cSJeremy Morse } 1680fba06e3cSJeremy Morse 1681*20bb9fe5SJeremy Morse void VarLocBasedLDV::flushPendingLocs(VarLocInMBB &PendingInLocs, 1682fba06e3cSJeremy Morse VarLocMap &VarLocIDs) { 1683fba06e3cSJeremy Morse // PendingInLocs records all locations propagated into blocks, which have 1684fba06e3cSJeremy Morse // not had DBG_VALUE insts created. Go through and create those insts now. 1685fba06e3cSJeremy Morse for (auto &Iter : PendingInLocs) { 1686fba06e3cSJeremy Morse // Map is keyed on a constant pointer, unwrap it so we can insert insts. 1687fba06e3cSJeremy Morse auto &MBB = const_cast<MachineBasicBlock &>(*Iter.first); 1688fba06e3cSJeremy Morse VarLocSet &Pending = *Iter.second.get(); 1689fba06e3cSJeremy Morse 1690fba06e3cSJeremy Morse for (uint64_t ID : Pending) { 1691fba06e3cSJeremy Morse // The ID location is live-in to MBB -- work out what kind of machine 1692fba06e3cSJeremy Morse // location it is and create a DBG_VALUE. 1693fba06e3cSJeremy Morse const VarLoc &DiffIt = VarLocIDs[LocIndex::fromRawInteger(ID)]; 1694fba06e3cSJeremy Morse if (DiffIt.isEntryBackupLoc()) 1695fba06e3cSJeremy Morse continue; 1696fba06e3cSJeremy Morse MachineInstr *MI = DiffIt.BuildDbgValue(*MBB.getParent()); 1697fba06e3cSJeremy Morse MBB.insert(MBB.instr_begin(), MI); 1698fba06e3cSJeremy Morse 1699fba06e3cSJeremy Morse (void)MI; 1700fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Inserted: "; MI->dump();); 1701fba06e3cSJeremy Morse } 1702fba06e3cSJeremy Morse } 1703fba06e3cSJeremy Morse } 1704fba06e3cSJeremy Morse 1705*20bb9fe5SJeremy Morse bool VarLocBasedLDV::isEntryValueCandidate( 1706fba06e3cSJeremy Morse const MachineInstr &MI, const DefinedRegsSet &DefinedRegs) const { 1707fba06e3cSJeremy Morse assert(MI.isDebugValue() && "This must be DBG_VALUE."); 1708fba06e3cSJeremy Morse 1709fba06e3cSJeremy Morse // TODO: Add support for local variables that are expressed in terms of 1710fba06e3cSJeremy Morse // parameters entry values. 1711fba06e3cSJeremy Morse // TODO: Add support for modified arguments that can be expressed 1712fba06e3cSJeremy Morse // by using its entry value. 1713fba06e3cSJeremy Morse auto *DIVar = MI.getDebugVariable(); 1714fba06e3cSJeremy Morse if (!DIVar->isParameter()) 1715fba06e3cSJeremy Morse return false; 1716fba06e3cSJeremy Morse 1717fba06e3cSJeremy Morse // Do not consider parameters that belong to an inlined function. 1718fba06e3cSJeremy Morse if (MI.getDebugLoc()->getInlinedAt()) 1719fba06e3cSJeremy Morse return false; 1720fba06e3cSJeremy Morse 1721fba06e3cSJeremy Morse // Only consider parameters that are described using registers. Parameters 1722fba06e3cSJeremy Morse // that are passed on the stack are not yet supported, so ignore debug 1723fba06e3cSJeremy Morse // values that are described by the frame or stack pointer. 1724fba06e3cSJeremy Morse if (!isRegOtherThanSPAndFP(MI.getDebugOperand(0), MI, TRI)) 1725fba06e3cSJeremy Morse return false; 1726fba06e3cSJeremy Morse 1727fba06e3cSJeremy Morse // If a parameter's value has been propagated from the caller, then the 1728fba06e3cSJeremy Morse // parameter's DBG_VALUE may be described using a register defined by some 1729fba06e3cSJeremy Morse // instruction in the entry block, in which case we shouldn't create an 1730fba06e3cSJeremy Morse // entry value. 