1ae6f7882SJeremy Morse //===- InstrRefBasedImpl.cpp - Tracking Debug Value MIs -------------------===// 2ae6f7882SJeremy Morse // 3ae6f7882SJeremy Morse // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4ae6f7882SJeremy Morse // See https://llvm.org/LICENSE.txt for license information. 5ae6f7882SJeremy Morse // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6ae6f7882SJeremy Morse // 7ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 8ae6f7882SJeremy Morse /// \file InstrRefBasedImpl.cpp 9ae6f7882SJeremy Morse /// 10ae6f7882SJeremy Morse /// This is a separate implementation of LiveDebugValues, see 11ae6f7882SJeremy Morse /// LiveDebugValues.cpp and VarLocBasedImpl.cpp for more information. 12ae6f7882SJeremy Morse /// 13ae6f7882SJeremy Morse /// This pass propagates variable locations between basic blocks, resolving 14a3936a6cSJeremy Morse /// control flow conflicts between them. The problem is SSA construction, where 15a3936a6cSJeremy Morse /// each debug instruction assigns the *value* that a variable has, and every 16a3936a6cSJeremy Morse /// instruction where the variable is in scope uses that variable. The resulting 17a3936a6cSJeremy Morse /// map of instruction-to-value is then translated into a register (or spill) 18a3936a6cSJeremy Morse /// location for each variable over each instruction. 19ae6f7882SJeremy Morse /// 20a3936a6cSJeremy Morse /// The primary difference from normal SSA construction is that we cannot 21a3936a6cSJeremy Morse /// _create_ PHI values that contain variable values. CodeGen has already 22a3936a6cSJeremy Morse /// completed, and we can't alter it just to make debug-info complete. Thus: 23a3936a6cSJeremy Morse /// we can identify function positions where we would like a PHI value for a 24a3936a6cSJeremy Morse /// variable, but must search the MachineFunction to see whether such a PHI is 25a3936a6cSJeremy Morse /// available. If no such PHI exists, the variable location must be dropped. 26ae6f7882SJeremy Morse /// 27a3936a6cSJeremy Morse /// To achieve this, we perform two kinds of analysis. First, we identify 28ae6f7882SJeremy Morse /// every value defined by every instruction (ignoring those that only move 29a3936a6cSJeremy Morse /// another value), then re-compute an SSA-form representation of the 30a3936a6cSJeremy Morse /// MachineFunction, using value propagation to eliminate any un-necessary 31a3936a6cSJeremy Morse /// PHI values. This gives us a map of every value computed in the function, 32a3936a6cSJeremy Morse /// and its location within the register file / stack. 33ae6f7882SJeremy Morse /// 34a3936a6cSJeremy Morse /// Secondly, for each variable we perform the same analysis, where each debug 35a3936a6cSJeremy Morse /// instruction is considered a def, and every instruction where the variable 36a3936a6cSJeremy Morse /// is in lexical scope as a use. Value propagation is used again to eliminate 37a3936a6cSJeremy Morse /// any un-necessary PHIs. This gives us a map of each variable to the value 38a3936a6cSJeremy Morse /// it should have in a block. 39ae6f7882SJeremy Morse /// 40a3936a6cSJeremy Morse /// Once both are complete, we have two maps for each block: 41a3936a6cSJeremy Morse /// * Variables to the values they should have, 42a3936a6cSJeremy Morse /// * Values to the register / spill slot they are located in. 43a3936a6cSJeremy Morse /// After which we can marry-up variable values with a location, and emit 44a3936a6cSJeremy Morse /// DBG_VALUE instructions specifying those locations. Variable locations may 45a3936a6cSJeremy Morse /// be dropped in this process due to the desired variable value not being 46a3936a6cSJeremy Morse /// resident in any machine location, or because there is no PHI value in any 47a3936a6cSJeremy Morse /// location that accurately represents the desired value. The building of 48a3936a6cSJeremy Morse /// location lists for each block is left to DbgEntityHistoryCalculator. 49ae6f7882SJeremy Morse /// 50a3936a6cSJeremy Morse /// This pass is kept efficient because the size of the first SSA problem 51a3936a6cSJeremy Morse /// is proportional to the working-set size of the function, which the compiler 52a3936a6cSJeremy Morse /// tries to keep small. (It's also proportional to the number of blocks). 53a3936a6cSJeremy Morse /// Additionally, we repeatedly perform the second SSA problem analysis with 54a3936a6cSJeremy Morse /// only the variables and blocks in a single lexical scope, exploiting their 55a3936a6cSJeremy Morse /// locality. 56ae6f7882SJeremy Morse /// 57ae6f7882SJeremy Morse /// ### Terminology 58ae6f7882SJeremy Morse /// 59ae6f7882SJeremy Morse /// A machine location is a register or spill slot, a value is something that's 60ae6f7882SJeremy Morse /// defined by an instruction or PHI node, while a variable value is the value 61ae6f7882SJeremy Morse /// assigned to a variable. A variable location is a machine location, that must 62ae6f7882SJeremy Morse /// contain the appropriate variable value. A value that is a PHI node is 63ae6f7882SJeremy Morse /// occasionally called an mphi. 64ae6f7882SJeremy Morse /// 65a3936a6cSJeremy Morse /// The first SSA problem is the "machine value location" problem, 66ae6f7882SJeremy Morse /// because we're determining which machine locations contain which values. 67ae6f7882SJeremy Morse /// The "locations" are constant: what's unknown is what value they contain. 68ae6f7882SJeremy Morse /// 69a3936a6cSJeremy Morse /// The second SSA problem (the one for variables) is the "variable value 70ae6f7882SJeremy Morse /// problem", because it's determining what values a variable has, rather than 71a3936a6cSJeremy Morse /// what location those values are placed in. 72ae6f7882SJeremy Morse /// 73ae6f7882SJeremy Morse /// TODO: 74ae6f7882SJeremy Morse /// Overlapping fragments 75ae6f7882SJeremy Morse /// Entry values 76ae6f7882SJeremy Morse /// Add back DEBUG statements for debugging this 77ae6f7882SJeremy Morse /// Collect statistics 78ae6f7882SJeremy Morse /// 79ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 80ae6f7882SJeremy Morse 81ae6f7882SJeremy Morse #include "llvm/ADT/DenseMap.h" 82ae6f7882SJeremy Morse #include "llvm/ADT/PostOrderIterator.h" 83010108bbSJeremy Morse #include "llvm/ADT/STLExtras.h" 84ae6f7882SJeremy Morse #include "llvm/ADT/SmallPtrSet.h" 85ae6f7882SJeremy Morse #include "llvm/ADT/SmallSet.h" 86ae6f7882SJeremy Morse #include "llvm/ADT/SmallVector.h" 87989f1c72Sserge-sans-paille #include "llvm/BinaryFormat/Dwarf.h" 88ae6f7882SJeremy Morse #include "llvm/CodeGen/LexicalScopes.h" 89ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineBasicBlock.h" 90a3936a6cSJeremy Morse #include "llvm/CodeGen/MachineDominators.h" 91ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineFrameInfo.h" 92ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineFunction.h" 93ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineInstr.h" 94ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineInstrBuilder.h" 951575583fSJeremy Morse #include "llvm/CodeGen/MachineInstrBundle.h" 96ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineMemOperand.h" 97ae6f7882SJeremy Morse #include "llvm/CodeGen/MachineOperand.h" 98ae6f7882SJeremy Morse #include "llvm/CodeGen/PseudoSourceValue.h" 99ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetFrameLowering.h" 100ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetInstrInfo.h" 101ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetLowering.h" 102ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetPassConfig.h" 103ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetRegisterInfo.h" 104ae6f7882SJeremy Morse #include "llvm/CodeGen/TargetSubtargetInfo.h" 105ae6f7882SJeremy Morse #include "llvm/Config/llvm-config.h" 106ae6f7882SJeremy Morse #include "llvm/IR/DebugInfoMetadata.h" 107ae6f7882SJeremy Morse #include "llvm/IR/DebugLoc.h" 108ae6f7882SJeremy Morse #include "llvm/IR/Function.h" 109ae6f7882SJeremy Morse #include "llvm/MC/MCRegisterInfo.h" 110ae6f7882SJeremy Morse #include "llvm/Support/Casting.h" 111ae6f7882SJeremy Morse #include "llvm/Support/Compiler.h" 112ae6f7882SJeremy Morse #include "llvm/Support/Debug.h" 113989f1c72Sserge-sans-paille #include "llvm/Support/GenericIteratedDominanceFrontier.h" 11484a11209SSander de Smalen #include "llvm/Support/TypeSize.h" 115ae6f7882SJeremy Morse #include "llvm/Support/raw_ostream.h" 1161575583fSJeremy Morse #include "llvm/Target/TargetMachine.h" 117010108bbSJeremy Morse #include "llvm/Transforms/Utils/SSAUpdaterImpl.h" 118ae6f7882SJeremy Morse #include <algorithm> 119ae6f7882SJeremy Morse #include <cassert> 120989f1c72Sserge-sans-paille #include <climits> 121ae6f7882SJeremy Morse #include <cstdint> 122ae6f7882SJeremy Morse #include <functional> 123ae6f7882SJeremy Morse #include <queue> 124ae6f7882SJeremy Morse #include <tuple> 125ae6f7882SJeremy Morse #include <utility> 126ae6f7882SJeremy Morse #include <vector> 127ae6f7882SJeremy Morse 128838b4a53SJeremy Morse #include "InstrRefBasedImpl.h" 129ae6f7882SJeremy Morse #include "LiveDebugValues.h" 130ae6f7882SJeremy Morse 131ae6f7882SJeremy Morse using namespace llvm; 132838b4a53SJeremy Morse using namespace LiveDebugValues; 133ae6f7882SJeremy Morse 134010108bbSJeremy Morse // SSAUpdaterImple sets DEBUG_TYPE, change it. 135010108bbSJeremy Morse #undef DEBUG_TYPE 136ae6f7882SJeremy Morse #define DEBUG_TYPE "livedebugvalues" 137ae6f7882SJeremy Morse 138ae6f7882SJeremy Morse // Act more like the VarLoc implementation, by propagating some locations too 139ae6f7882SJeremy Morse // far and ignoring some transfers. 