1731fba06e3cSJeremy Morse if (DefinedRegs.count(MI.getDebugOperand(0).getReg())) 1732fba06e3cSJeremy Morse return false; 1733fba06e3cSJeremy Morse 1734fba06e3cSJeremy Morse // TODO: Add support for parameters that have a pre-existing debug expressions 1735fba06e3cSJeremy Morse // (e.g. fragments). 1736fba06e3cSJeremy Morse if (MI.getDebugExpression()->getNumElements() > 0) 1737fba06e3cSJeremy Morse return false; 1738fba06e3cSJeremy Morse 1739fba06e3cSJeremy Morse return true; 1740fba06e3cSJeremy Morse } 1741fba06e3cSJeremy Morse 1742fba06e3cSJeremy Morse /// Collect all register defines (including aliases) for the given instruction. 1743fba06e3cSJeremy Morse static void collectRegDefs(const MachineInstr &MI, DefinedRegsSet &Regs, 1744fba06e3cSJeremy Morse const TargetRegisterInfo *TRI) { 1745fba06e3cSJeremy Morse for (const MachineOperand &MO : MI.operands()) 1746fba06e3cSJeremy Morse if (MO.isReg() && MO.isDef() && MO.getReg()) 1747fba06e3cSJeremy Morse for (MCRegAliasIterator AI(MO.getReg(), TRI, true); AI.isValid(); ++AI) 1748fba06e3cSJeremy Morse Regs.insert(*AI); 1749fba06e3cSJeremy Morse } 1750fba06e3cSJeremy Morse 1751fba06e3cSJeremy Morse /// This routine records the entry values of function parameters. The values 1752fba06e3cSJeremy Morse /// could be used as backup values. If we loose the track of some unmodified 1753fba06e3cSJeremy Morse /// parameters, the backup values will be used as a primary locations. 1754*20bb9fe5SJeremy Morse void VarLocBasedLDV::recordEntryValue(const MachineInstr &MI, 1755fba06e3cSJeremy Morse const DefinedRegsSet &DefinedRegs, 1756fba06e3cSJeremy Morse OpenRangesSet &OpenRanges, 1757fba06e3cSJeremy Morse VarLocMap &VarLocIDs) { 1758*20bb9fe5SJeremy Morse if (TPC) { 1759fba06e3cSJeremy Morse auto &TM = TPC->getTM<TargetMachine>(); 1760fba06e3cSJeremy Morse if (!TM.Options.ShouldEmitDebugEntryValues()) 1761fba06e3cSJeremy Morse return; 1762fba06e3cSJeremy Morse } 1763fba06e3cSJeremy Morse 1764fba06e3cSJeremy Morse DebugVariable V(MI.getDebugVariable(), MI.getDebugExpression(), 1765fba06e3cSJeremy Morse MI.getDebugLoc()->getInlinedAt()); 1766fba06e3cSJeremy Morse 1767fba06e3cSJeremy Morse if (!isEntryValueCandidate(MI, DefinedRegs) || 1768fba06e3cSJeremy Morse OpenRanges.getEntryValueBackup(V)) 1769fba06e3cSJeremy Morse return; 1770fba06e3cSJeremy Morse 1771fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Creating the backup entry location: "; MI.dump();); 1772fba06e3cSJeremy Morse 1773fba06e3cSJeremy Morse // Create the entry value and use it as a backup location until it is 1774fba06e3cSJeremy Morse // valid. It is valid until a parameter is not changed. 1775fba06e3cSJeremy Morse DIExpression *NewExpr = 1776fba06e3cSJeremy Morse DIExpression::prepend(MI.getDebugExpression(), DIExpression::EntryValue); 1777fba06e3cSJeremy Morse VarLoc EntryValLocAsBackup = VarLoc::CreateEntryBackupLoc(MI, LS, NewExpr); 1778fba06e3cSJeremy Morse LocIndex EntryValLocID = VarLocIDs.insert(EntryValLocAsBackup); 1779fba06e3cSJeremy Morse OpenRanges.insert(EntryValLocID, EntryValLocAsBackup); 1780fba06e3cSJeremy Morse } 1781fba06e3cSJeremy Morse 1782fba06e3cSJeremy Morse /// Calculate the liveness information for the given machine function and 1783fba06e3cSJeremy Morse /// extend ranges across basic blocks. 1784*20bb9fe5SJeremy Morse bool VarLocBasedLDV::ExtendRanges(MachineFunction &MF, TargetPassConfig *TPC) { 1785fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "\nDebug Range Extension\n"); 1786fba06e3cSJeremy Morse 1787*20bb9fe5SJeremy Morse if (!MF.getFunction().getSubprogram()) 1788*20bb9fe5SJeremy Morse // VarLocBaseLDV will already have removed all DBG_VALUEs. 