140ae6f7882SJeremy Morse static cl::opt<bool> EmulateOldLDV("emulate-old-livedebugvalues", cl::Hidden, 141ae6f7882SJeremy Morse cl::desc("Act like old LiveDebugValues did"), 142ae6f7882SJeremy Morse cl::init(false)); 143ae6f7882SJeremy Morse 14414aaaa12SJeremy Morse // Limit for the maximum number of stack slots we should track, past which we 14514aaaa12SJeremy Morse // will ignore any spills. InstrRefBasedLDV gathers detailed information on all 14614aaaa12SJeremy Morse // stack slots which leads to high memory consumption, and in some scenarios 14714aaaa12SJeremy Morse // (such as asan with very many locals) the working set of the function can be 14814aaaa12SJeremy Morse // very large, causing many spills. In these scenarios, it is very unlikely that 14914aaaa12SJeremy Morse // the developer has hundreds of variables live at the same time that they're 15014aaaa12SJeremy Morse // carefully thinking about -- instead, they probably autogenerated the code. 15114aaaa12SJeremy Morse // When this happens, gracefully stop tracking excess spill slots, rather than 15214aaaa12SJeremy Morse // consuming all the developer's memory. 15314aaaa12SJeremy Morse static cl::opt<unsigned> 15414aaaa12SJeremy Morse StackWorkingSetLimit("livedebugvalues-max-stack-slots", cl::Hidden, 15514aaaa12SJeremy Morse cl::desc("livedebugvalues-stack-ws-limit"), 15614aaaa12SJeremy Morse cl::init(250)); 15714aaaa12SJeremy Morse 158ae6f7882SJeremy Morse /// Tracker for converting machine value locations and variable values into 159ae6f7882SJeremy Morse /// variable locations (the output of LiveDebugValues), recorded as DBG_VALUEs 160ae6f7882SJeremy Morse /// specifying block live-in locations and transfers within blocks. 161ae6f7882SJeremy Morse /// 162ae6f7882SJeremy Morse /// Operating on a per-block basis, this class takes a (pre-loaded) MLocTracker 163ae6f7882SJeremy Morse /// and must be initialized with the set of variable values that are live-in to 164ae6f7882SJeremy Morse /// the block. The caller then repeatedly calls process(). TransferTracker picks 165ae6f7882SJeremy Morse /// out variable locations for the live-in variable values (if there _is_ a 166ae6f7882SJeremy Morse /// location) and creates the corresponding DBG_VALUEs. Then, as the block is 167ae6f7882SJeremy Morse /// stepped through, transfers of values between machine locations are 168ae6f7882SJeremy Morse /// identified and if profitable, a DBG_VALUE created. 169ae6f7882SJeremy Morse /// 170ae6f7882SJeremy Morse /// This is where debug use-before-defs would be resolved: a variable with an 171ae6f7882SJeremy Morse /// unavailable value could materialize in the middle of a block, when the 172ae6f7882SJeremy Morse /// value becomes available. Or, we could detect clobbers and re-specify the 173ae6f7882SJeremy Morse /// variable in a backup location. (XXX these are unimplemented). 174ae6f7882SJeremy Morse class TransferTracker { 175ae6f7882SJeremy Morse public: 176ae6f7882SJeremy Morse const TargetInstrInfo *TII; 1771575583fSJeremy Morse const TargetLowering *TLI; 178ae6f7882SJeremy Morse /// This machine location tracker is assumed to always contain the up-to-date 179ae6f7882SJeremy Morse /// value mapping for all machine locations. TransferTracker only reads 180ae6f7882SJeremy Morse /// information from it. (XXX make it const?) 181ae6f7882SJeremy Morse MLocTracker *MTracker; 182ae6f7882SJeremy Morse MachineFunction &MF; 1831575583fSJeremy Morse bool ShouldEmitDebugEntryValues; 184ae6f7882SJeremy Morse 185ae6f7882SJeremy Morse /// Record of all changes in variable locations at a block position. Awkwardly 186ae6f7882SJeremy Morse /// we allow inserting either before or after the point: MBB != nullptr 187ae6f7882SJeremy Morse /// indicates it's before, otherwise after. 188ae6f7882SJeremy Morse struct Transfer { 1891575583fSJeremy Morse MachineBasicBlock::instr_iterator Pos; /// Position to insert DBG_VALUes 190ae6f7882SJeremy Morse MachineBasicBlock *MBB; /// non-null if we should insert after. 191ae6f7882SJeremy Morse SmallVector<MachineInstr *, 4> Insts; /// Vector of DBG_VALUEs to insert. 192ae6f7882SJeremy Morse }; 193ae6f7882SJeremy Morse 19459d90fe8SFangrui Song struct LocAndProperties { 195ae6f7882SJeremy Morse LocIdx Loc; 196ae6f7882SJeremy Morse DbgValueProperties Properties; 19759d90fe8SFangrui Song }; 198ae6f7882SJeremy Morse 199ae6f7882SJeremy Morse /// Collection of transfers (DBG_VALUEs) to be inserted. 200ae6f7882SJeremy Morse SmallVector<Transfer, 32> Transfers; 201ae6f7882SJeremy Morse 202ae6f7882SJeremy Morse /// Local cache of what-value-is-in-what-LocIdx. Used to identify differences 203ae6f7882SJeremy Morse /// between TransferTrackers view of variable locations and MLocTrackers. For 204ae6f7882SJeremy Morse /// example, MLocTracker observes all clobbers, but TransferTracker lazily 205ae6f7882SJeremy Morse /// does not. 2064136897bSJeremy Morse SmallVector<ValueIDNum, 32> VarLocs; 207ae6f7882SJeremy Morse 208ae6f7882SJeremy Morse /// Map from LocIdxes to which DebugVariables are based that location. 209ae6f7882SJeremy Morse /// Mantained while stepping through the block. Not accurate if 210ae6f7882SJeremy Morse /// VarLocs[Idx] != MTracker->LocIdxToIDNum[Idx]. 2114136897bSJeremy Morse DenseMap<LocIdx, SmallSet<DebugVariable, 4>> ActiveMLocs; 212ae6f7882SJeremy Morse 213ae6f7882SJeremy Morse /// Map from DebugVariable to it's current location and qualifying meta 214ae6f7882SJeremy Morse /// information. To be used in conjunction with ActiveMLocs to construct 215ae6f7882SJeremy Morse /// enough information for the DBG_VALUEs for a particular LocIdx. 216ae6f7882SJeremy Morse DenseMap<DebugVariable, LocAndProperties> ActiveVLocs; 217ae6f7882SJeremy Morse 218ae6f7882SJeremy Morse /// Temporary cache of DBG_VALUEs to be entered into the Transfers collection. 219ae6f7882SJeremy Morse SmallVector<MachineInstr *, 4> PendingDbgValues; 220ae6f7882SJeremy Morse 221b1b2c6abSJeremy Morse /// Record of a use-before-def: created when a value that's live-in to the 222b1b2c6abSJeremy Morse /// current block isn't available in any machine location, but it will be 223b1b2c6abSJeremy Morse /// defined in this block. 224b1b2c6abSJeremy Morse struct UseBeforeDef { 225b1b2c6abSJeremy Morse /// Value of this variable, def'd in block. 226b1b2c6abSJeremy Morse ValueIDNum ID; 227b1b2c6abSJeremy Morse /// Identity of this variable. 228b1b2c6abSJeremy Morse DebugVariable Var; 229b1b2c6abSJeremy Morse /// Additional variable properties. 230b1b2c6abSJeremy Morse DbgValueProperties Properties; 231b1b2c6abSJeremy Morse }; 232b1b2c6abSJeremy Morse 233b1b2c6abSJeremy Morse /// Map from instruction index (within the block) to the set of UseBeforeDefs 234b1b2c6abSJeremy Morse /// that become defined at that instruction. 235b1b2c6abSJeremy Morse DenseMap<unsigned, SmallVector<UseBeforeDef, 1>> UseBeforeDefs; 236b1b2c6abSJeremy Morse 237b1b2c6abSJeremy Morse /// The set of variables that are in UseBeforeDefs and can become a location 238b1b2c6abSJeremy Morse /// once the relevant value is defined. An element being erased from this 239b1b2c6abSJeremy Morse /// collection prevents the use-before-def materializing. 