1789*20bb9fe5SJeremy Morse return false; 1790*20bb9fe5SJeremy Morse 1791*20bb9fe5SJeremy Morse // Skip functions from NoDebug compilation units. 1792*20bb9fe5SJeremy Morse if (MF.getFunction().getSubprogram()->getUnit()->getEmissionKind() == 1793*20bb9fe5SJeremy Morse DICompileUnit::NoDebug) 1794*20bb9fe5SJeremy Morse return false; 1795*20bb9fe5SJeremy Morse 1796*20bb9fe5SJeremy Morse TRI = MF.getSubtarget().getRegisterInfo(); 1797*20bb9fe5SJeremy Morse TII = MF.getSubtarget().getInstrInfo(); 1798*20bb9fe5SJeremy Morse TFI = MF.getSubtarget().getFrameLowering(); 1799*20bb9fe5SJeremy Morse TFI->getCalleeSaves(MF, CalleeSavedRegs); 1800*20bb9fe5SJeremy Morse this->TPC = TPC; 1801*20bb9fe5SJeremy Morse LS.initialize(MF); 1802*20bb9fe5SJeremy Morse 1803fba06e3cSJeremy Morse bool Changed = false; 1804fba06e3cSJeremy Morse bool OLChanged = false; 1805fba06e3cSJeremy Morse bool MBBJoined = false; 1806fba06e3cSJeremy Morse 1807fba06e3cSJeremy Morse VarLocMap VarLocIDs; // Map VarLoc<>unique ID for use in bitvectors. 1808fba06e3cSJeremy Morse OverlapMap OverlapFragments; // Map of overlapping variable fragments. 1809fba06e3cSJeremy Morse OpenRangesSet OpenRanges(Alloc, OverlapFragments); 1810fba06e3cSJeremy Morse // Ranges that are open until end of bb. 1811fba06e3cSJeremy Morse VarLocInMBB OutLocs; // Ranges that exist beyond bb. 1812fba06e3cSJeremy Morse VarLocInMBB InLocs; // Ranges that are incoming after joining. 1813fba06e3cSJeremy Morse TransferMap Transfers; // DBG_VALUEs associated with transfers (such as 1814fba06e3cSJeremy Morse // spills, copies and restores). 1815fba06e3cSJeremy Morse 1816fba06e3cSJeremy Morse VarToFragments SeenFragments; 1817fba06e3cSJeremy Morse 1818fba06e3cSJeremy Morse // Blocks which are artificial, i.e. blocks which exclusively contain 1819fba06e3cSJeremy Morse // instructions without locations, or with line 0 locations. 1820fba06e3cSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 16> ArtificialBlocks; 1821fba06e3cSJeremy Morse 1822fba06e3cSJeremy Morse DenseMap<unsigned int, MachineBasicBlock *> OrderToBB; 1823fba06e3cSJeremy Morse DenseMap<MachineBasicBlock *, unsigned int> BBToOrder; 1824fba06e3cSJeremy Morse std::priority_queue<unsigned int, std::vector<unsigned int>, 1825fba06e3cSJeremy Morse std::greater<unsigned int>> 1826fba06e3cSJeremy Morse Worklist; 1827fba06e3cSJeremy Morse std::priority_queue<unsigned int, std::vector<unsigned int>, 1828fba06e3cSJeremy Morse std::greater<unsigned int>> 1829fba06e3cSJeremy Morse Pending; 1830fba06e3cSJeremy Morse 1831fba06e3cSJeremy Morse // Set of register defines that are seen when traversing the entry block 1832fba06e3cSJeremy Morse // looking for debug entry value candidates. 1833fba06e3cSJeremy Morse DefinedRegsSet DefinedRegs; 1834fba06e3cSJeremy Morse 1835fba06e3cSJeremy Morse // Only in the case of entry MBB collect DBG_VALUEs representing 1836fba06e3cSJeremy Morse // function parameters in order to generate debug entry values for them. 1837fba06e3cSJeremy Morse MachineBasicBlock &First_MBB = *(MF.begin()); 1838fba06e3cSJeremy Morse for (auto &MI : First_MBB) { 1839fba06e3cSJeremy Morse collectRegDefs(MI, DefinedRegs, TRI); 1840fba06e3cSJeremy Morse if (MI.isDebugValue()) 1841fba06e3cSJeremy Morse recordEntryValue(MI, DefinedRegs, OpenRanges, VarLocIDs); 1842fba06e3cSJeremy Morse } 1843fba06e3cSJeremy Morse 1844fba06e3cSJeremy Morse // Initialize per-block structures and scan for fragment overlaps. 