240b1b2c6abSJeremy Morse DenseSet<DebugVariable> UseBeforeDefVariables; 241b1b2c6abSJeremy Morse 242ae6f7882SJeremy Morse const TargetRegisterInfo &TRI; 243ae6f7882SJeremy Morse const BitVector &CalleeSavedRegs; 244ae6f7882SJeremy Morse 245ae6f7882SJeremy Morse TransferTracker(const TargetInstrInfo *TII, MLocTracker *MTracker, 246ae6f7882SJeremy Morse MachineFunction &MF, const TargetRegisterInfo &TRI, 2471575583fSJeremy Morse const BitVector &CalleeSavedRegs, const TargetPassConfig &TPC) 248ae6f7882SJeremy Morse : TII(TII), MTracker(MTracker), MF(MF), TRI(TRI), 2491575583fSJeremy Morse CalleeSavedRegs(CalleeSavedRegs) { 2501575583fSJeremy Morse TLI = MF.getSubtarget().getTargetLowering(); 2511575583fSJeremy Morse auto &TM = TPC.getTM<TargetMachine>(); 2521575583fSJeremy Morse ShouldEmitDebugEntryValues = TM.Options.ShouldEmitDebugEntryValues(); 2531575583fSJeremy Morse } 254ae6f7882SJeremy Morse 255ae6f7882SJeremy Morse /// Load object with live-in variable values. \p mlocs contains the live-in 256ae6f7882SJeremy Morse /// values in each machine location, while \p vlocs the live-in variable 257ae6f7882SJeremy Morse /// values. This method picks variable locations for the live-in variables, 258ae6f7882SJeremy Morse /// creates DBG_VALUEs and puts them in #Transfers, then prepares the other 259ae6f7882SJeremy Morse /// object fields to track variable locations as we step through the block. 260ae6f7882SJeremy Morse /// FIXME: could just examine mloctracker instead of passing in \p mlocs? 2610d51b6abSNikita Popov void 262ab49dce0SJeremy Morse loadInlocs(MachineBasicBlock &MBB, ValueTable &MLocs, 2630d51b6abSNikita Popov const SmallVectorImpl<std::pair<DebugVariable, DbgValue>> &VLocs, 264ae6f7882SJeremy Morse unsigned NumLocs) { 265ae6f7882SJeremy Morse ActiveMLocs.clear(); 266ae6f7882SJeremy Morse ActiveVLocs.clear(); 267ae6f7882SJeremy Morse VarLocs.clear(); 268ae6f7882SJeremy Morse VarLocs.reserve(NumLocs); 269b1b2c6abSJeremy Morse UseBeforeDefs.clear(); 270b1b2c6abSJeremy Morse UseBeforeDefVariables.clear(); 271ae6f7882SJeremy Morse 272ae6f7882SJeremy Morse auto isCalleeSaved = [&](LocIdx L) { 273ae6f7882SJeremy Morse unsigned Reg = MTracker->LocIdxToLocID[L]; 274ae6f7882SJeremy Morse if (Reg >= MTracker->NumRegs) 275ae6f7882SJeremy Morse return false; 276ae6f7882SJeremy Morse for (MCRegAliasIterator RAI(Reg, &TRI, true); RAI.isValid(); ++RAI) 277ae6f7882SJeremy Morse if (CalleeSavedRegs.test(*RAI)) 278ae6f7882SJeremy Morse return true; 279ae6f7882SJeremy Morse return false; 280ae6f7882SJeremy Morse }; 281ae6f7882SJeremy Morse 282ae6f7882SJeremy Morse // Map of the preferred location for each value. 283cbaae614SNikita Popov DenseMap<ValueIDNum, LocIdx> ValueToLoc; 28491fb66cfSJeremy Morse 28591fb66cfSJeremy Morse // Initialized the preferred-location map with illegal locations, to be 28691fb66cfSJeremy Morse // filled in later. 2879e6d1f4bSKazu Hirata for (const auto &VLoc : VLocs) 28891fb66cfSJeremy Morse if (VLoc.second.Kind == DbgValue::Def) 28991fb66cfSJeremy Morse ValueToLoc.insert({VLoc.second.ID, LocIdx::MakeIllegalLoc()}); 29091fb66cfSJeremy Morse 2914136897bSJeremy Morse ActiveMLocs.reserve(VLocs.size()); 2924136897bSJeremy Morse ActiveVLocs.reserve(VLocs.size()); 293ae6f7882SJeremy Morse 294ae6f7882SJeremy Morse // Produce a map of value numbers to the current machine locs they live 295ae6f7882SJeremy Morse // in. When emulating VarLocBasedImpl, there should only be one 296ae6f7882SJeremy Morse // location; when not, we get to pick. 297ae6f7882SJeremy Morse for (auto Location : MTracker->locations()) { 298ae6f7882SJeremy Morse LocIdx Idx = Location.Idx; 299ae6f7882SJeremy Morse ValueIDNum &VNum = MLocs[Idx.asU64()]; 300ae6f7882SJeremy Morse VarLocs.push_back(VNum); 301764e52f0SEugene Zhulenev 30291fb66cfSJeremy Morse // Is there a variable that wants a location for this value? If not, skip. 30391fb66cfSJeremy Morse auto VIt = ValueToLoc.find(VNum); 30491fb66cfSJeremy Morse if (VIt == ValueToLoc.end()) 305764e52f0SEugene Zhulenev continue; 306764e52f0SEugene Zhulenev 30791fb66cfSJeremy Morse LocIdx CurLoc = VIt->second; 308ae6f7882SJeremy Morse // In order of preference, pick: 309ae6f7882SJeremy Morse // * Callee saved registers, 310ae6f7882SJeremy Morse // * Other registers, 311ae6f7882SJeremy Morse // * Spill slots. 31291fb66cfSJeremy Morse if (CurLoc.isIllegal() || MTracker->isSpill(CurLoc) || 31391fb66cfSJeremy Morse (!isCalleeSaved(CurLoc) && isCalleeSaved(Idx.asU64()))) { 314ae6f7882SJeremy Morse // Insert, or overwrite if insertion failed. 31591fb66cfSJeremy Morse VIt->second = Idx; 316ae6f7882SJeremy Morse } 317ae6f7882SJeremy Morse } 318ae6f7882SJeremy Morse 319ae6f7882SJeremy Morse // Now map variables to their picked LocIdxes. 3200d51b6abSNikita Popov for (const auto &Var : VLocs) { 321ae6f7882SJeremy Morse if (Var.second.Kind == DbgValue::Const) { 322ae6f7882SJeremy Morse PendingDbgValues.push_back( 323b5426cedSJeremy Morse emitMOLoc(*Var.second.MO, Var.first, Var.second.Properties)); 324ae6f7882SJeremy Morse continue; 325ae6f7882SJeremy Morse } 326ae6f7882SJeremy Morse 327ae6f7882SJeremy Morse // If the value has no location, we can't make a variable location. 328b1b2c6abSJeremy Morse const ValueIDNum &Num = Var.second.ID; 329b1b2c6abSJeremy Morse auto ValuesPreferredLoc = ValueToLoc.find(Num); 33091fb66cfSJeremy Morse if (ValuesPreferredLoc->second.isIllegal()) { 331b1b2c6abSJeremy Morse // If it's a def that occurs in this block, register it as a 332b1b2c6abSJeremy Morse // use-before-def to be resolved as we step through the block. 333b1b2c6abSJeremy Morse if (Num.getBlock() == (unsigned)MBB.getNumber() && !Num.isPHI()) 334b1b2c6abSJeremy Morse addUseBeforeDef(Var.first, Var.second.Properties, Num); 3351575583fSJeremy Morse else 3361575583fSJeremy Morse recoverAsEntryValue(Var.first, Var.second.Properties, Num); 337ae6f7882SJeremy Morse continue; 338b1b2c6abSJeremy Morse } 339ae6f7882SJeremy Morse 340ae6f7882SJeremy Morse LocIdx M = ValuesPreferredLoc->second; 341ae6f7882SJeremy Morse auto NewValue = LocAndProperties{M, Var.second.Properties}; 342ae6f7882SJeremy Morse auto Result = ActiveVLocs.insert(std::make_pair(Var.first, NewValue)); 343ae6f7882SJeremy Morse if (!Result.second) 344ae6f7882SJeremy Morse Result.first->second = NewValue; 345ae6f7882SJeremy Morse ActiveMLocs[M].insert(Var.first); 346ae6f7882SJeremy Morse PendingDbgValues.push_back( 347ae6f7882SJeremy Morse MTracker->emitLoc(M, Var.first, Var.second.Properties)); 348ae6f7882SJeremy Morse } 349ae6f7882SJeremy Morse flushDbgValues(MBB.begin(), &MBB); 350ae6f7882SJeremy Morse } 351ae6f7882SJeremy Morse 352b1b2c6abSJeremy Morse /// Record that \p Var has value \p ID, a value that becomes available 353b1b2c6abSJeremy Morse /// later in the function. 354b1b2c6abSJeremy Morse void addUseBeforeDef(const DebugVariable &Var, 355b1b2c6abSJeremy Morse const DbgValueProperties &Properties, ValueIDNum ID) { 356b1b2c6abSJeremy Morse UseBeforeDef UBD = {ID, Var, Properties}; 357b1b2c6abSJeremy Morse UseBeforeDefs[ID.getInst()].push_back(UBD); 358b1b2c6abSJeremy Morse UseBeforeDefVariables.insert(Var); 359b1b2c6abSJeremy Morse } 360b1b2c6abSJeremy Morse 361b1b2c6abSJeremy Morse /// After the instruction at index \p Inst and position \p pos has been 362b1b2c6abSJeremy Morse /// processed, check whether it defines a variable value in a use-before-def. 363b1b2c6abSJeremy Morse /// If so, and the variable value hasn't changed since the start of the 364b1b2c6abSJeremy Morse /// block, create a DBG_VALUE. 365b1b2c6abSJeremy Morse void checkInstForNewValues(unsigned Inst, MachineBasicBlock::iterator pos) { 366b1b2c6abSJeremy Morse auto MIt = UseBeforeDefs.find(Inst); 367b1b2c6abSJeremy Morse if (MIt == UseBeforeDefs.end()) 368b1b2c6abSJeremy Morse return; 369b1b2c6abSJeremy Morse 370b1b2c6abSJeremy Morse for (auto &Use : MIt->second) { 371b1b2c6abSJeremy Morse LocIdx L = Use.ID.getLoc(); 372b1b2c6abSJeremy Morse 373b1b2c6abSJeremy Morse // If something goes very wrong, we might end up labelling a COPY 374b1b2c6abSJeremy Morse // instruction or similar with an instruction number, where it doesn't 375b1b2c6abSJeremy Morse // actually define a new value, instead it moves a value. In case this 376b1b2c6abSJeremy Morse // happens, discard. 377d9eebe3cSJeremy Morse if (MTracker->readMLoc(L) != Use.ID) 378b1b2c6abSJeremy Morse continue; 379b1b2c6abSJeremy Morse 380b1b2c6abSJeremy Morse // If a different debug instruction defined the variable value / location 381b1b2c6abSJeremy Morse // since the start of the block, don't materialize this use-before-def. 382b1b2c6abSJeremy Morse if (!UseBeforeDefVariables.count(Use.Var)) 383b1b2c6abSJeremy Morse continue; 384b1b2c6abSJeremy Morse 385b1b2c6abSJeremy Morse PendingDbgValues.push_back(MTracker->emitLoc(L, Use.Var, Use.Properties)); 386b1b2c6abSJeremy Morse } 387b1b2c6abSJeremy Morse flushDbgValues(pos, nullptr); 388b1b2c6abSJeremy Morse } 389b1b2c6abSJeremy Morse 390ae6f7882SJeremy Morse /// Helper to move created DBG_VALUEs into Transfers collection. 391ae6f7882SJeremy Morse void flushDbgValues(MachineBasicBlock::iterator Pos, MachineBasicBlock *MBB) { 3921575583fSJeremy Morse if (PendingDbgValues.size() == 0) 3931575583fSJeremy Morse return; 3941575583fSJeremy Morse 3951575583fSJeremy Morse // Pick out the instruction start position. 3961575583fSJeremy Morse MachineBasicBlock::instr_iterator BundleStart; 3971575583fSJeremy Morse if (MBB && Pos == MBB->begin()) 3981575583fSJeremy Morse BundleStart = MBB->instr_begin(); 3991575583fSJeremy Morse else 4001575583fSJeremy Morse BundleStart = getBundleStart(Pos->getIterator()); 4011575583fSJeremy Morse 4021575583fSJeremy Morse Transfers.push_back({BundleStart, MBB, PendingDbgValues}); 403ae6f7882SJeremy Morse PendingDbgValues.clear(); 404ae6f7882SJeremy Morse } 4051575583fSJeremy Morse 4061575583fSJeremy Morse bool isEntryValueVariable(const DebugVariable &Var, 4071575583fSJeremy Morse const DIExpression *Expr) const { 4081575583fSJeremy Morse if (!Var.getVariable()->isParameter()) 4091575583fSJeremy Morse return false; 4101575583fSJeremy Morse 4111575583fSJeremy Morse if (Var.getInlinedAt()) 4121575583fSJeremy Morse return false; 4131575583fSJeremy Morse 4141575583fSJeremy Morse if (Expr->getNumElements() > 0) 4151575583fSJeremy Morse return false; 4161575583fSJeremy Morse 4171575583fSJeremy Morse return true; 4181575583fSJeremy Morse } 4191575583fSJeremy Morse 4201575583fSJeremy Morse bool isEntryValueValue(const ValueIDNum &Val) const { 4211575583fSJeremy Morse // Must be in entry block (block number zero), and be a PHI / live-in value. 4221575583fSJeremy Morse if (Val.getBlock() || !Val.isPHI()) 4231575583fSJeremy Morse return false; 4241575583fSJeremy Morse 4251575583fSJeremy Morse // Entry values must enter in a register. 4261575583fSJeremy Morse if (MTracker->isSpill(Val.getLoc())) 4271575583fSJeremy Morse return false; 4281575583fSJeremy Morse 4291575583fSJeremy Morse Register SP = TLI->getStackPointerRegisterToSaveRestore(); 4301575583fSJeremy Morse Register FP = TRI.getFrameRegister(MF); 4311575583fSJeremy Morse Register Reg = MTracker->LocIdxToLocID[Val.getLoc()]; 4321575583fSJeremy Morse return Reg != SP && Reg != FP; 4331575583fSJeremy Morse } 4341575583fSJeremy Morse 4350d51b6abSNikita Popov bool recoverAsEntryValue(const DebugVariable &Var, 4360d51b6abSNikita Popov const DbgValueProperties &Prop, 4371575583fSJeremy Morse const ValueIDNum &Num) { 4381575583fSJeremy Morse // Is this variable location a candidate to be an entry value. First, 4391575583fSJeremy Morse // should we be trying this at all? 4401575583fSJeremy Morse if (!ShouldEmitDebugEntryValues) 4411575583fSJeremy Morse return false; 4421575583fSJeremy Morse 4431575583fSJeremy Morse // Is the variable appropriate for entry values (i.e., is a parameter). 4441575583fSJeremy Morse if (!isEntryValueVariable(Var, Prop.DIExpr)) 4451575583fSJeremy Morse return false; 4461575583fSJeremy Morse 4471575583fSJeremy Morse // Is the value assigned to this variable still the entry value? 4481575583fSJeremy Morse if (!isEntryValueValue(Num)) 4491575583fSJeremy Morse return false; 4501575583fSJeremy Morse 4511575583fSJeremy Morse // Emit a variable location using an entry value expression. 4521575583fSJeremy Morse DIExpression *NewExpr = 4531575583fSJeremy Morse DIExpression::prepend(Prop.DIExpr, DIExpression::EntryValue); 4541575583fSJeremy Morse Register Reg = MTracker->LocIdxToLocID[Num.getLoc()]; 4551575583fSJeremy Morse MachineOperand MO = MachineOperand::CreateReg(Reg, false); 4561575583fSJeremy Morse 4571575583fSJeremy Morse PendingDbgValues.push_back(emitMOLoc(MO, Var, {NewExpr, Prop.Indirect})); 4581575583fSJeremy Morse return true; 459ae6f7882SJeremy Morse } 460ae6f7882SJeremy Morse 46168f47157SJeremy Morse /// Change a variable value after encountering a DBG_VALUE inside a block. 462ae6f7882SJeremy Morse void redefVar(const MachineInstr &MI) { 463ae6f7882SJeremy Morse DebugVariable Var(MI.getDebugVariable(), MI.getDebugExpression(), 464ae6f7882SJeremy Morse MI.getDebugLoc()->getInlinedAt()); 46568f47157SJeremy Morse DbgValueProperties Properties(MI); 46668f47157SJeremy Morse 467ae6f7882SJeremy Morse const MachineOperand &MO = MI.getOperand(0); 468ae6f7882SJeremy Morse 46968f47157SJeremy Morse // Ignore non-register locations, we don't transfer those. 47068f47157SJeremy Morse if (!MO.isReg() || MO.getReg() == 0) { 471ae6f7882SJeremy Morse auto It = ActiveVLocs.find(Var); 472ae6f7882SJeremy Morse if (It != ActiveVLocs.end()) { 473ae6f7882SJeremy Morse ActiveMLocs[It->second.Loc].erase(Var); 474ae6f7882SJeremy Morse ActiveVLocs.erase(It); 47568f47157SJeremy Morse } 476b1b2c6abSJeremy Morse // Any use-before-defs no longer apply. 477b1b2c6abSJeremy Morse UseBeforeDefVariables.erase(Var); 478ae6f7882SJeremy Morse return; 479ae6f7882SJeremy Morse } 480ae6f7882SJeremy Morse 481ae6f7882SJeremy Morse Register Reg = MO.getReg(); 48268f47157SJeremy Morse LocIdx NewLoc = MTracker->getRegMLoc(Reg); 48368f47157SJeremy Morse redefVar(MI, Properties, NewLoc); 48468f47157SJeremy Morse } 48568f47157SJeremy Morse 48668f47157SJeremy Morse /// Handle a change in variable location within a block. Terminate the 48768f47157SJeremy Morse /// variables current location, and record the value it now refers to, so 48868f47157SJeremy Morse /// that we can detect location transfers later on. 48968f47157SJeremy Morse void redefVar(const MachineInstr &MI, const DbgValueProperties &Properties, 49068f47157SJeremy Morse Optional<LocIdx> OptNewLoc) { 49168f47157SJeremy Morse DebugVariable Var(MI.getDebugVariable(), MI.getDebugExpression(), 49268f47157SJeremy Morse MI.getDebugLoc()->getInlinedAt()); 493b1b2c6abSJeremy Morse // Any use-before-defs no longer apply. 494b1b2c6abSJeremy Morse UseBeforeDefVariables.erase(Var); 49568f47157SJeremy Morse 49668f47157SJeremy Morse // Erase any previous location, 49768f47157SJeremy Morse auto It = ActiveVLocs.find(Var); 49868f47157SJeremy Morse if (It != ActiveVLocs.end()) 49968f47157SJeremy Morse ActiveMLocs[It->second.Loc].erase(Var); 50068f47157SJeremy Morse 50168f47157SJeremy Morse // If there _is_ no new location, all we had to do was erase. 50268f47157SJeremy Morse if (!OptNewLoc) 50368f47157SJeremy Morse return; 50468f47157SJeremy Morse LocIdx NewLoc = *OptNewLoc; 505ae6f7882SJeremy Morse 506ae6f7882SJeremy Morse // Check whether our local copy of values-by-location in #VarLocs is out of 507ae6f7882SJeremy Morse // date. Wipe old tracking data for the location if it's been clobbered in 508ae6f7882SJeremy Morse // the meantime. 509d9eebe3cSJeremy Morse if (MTracker->readMLoc(NewLoc) != VarLocs[NewLoc.asU64()]) { 5109e6d1f4bSKazu Hirata for (const auto &P : ActiveMLocs[NewLoc]) { 511ae6f7882SJeremy Morse ActiveVLocs.erase(P); 512ae6f7882SJeremy Morse } 51368f47157SJeremy Morse ActiveMLocs[NewLoc.asU64()].clear(); 514d9eebe3cSJeremy Morse VarLocs[NewLoc.asU64()] = MTracker->readMLoc(NewLoc); 515ae6f7882SJeremy Morse } 516ae6f7882SJeremy Morse 51768f47157SJeremy Morse ActiveMLocs[NewLoc].insert(Var); 518ae6f7882SJeremy Morse if (It == ActiveVLocs.end()) { 51968f47157SJeremy Morse ActiveVLocs.insert( 52068f47157SJeremy Morse std::make_pair(Var, LocAndProperties{NewLoc, Properties})); 521ae6f7882SJeremy Morse } else { 52268f47157SJeremy Morse It->second.Loc = NewLoc; 523ae6f7882SJeremy Morse It->second.Properties = Properties; 524ae6f7882SJeremy Morse } 525ae6f7882SJeremy Morse } 526ae6f7882SJeremy Morse 52749555441SJeremy Morse /// Account for a location \p mloc being clobbered. Examine the variable 52849555441SJeremy Morse /// locations that will be terminated: and try to recover them by using 52949555441SJeremy Morse /// another location. Optionally, given \p MakeUndef, emit a DBG_VALUE to 53049555441SJeremy Morse /// explicitly terminate a location if it can't be recovered. 