1845fba06e3cSJeremy Morse for (auto &MBB : MF) 1846fba06e3cSJeremy Morse for (auto &MI : MBB) 1847fba06e3cSJeremy Morse if (MI.isDebugValue()) 1848fba06e3cSJeremy Morse accumulateFragmentMap(MI, SeenFragments, OverlapFragments); 1849fba06e3cSJeremy Morse 1850fba06e3cSJeremy Morse auto hasNonArtificialLocation = [](const MachineInstr &MI) -> bool { 1851fba06e3cSJeremy Morse if (const DebugLoc &DL = MI.getDebugLoc()) 1852fba06e3cSJeremy Morse return DL.getLine() != 0; 1853fba06e3cSJeremy Morse return false; 1854fba06e3cSJeremy Morse }; 1855fba06e3cSJeremy Morse for (auto &MBB : MF) 1856fba06e3cSJeremy Morse if (none_of(MBB.instrs(), hasNonArtificialLocation)) 1857fba06e3cSJeremy Morse ArtificialBlocks.insert(&MBB); 1858fba06e3cSJeremy Morse 1859fba06e3cSJeremy Morse LLVM_DEBUG(printVarLocInMBB(MF, OutLocs, VarLocIDs, 1860fba06e3cSJeremy Morse "OutLocs after initialization", dbgs())); 1861fba06e3cSJeremy Morse 1862fba06e3cSJeremy Morse ReversePostOrderTraversal<MachineFunction *> RPOT(&MF); 1863fba06e3cSJeremy Morse unsigned int RPONumber = 0; 1864fba06e3cSJeremy Morse for (auto RI = RPOT.begin(), RE = RPOT.end(); RI != RE; ++RI) { 1865fba06e3cSJeremy Morse OrderToBB[RPONumber] = *RI; 1866fba06e3cSJeremy Morse BBToOrder[*RI] = RPONumber; 1867fba06e3cSJeremy Morse Worklist.push(RPONumber); 1868fba06e3cSJeremy Morse ++RPONumber; 1869fba06e3cSJeremy Morse } 1870fba06e3cSJeremy Morse 1871fba06e3cSJeremy Morse if (RPONumber > InputBBLimit) { 1872fba06e3cSJeremy Morse unsigned NumInputDbgValues = 0; 1873fba06e3cSJeremy Morse for (auto &MBB : MF) 1874fba06e3cSJeremy Morse for (auto &MI : MBB) 1875fba06e3cSJeremy Morse if (MI.isDebugValue()) 1876fba06e3cSJeremy Morse ++NumInputDbgValues; 1877fba06e3cSJeremy Morse if (NumInputDbgValues > InputDbgValueLimit) { 1878*20bb9fe5SJeremy Morse LLVM_DEBUG(dbgs() << "Disabling VarLocBasedLDV: " << MF.getName() 1879fba06e3cSJeremy Morse << " has " << RPONumber << " basic blocks and " 1880fba06e3cSJeremy Morse << NumInputDbgValues 1881fba06e3cSJeremy Morse << " input DBG_VALUEs, exceeding limits.\n"); 1882fba06e3cSJeremy Morse return false; 1883fba06e3cSJeremy Morse } 1884fba06e3cSJeremy Morse } 1885fba06e3cSJeremy Morse 1886fba06e3cSJeremy Morse // This is a standard "union of predecessor outs" dataflow problem. 1887fba06e3cSJeremy Morse // To solve it, we perform join() and process() using the two worklist method 1888fba06e3cSJeremy Morse // until the ranges converge. 1889fba06e3cSJeremy Morse // Ranges have converged when both worklists are empty. 1890fba06e3cSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 16> Visited; 1891fba06e3cSJeremy Morse while (!Worklist.empty() || !Pending.empty()) { 1892fba06e3cSJeremy Morse // We track what is on the pending worklist to avoid inserting the same 1893fba06e3cSJeremy Morse // thing twice. We could avoid this with a custom priority queue, but this 1894fba06e3cSJeremy Morse // is probably not worth it. 1895fba06e3cSJeremy Morse SmallPtrSet<MachineBasicBlock *, 16> OnPending; 1896fba06e3cSJeremy Morse LLVM_DEBUG(dbgs() << "Processing Worklist\n"); 1897fba06e3cSJeremy Morse while (!Worklist.empty()) { 1898fba06e3cSJeremy Morse MachineBasicBlock *MBB = OrderToBB[Worklist.top()]; 1899fba06e3cSJeremy Morse Worklist.pop(); 1900fba06e3cSJeremy