53149555441SJeremy Morse void clobberMloc(LocIdx MLoc, MachineBasicBlock::iterator Pos, 53249555441SJeremy Morse bool MakeUndef = true) { 533ae6f7882SJeremy Morse auto ActiveMLocIt = ActiveMLocs.find(MLoc); 534ae6f7882SJeremy Morse if (ActiveMLocIt == ActiveMLocs.end()) 535ae6f7882SJeremy Morse return; 536ae6f7882SJeremy Morse 53749555441SJeremy Morse // What was the old variable value? 53849555441SJeremy Morse ValueIDNum OldValue = VarLocs[MLoc.asU64()]; 539f9ac161aSStephen Tozer clobberMloc(MLoc, OldValue, Pos, MakeUndef); 540f9ac161aSStephen Tozer } 541f9ac161aSStephen Tozer /// Overload that takes an explicit value \p OldValue for when the value in 542f9ac161aSStephen Tozer /// \p MLoc has changed and the TransferTracker's locations have not been 543f9ac161aSStephen Tozer /// updated yet. 544f9ac161aSStephen Tozer void clobberMloc(LocIdx MLoc, ValueIDNum OldValue, 545f9ac161aSStephen Tozer MachineBasicBlock::iterator Pos, bool MakeUndef = true) { 546f9ac161aSStephen Tozer auto ActiveMLocIt = ActiveMLocs.find(MLoc); 547f9ac161aSStephen Tozer if (ActiveMLocIt == ActiveMLocs.end()) 548f9ac161aSStephen Tozer return; 549f9ac161aSStephen Tozer 550ae6f7882SJeremy Morse VarLocs[MLoc.asU64()] = ValueIDNum::EmptyValue; 551ae6f7882SJeremy Morse 55249555441SJeremy Morse // Examine the remaining variable locations: if we can find the same value 55349555441SJeremy Morse // again, we can recover the location. 55449555441SJeremy Morse Optional<LocIdx> NewLoc = None; 55549555441SJeremy Morse for (auto Loc : MTracker->locations()) 55649555441SJeremy Morse if (Loc.Value == OldValue) 55749555441SJeremy Morse NewLoc = Loc.Idx; 55849555441SJeremy Morse 55949555441SJeremy Morse // If there is no location, and we weren't asked to make the variable 56049555441SJeremy Morse // explicitly undef, then stop here. 5611575583fSJeremy Morse if (!NewLoc && !MakeUndef) { 5621575583fSJeremy Morse // Try and recover a few more locations with entry values. 5639e6d1f4bSKazu Hirata for (const auto &Var : ActiveMLocIt->second) { 5641575583fSJeremy Morse auto &Prop = ActiveVLocs.find(Var)->second.Properties; 5651575583fSJeremy Morse recoverAsEntryValue(Var, Prop, OldValue); 5661575583fSJeremy Morse } 5671575583fSJeremy Morse flushDbgValues(Pos, nullptr); 56849555441SJeremy Morse return; 5691575583fSJeremy Morse } 57049555441SJeremy Morse 57149555441SJeremy Morse // Examine all the variables based on this location. 57249555441SJeremy Morse DenseSet<DebugVariable> NewMLocs; 5739e6d1f4bSKazu Hirata for (const auto &Var : ActiveMLocIt->second) { 574ae6f7882SJeremy Morse auto ActiveVLocIt = ActiveVLocs.find(Var); 57549555441SJeremy Morse // Re-state the variable location: if there's no replacement then NewLoc 57649555441SJeremy Morse // is None and a $noreg DBG_VALUE will be created. Otherwise, a DBG_VALUE 57749555441SJeremy Morse // identifying the alternative location will be emitted. 5789cf31b8dSJeremy Morse const DbgValueProperties &Properties = ActiveVLocIt->second.Properties; 57949555441SJeremy Morse PendingDbgValues.push_back(MTracker->emitLoc(NewLoc, Var, Properties)); 58049555441SJeremy Morse 58149555441SJeremy Morse // Update machine locations <=> variable locations maps. Defer updating 58249555441SJeremy Morse // ActiveMLocs to avoid invalidaing the ActiveMLocIt iterator. 58349555441SJeremy Morse if (!NewLoc) { 584ae6f7882SJeremy Morse ActiveVLocs.erase(ActiveVLocIt); 58549555441SJeremy Morse } else { 58649555441SJeremy Morse ActiveVLocIt->second.Loc = *NewLoc; 58749555441SJeremy Morse NewMLocs.insert(Var); 588ae6f7882SJeremy Morse } 58949555441SJeremy Morse } 59049555441SJeremy Morse 59149555441SJeremy Morse // Commit any deferred ActiveMLoc changes. 59249555441SJeremy Morse if (!NewMLocs.empty()) 59349555441SJeremy Morse for (auto &Var : NewMLocs) 59449555441SJeremy Morse ActiveMLocs[*NewLoc].insert(Var); 59549555441SJeremy Morse 59649555441SJeremy Morse // We lazily track what locations have which values; if we've found a new 59749555441SJeremy Morse // location for the clobbered value, remember it. 59849555441SJeremy Morse if (NewLoc) 59949555441SJeremy Morse VarLocs[NewLoc->asU64()] = OldValue; 60049555441SJeremy Morse 601ae6f7882SJeremy Morse flushDbgValues(Pos, nullptr); 602ae6f7882SJeremy Morse 6034136897bSJeremy Morse // Re-find ActiveMLocIt, iterator could have been invalidated. 6044136897bSJeremy Morse ActiveMLocIt = ActiveMLocs.find(MLoc); 605ae6f7882SJeremy Morse ActiveMLocIt->second.clear(); 606ae6f7882SJeremy Morse } 607ae6f7882SJeremy Morse 608ae6f7882SJeremy Morse /// Transfer variables based on \p Src to be based on \p Dst. This handles 609ae6f7882SJeremy Morse /// both register copies as well as spills and restores. Creates DBG_VALUEs 610ae6f7882SJeremy Morse /// describing the movement. 611ae6f7882SJeremy Morse void transferMlocs(LocIdx Src, LocIdx Dst, MachineBasicBlock::iterator Pos) { 612ae6f7882SJeremy Morse // Does Src still contain the value num we expect? If not, it's been 613ae6f7882SJeremy Morse // clobbered in the meantime, and our variable locations are stale. 614d9eebe3cSJeremy Morse if (VarLocs[Src.asU64()] != MTracker->readMLoc(Src)) 615ae6f7882SJeremy Morse return; 616ae6f7882SJeremy Morse 617ae6f7882SJeremy Morse // assert(ActiveMLocs[Dst].size() == 0); 618ae6f7882SJeremy Morse //^^^ Legitimate scenario on account of un-clobbered slot being assigned to? 6194136897bSJeremy Morse 6204136897bSJeremy Morse // Move set of active variables from one location to another. 6214136897bSJeremy Morse auto MovingVars = ActiveMLocs[Src]; 6224136897bSJeremy Morse ActiveMLocs[Dst] = MovingVars; 623ae6f7882SJeremy Morse VarLocs[Dst.asU64()] = VarLocs[Src.asU64()]; 624ae6f7882SJeremy Morse 625ae6f7882SJeremy Morse // For each variable based on Src; create a location at Dst. 6269e6d1f4bSKazu Hirata for (const auto &Var : MovingVars) { 627ae6f7882SJeremy Morse auto ActiveVLocIt = ActiveVLocs.find(Var); 628ae6f7882SJeremy Morse assert(ActiveVLocIt != ActiveVLocs.end()); 629ae6f7882SJeremy Morse ActiveVLocIt->second.Loc = Dst; 630ae6f7882SJeremy Morse 631ae6f7882SJeremy Morse MachineInstr *MI = 632ae6f7882SJeremy Morse MTracker->emitLoc(Dst, Var, ActiveVLocIt->second.Properties); 633ae6f7882SJeremy Morse PendingDbgValues.push_back(MI); 634ae6f7882SJeremy Morse } 635ae6f7882SJeremy Morse ActiveMLocs[Src].clear(); 636ae6f7882SJeremy Morse flushDbgValues(Pos, nullptr); 637ae6f7882SJeremy Morse 638ae6f7882SJeremy Morse // XXX XXX XXX "pretend to be old LDV" means dropping all tracking data 639ae6f7882SJeremy Morse // about the old location. 640ae6f7882SJeremy Morse if (EmulateOldLDV) 641ae6f7882SJeremy Morse VarLocs[Src.asU64()] = ValueIDNum::EmptyValue; 642ae6f7882SJeremy Morse } 643ae6f7882SJeremy Morse 644ae6f7882SJeremy Morse MachineInstrBuilder emitMOLoc(const MachineOperand &MO, 645ae6f7882SJeremy Morse const DebugVariable &Var, 646ae6f7882SJeremy Morse const DbgValueProperties &Properties) { 647b5ad32efSFangrui Song DebugLoc DL = DILocation::get(Var.getVariable()->getContext(), 0, 0, 648b5ad32efSFangrui Song Var.getVariable()->getScope(), 649b5ad32efSFangrui Song const_cast<DILocation *>(Var.getInlinedAt())); 650ae6f7882SJeremy Morse auto MIB = BuildMI(MF, DL, TII->get(TargetOpcode::DBG_VALUE)); 651ae6f7882SJeremy Morse MIB.add(MO); 652ae6f7882SJeremy Morse if (Properties.Indirect) 653ae6f7882SJeremy Morse MIB.addImm(0); 654ae6f7882SJeremy Morse else 655ae6f7882SJeremy Morse MIB.addReg(0); 656ae6f7882SJeremy Morse MIB.addMetadata(Var.getVariable()); 657ae6f7882SJeremy Morse MIB.addMetadata(Properties.DIExpr); 658ae6f7882SJeremy Morse return MIB; 659ae6f7882SJeremy Morse } 660ae6f7882SJeremy Morse }; 661ae6f7882SJeremy Morse 662ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 663ae6f7882SJeremy Morse // Implementation 664ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 665ae6f7882SJeremy Morse 666ae6f7882SJeremy Morse ValueIDNum ValueIDNum::EmptyValue = {UINT_MAX, UINT_MAX, UINT_MAX}; 6674136897bSJeremy Morse ValueIDNum ValueIDNum::TombstoneValue = {UINT_MAX, UINT_MAX, UINT_MAX - 1}; 668ae6f7882SJeremy Morse 669d9fa186aSJeremy Morse #ifndef NDEBUG 670838b4a53SJeremy Morse void DbgValue::dump(const MLocTracker *MTrack) const { 671838b4a53SJeremy Morse if (Kind == Const) { 672b5426cedSJeremy Morse MO->dump(); 673838b4a53SJeremy Morse } else if (Kind == NoVal) { 674838b4a53SJeremy Morse dbgs() << "NoVal(" << BlockNo << ")"; 675b5426cedSJeremy Morse } else if (Kind == VPHI) { 676b5426cedSJeremy Morse dbgs() << "VPHI(" << BlockNo << "," << MTrack->IDAsString(ID) << ")"; 677838b4a53SJeremy Morse } else { 678838b4a53SJeremy Morse assert(Kind == Def); 679838b4a53SJeremy Morse dbgs() << MTrack->IDAsString(ID); 680838b4a53SJeremy Morse } 681838b4a53SJeremy Morse if (Properties.Indirect) 682838b4a53SJeremy Morse dbgs() << " indir"; 683838b4a53SJeremy Morse if (Properties.DIExpr) 684838b4a53SJeremy Morse dbgs() << " " << *Properties.DIExpr; 685838b4a53SJeremy Morse } 686d9fa186aSJeremy Morse #endif 687838b4a53SJeremy Morse 688838b4a53SJeremy Morse MLocTracker::MLocTracker(MachineFunction &MF, const TargetInstrInfo &TII, 689838b4a53SJeremy Morse const TargetRegisterInfo &TRI, 690838b4a53SJeremy Morse const TargetLowering &TLI) 691838b4a53SJeremy Morse : MF(MF), TII(TII), TRI(TRI), TLI(TLI), 692838b4a53SJeremy Morse LocIdxToIDNum(ValueIDNum::EmptyValue), LocIdxToLocID(0) { 693838b4a53SJeremy Morse NumRegs = TRI.getNumRegs(); 694838b4a53SJeremy Morse reset(); 695838b4a53SJeremy Morse LocIDToLocIdx.resize(NumRegs, LocIdx::MakeIllegalLoc()); 696838b4a53SJeremy Morse assert(NumRegs < (1u << NUM_LOC_BITS)); // Detect bit packing failure 697838b4a53SJeremy Morse 698838b4a53SJeremy Morse // Always track SP. This avoids the implicit clobbering caused by regmasks 699838b4a53SJeremy Morse // from affectings its values. (LiveDebugValues disbelieves calls and 700838b4a53SJeremy Morse // regmasks that claim to clobber SP). 701838b4a53SJeremy Morse Register SP = TLI.getStackPointerRegisterToSaveRestore(); 702838b4a53SJeremy Morse if (SP) { 703e7084ceaSJeremy Morse unsigned ID = getLocID(SP); 704838b4a53SJeremy Morse (void)lookupOrTrackRegister(ID); 705fbf269c7SJeremy Morse 706fbf269c7SJeremy Morse for (MCRegAliasIterator RAI(SP, &TRI, true); RAI.isValid(); ++RAI) 707fbf269c7SJeremy Morse SPAliases.insert(*RAI); 708838b4a53SJeremy Morse } 709e7084ceaSJeremy Morse 710e7084ceaSJeremy Morse // Build some common stack positions -- full registers being spilt to the 711e7084ceaSJeremy Morse // stack. 712e7084ceaSJeremy Morse StackSlotIdxes.insert({{8, 0}, 0}); 713e7084ceaSJeremy Morse StackSlotIdxes.insert({{16, 0}, 1}); 714e7084ceaSJeremy Morse StackSlotIdxes.insert({{32, 0}, 2}); 715e7084ceaSJeremy Morse StackSlotIdxes.insert({{64, 0}, 3}); 716e7084ceaSJeremy Morse StackSlotIdxes.insert({{128, 0}, 4}); 717e7084ceaSJeremy Morse StackSlotIdxes.insert({{256, 0}, 5}); 718e7084ceaSJeremy Morse StackSlotIdxes.insert({{512, 0}, 6}); 719e7084ceaSJeremy Morse 720e7084ceaSJeremy Morse // Traverse all the subregister idxes, and ensure there's an index for them. 721e7084ceaSJeremy Morse // Duplicates are no problem: we're interested in their position in the 722e7084ceaSJeremy Morse // stack slot, we don't want to type the slot. 723e7084ceaSJeremy Morse for (unsigned int I = 1; I < TRI.getNumSubRegIndices(); ++I) { 724e7084ceaSJeremy Morse unsigned Size = TRI.getSubRegIdxSize(I); 725e7084ceaSJeremy Morse unsigned Offs = TRI.getSubRegIdxOffset(I); 726e7084ceaSJeremy Morse unsigned Idx = StackSlotIdxes.size(); 727e7084ceaSJeremy Morse 728e7084ceaSJeremy Morse // Some subregs have -1, -2 and so forth fed into their fields, to mean 729e7084ceaSJeremy Morse // special backend things. Ignore those. 730e7084ceaSJeremy Morse if (Size > 60000 || Offs > 60000) 731e7084ceaSJeremy Morse continue; 732e7084ceaSJeremy Morse 733e7084ceaSJeremy Morse StackSlotIdxes.insert({{Size, Offs}, Idx}); 734e7084ceaSJeremy Morse } 735e7084ceaSJeremy Morse 73665d5becaSJeremy Morse // There may also be strange register class sizes (think x86 fp80s). 73765d5becaSJeremy Morse for (const TargetRegisterClass *RC : TRI.regclasses()) { 73865d5becaSJeremy Morse unsigned Size = TRI.getRegSizeInBits(*RC); 73965d5becaSJeremy Morse 74065d5becaSJeremy Morse // We might see special reserved values as sizes, and classes for other 74165d5becaSJeremy Morse // stuff the machine tries to model. If it's more than 512 bits, then it 74265d5becaSJeremy Morse // is very unlikely to be a register than can be spilt. 74365d5becaSJeremy Morse if (Size > 512) 74465d5becaSJeremy Morse continue; 74565d5becaSJeremy Morse 74665d5becaSJeremy Morse unsigned Idx = StackSlotIdxes.size(); 74765d5becaSJeremy Morse StackSlotIdxes.insert({{Size, 0}, Idx}); 74865d5becaSJeremy Morse } 74965d5becaSJeremy Morse 750e7084ceaSJeremy Morse for (auto &Idx : StackSlotIdxes) 751e7084ceaSJeremy Morse StackIdxesToPos[Idx.second] = Idx.first; 752e7084ceaSJeremy Morse 753e7084ceaSJeremy Morse NumSlotIdxes = StackSlotIdxes.size(); 754838b4a53SJeremy Morse } 755838b4a53SJeremy Morse 756838b4a53SJeremy Morse LocIdx MLocTracker::trackRegister(unsigned ID) { 757838b4a53SJeremy Morse assert(ID != 0); 758838b4a53SJeremy Morse LocIdx NewIdx = LocIdx(LocIdxToIDNum.size()); 759838b4a53SJeremy Morse LocIdxToIDNum.grow(NewIdx); 760838b4a53SJeremy Morse LocIdxToLocID.grow(NewIdx); 761838b4a53SJeremy Morse 762838b4a53SJeremy Morse // Default: it's an mphi. 763838b4a53SJeremy Morse ValueIDNum ValNum = {CurBB, 0, NewIdx}; 764838b4a53SJeremy Morse // Was this reg ever touched by a regmask? 765838b4a53SJeremy Morse for (const auto &MaskPair : reverse(Masks)) { 766838b4a53SJeremy Morse if (MaskPair.first->clobbersPhysReg(ID)) { 767838b4a53SJeremy Morse // There was an earlier def we skipped. 768838b4a53SJeremy Morse ValNum = {CurBB, MaskPair.second, NewIdx}; 769838b4a53SJeremy Morse break; 770838b4a53SJeremy Morse } 771838b4a53SJeremy Morse } 772838b4a53SJeremy Morse 773838b4a53SJeremy Morse LocIdxToIDNum[NewIdx] = ValNum; 774838b4a53SJeremy Morse LocIdxToLocID[NewIdx] = ID; 775838b4a53SJeremy Morse return NewIdx; 776838b4a53SJeremy Morse } 777838b4a53SJeremy Morse 778838b4a53SJeremy Morse void MLocTracker::writeRegMask(const MachineOperand *MO, unsigned CurBB, 779838b4a53SJeremy Morse unsigned InstID) { 780838b4a53SJeremy Morse // Def any register we track have that isn't preserved. The regmask 781838b4a53SJeremy Morse // terminates the liveness of a register, meaning its value can't be 782838b4a53SJeremy Morse // relied upon -- we represent this by giving it a new value. 783838b4a53SJeremy Morse for (auto Location : locations()) { 784838b4a53SJeremy Morse unsigned ID = LocIdxToLocID[Location.Idx]; 785838b4a53SJeremy Morse // Don't clobber SP, even if the mask says it's clobbered. 786fbf269c7SJeremy Morse if (ID < NumRegs && !SPAliases.count(ID) && MO->clobbersPhysReg(ID)) 787838b4a53SJeremy Morse defReg(ID, CurBB, InstID); 788838b4a53SJeremy Morse } 789838b4a53SJeremy Morse Masks.push_back(std::make_pair(MO, InstID)); 790838b4a53SJeremy Morse } 791838b4a53SJeremy Morse 79214aaaa12SJeremy Morse Optional<SpillLocationNo> MLocTracker::getOrTrackSpillLoc(SpillLoc L) { 793e7084ceaSJeremy Morse SpillLocationNo SpillID(SpillLocs.idFor(L)); 79414aaaa12SJeremy Morse 795e7084ceaSJeremy Morse if (SpillID.id() == 0) { 79614aaaa12SJeremy Morse // If there is no location, and we have reached the limit of how many stack 79714aaaa12SJeremy Morse // slots to track, then don't track this one. 79814aaaa12SJeremy Morse if (SpillLocs.size() >= StackWorkingSetLimit) 79914aaaa12SJeremy Morse return None; 80014aaaa12SJeremy Morse 801e7084ceaSJeremy Morse // Spill location is untracked: create record for this one, and all 802e7084ceaSJeremy Morse // subregister slots too. 803e7084ceaSJeremy Morse SpillID = SpillLocationNo(SpillLocs.insert(L)); 804e7084ceaSJeremy Morse for (unsigned StackIdx = 0; StackIdx < NumSlotIdxes; ++StackIdx) { 805e7084ceaSJeremy Morse unsigned L = getSpillIDWithIdx(SpillID, StackIdx); 806838b4a53SJeremy Morse LocIdx Idx = LocIdx(LocIdxToIDNum.size()); // New idx 807838b4a53SJeremy Morse LocIdxToIDNum.grow(Idx); 808838b4a53SJeremy Morse LocIdxToLocID.grow(Idx); 809838b4a53SJeremy Morse LocIDToLocIdx.push_back(Idx); 810838b4a53SJeremy Morse LocIdxToLocID[Idx] = L; 811e7084ceaSJeremy Morse // Initialize to PHI value; corresponds to the location's live-in value 812e7084ceaSJeremy Morse // during transfer function construction. 