Morse MBBJoined = join(*MBB, OutLocs, InLocs, VarLocIDs, Visited, 1901fba06e3cSJeremy Morse ArtificialBlocks); 1902fba06e3cSJeremy Morse MBBJoined |= Visited.insert(MBB).second; 1903fba06e3cSJeremy Morse if (MBBJoined) { 1904fba06e3cSJeremy Morse MBBJoined = false; 1905fba06e3cSJeremy Morse Changed = true; 1906fba06e3cSJeremy Morse // Now that we have started to extend ranges across BBs we need to 1907fba06e3cSJeremy Morse // examine spill, copy and restore instructions to see whether they 1908fba06e3cSJeremy Morse // operate with registers that correspond to user variables. 1909fba06e3cSJeremy Morse // First load any pending inlocs. 1910fba06e3cSJeremy Morse OpenRanges.insertFromLocSet(getVarLocsInMBB(MBB, InLocs), VarLocIDs); 1911fba06e3cSJeremy Morse for (auto &MI : *MBB) 1912fba06e3cSJeremy Morse process(MI, OpenRanges, VarLocIDs, Transfers); 1913fba06e3cSJeremy Morse OLChanged |= transferTerminator(MBB, OpenRanges, OutLocs, VarLocIDs); 1914fba06e3cSJeremy Morse 1915fba06e3cSJeremy Morse LLVM_DEBUG(printVarLocInMBB(MF, OutLocs, VarLocIDs, 1916fba06e3cSJeremy Morse "OutLocs after propagating", dbgs())); 1917fba06e3cSJeremy Morse LLVM_DEBUG(printVarLocInMBB(MF, InLocs, VarLocIDs, 1918fba06e3cSJeremy Morse "InLocs after propagating", dbgs())); 1919fba06e3cSJeremy Morse 1920fba06e3cSJeremy Morse if (OLChanged) { 1921fba06e3cSJeremy Morse OLChanged = false; 1922fba06e3cSJeremy Morse for (auto s : MBB->successors()) 1923fba06e3cSJeremy Morse if (OnPending.insert(s).second) { 1924fba06e3cSJeremy Morse Pending.push(BBToOrder[s]); 1925fba06e3cSJeremy Morse } 1926fba06e3cSJeremy Morse } 1927fba06e3cSJeremy Morse } 1928fba06e3cSJeremy Morse } 1929fba06e3cSJeremy Morse Worklist.swap(Pending); 1930fba06e3cSJeremy Morse // At this point, pending must be empty, since it was just the empty 1931fba06e3cSJeremy Morse // worklist 1932fba06e3cSJeremy Morse assert(Pending.empty() && "Pending should be empty"); 1933fba06e3cSJeremy Morse } 1934fba06e3cSJeremy Morse 1935fba06e3cSJeremy Morse // Add any DBG_VALUE instructions created by location transfers. 1936fba06e3cSJeremy Morse for (auto &TR : Transfers) { 1937fba06e3cSJeremy Morse assert(!TR.TransferInst->isTerminator() && 1938fba06e3cSJeremy Morse "Cannot insert DBG_VALUE after terminator"); 1939fba06e3cSJeremy Morse MachineBasicBlock *MBB = TR.TransferInst->getParent(); 1940fba06e3cSJeremy Morse const VarLoc &VL = VarLocIDs[TR.LocationID]; 1941fba06e3cSJeremy Morse MachineInstr *MI = VL.BuildDbgValue(MF); 1942fba06e3cSJeremy Morse MBB->insertAfterBundle(TR.TransferInst->getIterator(), MI); 1943fba06e3cSJeremy Morse } 1944fba06e3cSJeremy Morse Transfers.clear(); 1945fba06e3cSJeremy Morse 1946fba06e3cSJeremy Morse // Deferred inlocs will not have had any DBG_VALUE insts created; do 1947fba06e3cSJeremy Morse // that now. 1948fba06e3cSJeremy Morse flushPendingLocs(InLocs, VarLocIDs); 1949fba06e3cSJeremy Morse 1950fba06e3cSJeremy Morse LLVM_DEBUG(printVarLocInMBB(MF, OutLocs, VarLocIDs, "Final OutLocs", dbgs())); 1951fba06e3cSJeremy Morse LLVM_DEBUG(printVarLocInMBB(MF, InLocs, VarLocIDs, "Final InLocs", dbgs())); 1952fba06e3cSJeremy Morse return Changed; 1953fba06e3cSJeremy Morse } 1954fba06e3cSJeremy Morse 1955*20bb9fe5SJeremy Morse LDVImpl * 1956*20bb9fe5SJeremy Morse llvm::makeVarLocBasedLiveDebugValues() 1957*20bb9fe5SJeremy Morse { 1958*20bb9fe5SJeremy Morse return new VarLocBasedLDV(); 1959fba06e3cSJeremy Morse } 1960