813e7084ceaSJeremy Morse LocIdxToIDNum[Idx] = ValueIDNum(CurBB, 0, Idx); 814838b4a53SJeremy Morse } 815838b4a53SJeremy Morse } 816e7084ceaSJeremy Morse return SpillID; 817e7084ceaSJeremy Morse } 818838b4a53SJeremy Morse 819838b4a53SJeremy Morse std::string MLocTracker::LocIdxToName(LocIdx Idx) const { 820838b4a53SJeremy Morse unsigned ID = LocIdxToLocID[Idx]; 821e7084ceaSJeremy Morse if (ID >= NumRegs) { 822e7084ceaSJeremy Morse StackSlotPos Pos = locIDToSpillIdx(ID); 823e7084ceaSJeremy Morse ID -= NumRegs; 824e7084ceaSJeremy Morse unsigned Slot = ID / NumSlotIdxes; 825e7084ceaSJeremy Morse return Twine("slot ") 826e7084ceaSJeremy Morse .concat(Twine(Slot).concat(Twine(" sz ").concat(Twine(Pos.first) 827e7084ceaSJeremy Morse .concat(Twine(" offs ").concat(Twine(Pos.second)))))) 828e7084ceaSJeremy Morse .str(); 829e7084ceaSJeremy Morse } else { 830838b4a53SJeremy Morse return TRI.getRegAsmName(ID).str(); 831838b4a53SJeremy Morse } 832e7084ceaSJeremy Morse } 833838b4a53SJeremy Morse 834838b4a53SJeremy Morse std::string MLocTracker::IDAsString(const ValueIDNum &Num) const { 835838b4a53SJeremy Morse std::string DefName = LocIdxToName(Num.getLoc()); 836838b4a53SJeremy Morse return Num.asString(DefName); 837838b4a53SJeremy Morse } 838838b4a53SJeremy Morse 839d9fa186aSJeremy Morse #ifndef NDEBUG 840838b4a53SJeremy Morse LLVM_DUMP_METHOD void MLocTracker::dump() { 841838b4a53SJeremy Morse for (auto Location : locations()) { 842838b4a53SJeremy Morse std::string MLocName = LocIdxToName(Location.Value.getLoc()); 843838b4a53SJeremy Morse std::string DefName = Location.Value.asString(MLocName); 844838b4a53SJeremy Morse dbgs() << LocIdxToName(Location.Idx) << " --> " << DefName << "\n"; 845838b4a53SJeremy Morse } 846838b4a53SJeremy Morse } 847838b4a53SJeremy Morse 848838b4a53SJeremy Morse LLVM_DUMP_METHOD void MLocTracker::dump_mloc_map() { 849838b4a53SJeremy Morse for (auto Location : locations()) { 850838b4a53SJeremy Morse std::string foo = LocIdxToName(Location.Idx); 851838b4a53SJeremy Morse dbgs() << "Idx " << Location.Idx.asU64() << " " << foo << "\n"; 852838b4a53SJeremy Morse } 853838b4a53SJeremy Morse } 854d9fa186aSJeremy Morse #endif 855838b4a53SJeremy Morse 856838b4a53SJeremy Morse MachineInstrBuilder MLocTracker::emitLoc(Optional<LocIdx> MLoc, 857838b4a53SJeremy Morse const DebugVariable &Var, 858838b4a53SJeremy Morse const DbgValueProperties &Properties) { 859838b4a53SJeremy Morse DebugLoc DL = DILocation::get(Var.getVariable()->getContext(), 0, 0, 860838b4a53SJeremy Morse Var.getVariable()->getScope(), 861838b4a53SJeremy Morse const_cast<DILocation *>(Var.getInlinedAt())); 862838b4a53SJeremy Morse auto MIB = BuildMI(MF, DL, TII.get(TargetOpcode::DBG_VALUE)); 863838b4a53SJeremy Morse 864838b4a53SJeremy Morse const DIExpression *Expr = Properties.DIExpr; 865838b4a53SJeremy Morse if (!MLoc) { 866838b4a53SJeremy Morse // No location -> DBG_VALUE $noreg 867838b4a53SJeremy Morse MIB.addReg(0); 868838b4a53SJeremy Morse MIB.addReg(0); 869838b4a53SJeremy Morse } else if (LocIdxToLocID[*MLoc] >= NumRegs) { 870838b4a53SJeremy Morse unsigned LocID = LocIdxToLocID[*MLoc]; 871e7084ceaSJeremy Morse SpillLocationNo SpillID = locIDToSpill(LocID); 872e7084ceaSJeremy Morse StackSlotPos StackIdx = locIDToSpillIdx(LocID); 873e7084ceaSJeremy Morse unsigned short Offset = StackIdx.second; 874838b4a53SJeremy Morse 875e7084ceaSJeremy Morse // TODO: support variables that are located in spill slots, with non-zero 876e7084ceaSJeremy Morse // offsets from the start of the spill slot. It would require some more 877e7084ceaSJeremy Morse // complex DIExpression calculations. This doesn't seem to be produced by 878e7084ceaSJeremy Morse // LLVM right now, so don't try and support it. 879e7084ceaSJeremy Morse // Accept no-subregister slots and subregisters where the offset is zero. 880e7084ceaSJeremy Morse // The consumer should already have type information to work out how large 881e7084ceaSJeremy Morse // the variable is. 882e7084ceaSJeremy Morse if (Offset == 0) { 883e7084ceaSJeremy Morse const SpillLoc &Spill = SpillLocs[SpillID.id()]; 8844fe2ab52SZequan Wu unsigned Base = Spill.SpillBase; 8854fe2ab52SZequan Wu MIB.addReg(Base); 8864fe2ab52SZequan Wu 887a975472fSJeremy Morse // There are several ways we can dereference things, and several inputs 888a975472fSJeremy Morse // to consider: 889a975472fSJeremy Morse // * NRVO variables will appear with IsIndirect set, but should have 890a975472fSJeremy Morse // nothing else in their DIExpressions, 891a975472fSJeremy Morse // * Variables with DW_OP_stack_value in their expr already need an 892a975472fSJeremy Morse // explicit dereference of the stack location, 893a975472fSJeremy Morse // * Values that don't match the variable size need DW_OP_deref_size, 894a975472fSJeremy Morse // * Everything else can just become a simple location expression. 895a975472fSJeremy Morse 896a975472fSJeremy Morse // We need to use deref_size whenever there's a mismatch between the 897a975472fSJeremy Morse // size of value and the size of variable portion being read. 898a975472fSJeremy Morse // Additionally, we should use it whenever dealing with stack_value 899a975472fSJeremy Morse // fragments, to avoid the consumer having to determine the deref size 900a975472fSJeremy Morse // from DW_OP_piece. 901a975472fSJeremy Morse bool UseDerefSize = false; 902a975472fSJeremy Morse unsigned ValueSizeInBits = getLocSizeInBits(*MLoc); 903a975472fSJeremy Morse unsigned DerefSizeInBytes = ValueSizeInBits / 8; 904a975472fSJeremy Morse if (auto Fragment = Var.getFragment()) { 905a975472fSJeremy Morse unsigned VariableSizeInBits = Fragment->SizeInBits; 906a975472fSJeremy Morse if (VariableSizeInBits != ValueSizeInBits || Expr->isComplex()) 907a975472fSJeremy Morse UseDerefSize = true; 908a975472fSJeremy Morse } else if (auto Size = Var.getVariable()->getSizeInBits()) { 909a975472fSJeremy Morse if (*Size != ValueSizeInBits) { 910a975472fSJeremy Morse UseDerefSize = true; 911a975472fSJeremy Morse } 912a975472fSJeremy Morse } 913a975472fSJeremy Morse 9144fe2ab52SZequan Wu if (Properties.Indirect) { 915a975472fSJeremy Morse // This is something like an NRVO variable, where the pointer has been 916a975472fSJeremy Morse // spilt to the stack, or a dbg.addr pointing at a coroutine frame 917a975472fSJeremy Morse // field. It should end up being a memory location, with the pointer 918a975472fSJeremy Morse // to the variable loaded off the stack with a deref. It can't be a 919a975472fSJeremy Morse // DW_OP_stack_value expression. 920a975472fSJeremy Morse assert(!Expr->isImplicit()); 921a975472fSJeremy Morse Expr = TRI.prependOffsetExpression( 922a975472fSJeremy Morse Expr, DIExpression::ApplyOffset | DIExpression::DerefAfter, 923a975472fSJeremy Morse Spill.SpillOffset); 924a975472fSJeremy Morse MIB.addImm(0); 925a975472fSJeremy Morse } else if (UseDerefSize) { 926a975472fSJeremy Morse // We're loading a value off the stack that's not the same size as the 927a975472fSJeremy Morse // variable. Add / subtract stack offset, explicitly deref with a size, 928a975472fSJeremy Morse // and add DW_OP_stack_value if not already present. 929a975472fSJeremy Morse SmallVector<uint64_t, 2> Ops = {dwarf::DW_OP_deref_size, 930a975472fSJeremy Morse DerefSizeInBytes}; 931a975472fSJeremy Morse Expr = DIExpression::prependOpcodes(Expr, Ops, true); 932a975472fSJeremy Morse unsigned Flags = DIExpression::StackValue | DIExpression::ApplyOffset; 933a975472fSJeremy Morse Expr = TRI.prependOffsetExpression(Expr, Flags, Spill.SpillOffset); 934a975472fSJeremy Morse MIB.addReg(0); 935a975472fSJeremy Morse } else if (Expr->isComplex()) { 936a975472fSJeremy Morse // A variable with no size ambiguity, but with extra elements in it's 937a975472fSJeremy Morse // expression. Manually dereference the stack location. 938a975472fSJeremy Morse assert(Expr->isComplex()); 939a975472fSJeremy Morse Expr = TRI.prependOffsetExpression( 940a975472fSJeremy Morse Expr, DIExpression::ApplyOffset | DIExpression::DerefAfter, 941a975472fSJeremy Morse Spill.SpillOffset); 942a975472fSJeremy Morse MIB.addReg(0); 943a975472fSJeremy Morse } else { 944a975472fSJeremy Morse // A plain value that has been spilt to the stack, with no further 945a975472fSJeremy Morse // context. Request a location expression, marking the DBG_VALUE as 946a975472fSJeremy Morse // IsIndirect. 947a975472fSJeremy Morse Expr = TRI.prependOffsetExpression(Expr, DIExpression::ApplyOffset, 948a975472fSJeremy Morse Spill.SpillOffset); 949a975472fSJeremy Morse MIB.addImm(0); 950536b9eb3SJeremy Morse } 951838b4a53SJeremy Morse } else { 952e7084ceaSJeremy Morse // This is a stack location with a weird subregister offset: emit an undef 953e7084ceaSJeremy Morse // DBG_VALUE instead. 954e7084ceaSJeremy Morse MIB.addReg(0); 955e7084ceaSJeremy Morse MIB.addReg(0); 956e7084ceaSJeremy Morse } 957e7084ceaSJeremy Morse } else { 958e7084ceaSJeremy Morse // Non-empty, non-stack slot, must be a plain register. 959838b4a53SJeremy Morse unsigned LocID = LocIdxToLocID[*MLoc]; 960838b4a53SJeremy Morse MIB.addReg(LocID); 961838b4a53SJeremy Morse if (Properties.Indirect) 962838b4a53SJeremy Morse MIB.addImm(0); 963838b4a53SJeremy Morse else 964838b4a53SJeremy Morse MIB.addReg(0); 965838b4a53SJeremy Morse } 966838b4a53SJeremy Morse 967838b4a53SJeremy Morse MIB.addMetadata(Var.getVariable()); 968838b4a53SJeremy Morse MIB.addMetadata(Expr); 969838b4a53SJeremy Morse return MIB; 970838b4a53SJeremy Morse } 971838b4a53SJeremy Morse 972ae6f7882SJeremy Morse /// Default construct and initialize the pass. 9733a8c5148SKazu Hirata InstrRefBasedLDV::InstrRefBasedLDV() = default; 974ae6f7882SJeremy Morse 975838b4a53SJeremy Morse bool InstrRefBasedLDV::isCalleeSaved(LocIdx L) const { 976838b4a53SJeremy Morse unsigned Reg = MTracker->LocIdxToLocID[L]; 977838b4a53SJeremy Morse for (MCRegAliasIterator RAI(Reg, TRI, true); RAI.isValid(); ++RAI) 978838b4a53SJeremy Morse if (CalleeSavedRegs.test(*RAI)) 979838b4a53SJeremy Morse return true; 980838b4a53SJeremy Morse return false; 981838b4a53SJeremy Morse } 982838b4a53SJeremy Morse 983ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 984ae6f7882SJeremy Morse // Debug Range Extension Implementation 985ae6f7882SJeremy Morse //===----------------------------------------------------------------------===// 986ae6f7882SJeremy Morse 987ae6f7882SJeremy Morse #ifndef NDEBUG 988ae6f7882SJeremy Morse // Something to restore in the future. 989ae6f7882SJeremy Morse // void InstrRefBasedLDV::printVarLocInMBB(..) 990ae6f7882SJeremy Morse #endif 991ae6f7882SJeremy Morse 99214aaaa12SJeremy Morse Optional<SpillLocationNo> 993ae6f7882SJeremy Morse InstrRefBasedLDV::extractSpillBaseRegAndOffset(const MachineInstr &MI) { 994ae6f7882SJeremy Morse assert(MI.hasOneMemOperand() && 995ae6f7882SJeremy Morse "Spill instruction does not have exactly one memory operand?"); 996ae6f7882SJeremy Morse auto MMOI = MI.memoperands_begin(); 997ae6f7882SJeremy Morse const PseudoSourceValue *PVal = (*MMOI)->getPseudoValue(); 998ae6f7882SJeremy Morse assert(PVal->kind() == PseudoSourceValue::FixedStack && 999ae6f7882SJeremy Morse "Inconsistent memory operand in spill instruction"); 1000ae6f7882SJeremy Morse int FI = cast<FixedStackPseudoSourceValue>(PVal)->getFrameIndex(); 1001ae6f7882SJeremy Morse const MachineBasicBlock *MBB = MI.getParent(); 1002ae6f7882SJeremy Morse Register Reg; 1003d57bba7cSSander de Smalen StackOffset Offset = TFI->getFrameIndexReference(*MBB->getParent(), FI, Reg); 1004e7084ceaSJeremy Morse return MTracker->getOrTrackSpillLoc({Reg, Offset}); 1005ae6f7882SJeremy Morse } 1006ae6f7882SJeremy Morse 100714aaaa12SJeremy Morse Optional<LocIdx> 100814aaaa12SJeremy Morse InstrRefBasedLDV::findLocationForMemOperand(const MachineInstr &MI) { 100914aaaa12SJeremy Morse Optional<SpillLocationNo> SpillLoc = extractSpillBaseRegAndOffset(MI); 101014aaaa12SJeremy Morse if (!SpillLoc) 101114aaaa12SJeremy Morse return None; 1012ee3eee71SJeremy Morse 1013ee3eee71SJeremy Morse // Where in the stack slot is this value defined -- i.e., what size of value 1014ee3eee71SJeremy Morse // is this? An important question, because it could be loaded into a register 1015ee3eee71SJeremy Morse // from the stack at some point. Happily the memory operand will tell us 1016ee3eee71SJeremy Morse // the size written to the stack. 1017ee3eee71SJeremy Morse auto *MemOperand = *MI.memoperands_begin(); 1018ee3eee71SJeremy Morse unsigned SizeInBits = MemOperand->getSizeInBits(); 1019ee3eee71SJeremy Morse 1020ee3eee71SJeremy Morse // Find that position in the stack indexes we're tracking. 1021ee3eee71SJeremy Morse auto IdxIt = MTracker->StackSlotIdxes.find({SizeInBits, 0}); 1022ee3eee71SJeremy Morse if (IdxIt == MTracker->StackSlotIdxes.end()) 1023ee3eee71SJeremy Morse // That index is not tracked. This is suprising, and unlikely to ever 1024ee3eee71SJeremy Morse // occur, but the safe action is to indicate the variable is optimised out. 1025ee3eee71SJeremy Morse return None; 1026ee3eee71SJeremy Morse 102714aaaa12SJeremy Morse unsigned SpillID = MTracker->getSpillIDWithIdx(*SpillLoc, IdxIt->second); 1028ee3eee71SJeremy Morse return MTracker->getSpillMLoc(SpillID); 1029ee3eee71SJeremy Morse } 1030ee3eee71SJeremy Morse 1031ae6f7882SJeremy Morse /// End all previous ranges related to @MI and start a new range from @MI 1032ae6f7882SJeremy Morse /// if it is a DBG_VALUE instr. 1033ae6f7882SJeremy Morse bool InstrRefBasedLDV::transferDebugValue(const MachineInstr &MI) { 1034ae6f7882SJeremy Morse if (!MI.isDebugValue()) 1035ae6f7882SJeremy Morse return false; 1036ae6f7882SJeremy Morse 1037ae6f7882SJeremy Morse const DILocalVariable *Var = MI.getDebugVariable(); 1038ae6f7882SJeremy Morse const DIExpression *Expr = MI.getDebugExpression(); 1039ae6f7882SJeremy Morse const DILocation *DebugLoc = MI.getDebugLoc(); 1040ae6f7882SJeremy Morse const DILocation *InlinedAt = DebugLoc->getInlinedAt(); 1041ae6f7882SJeremy Morse assert(Var->isValidLocationForIntrinsic(DebugLoc) && 1042ae6f7882SJeremy Morse "Expected inlined-at fields to agree"); 1043ae6f7882SJeremy Morse 1044ae6f7882SJeremy Morse DebugVariable V(Var, Expr, InlinedAt); 104568f47157SJeremy Morse DbgValueProperties Properties(MI); 1046ae6f7882SJeremy Morse 1047ae6f7882SJeremy Morse // If there are no instructions in this lexical scope, do no location tracking 1048ae6f7882SJeremy Morse // at all, this variable shouldn't get a legitimate location range. 1049ae6f7882SJeremy Morse auto *Scope = LS.findLexicalScope(MI.getDebugLoc().get()); 1050ae6f7882SJeremy Morse if (Scope == nullptr) 1051ae6f7882SJeremy Morse return true; // handled it; by doing nothing 1052ae6f7882SJeremy Morse 1053ce8254d0SJeremy Morse // For now, ignore DBG_VALUE_LISTs when extending ranges. Allow it to 1054ce8254d0SJeremy Morse // contribute to locations in this block, but don't propagate further. 1055ce8254d0SJeremy Morse // Interpret it like a DBG_VALUE $noreg. 1056ce8254d0SJeremy Morse if (MI.isDebugValueList()) { 1057ce8254d0SJeremy Morse if (VTracker) 1058ce8254d0SJeremy Morse VTracker->defVar(MI, Properties, None); 1059ce8254d0SJeremy Morse if (TTracker) 1060ce8254d0SJeremy Morse TTracker->redefVar(MI, Properties, None); 1061ce8254d0SJeremy Morse return true; 1062ce8254d0SJeremy Morse } 1063ce8254d0SJeremy Morse 1064ae6f7882SJeremy Morse const MachineOperand &MO = MI.getOperand(0); 1065ae6f7882SJeremy Morse 1066ae6f7882SJeremy Morse // MLocTracker needs to know that this register is read, even if it's only 1067ae6f7882SJeremy Morse // read by a debug inst. 1068ae6f7882SJeremy Morse if (MO.isReg() && MO.getReg() != 0) 1069ae6f7882SJeremy Morse (void)MTracker->readReg(MO.getReg()); 1070ae6f7882SJeremy Morse 1071ae6f7882SJeremy Morse // If we're preparing for the second analysis (variables), the machine value 1072ae6f7882SJeremy Morse // locations are already solved, and we report this DBG_VALUE and the value 1073ae6f7882SJeremy Morse // it refers to to VLocTracker. 1074ae6f7882SJeremy Morse if (VTracker) { 1075ae6f7882SJeremy Morse if (MO.isReg()) { 1076ae6f7882SJeremy Morse // Feed defVar the new variable location, or if this is a 1077ae6f7882SJeremy Morse // DBG_VALUE $noreg, feed defVar None. 1078ae6f7882SJeremy Morse if (MO.getReg()) 107968f47157SJeremy Morse VTracker->defVar(MI, Properties, MTracker->readReg(MO.getReg())); 1080ae6f7882SJeremy Morse else 108168f47157SJeremy Morse VTracker->defVar(MI, Properties, None); 1082ae6f7882SJeremy Morse } else if (MI.getOperand(0).isImm() || MI.getOperand(0).isFPImm() || 1083ae6f7882SJeremy Morse MI.getOperand(0).isCImm()) { 1084ae6f7882SJeremy Morse VTracker->defVar(MI, MI.getOperand(0)); 1085ae6f7882SJeremy Morse } 1086ae6f7882SJeremy Morse } 1087ae6f7882SJeremy Morse 1088ae6f7882SJeremy Morse // If performing final tracking of transfers, report this variable definition 1089ae6f7882SJeremy Morse // to the TransferTracker too. 1090ae6f7882SJeremy Morse if (TTracker) 1091ae6f7882SJeremy Morse TTracker->redefVar(MI); 1092ae6f7882SJeremy Morse return true; 1093ae6f7882SJeremy Morse } 1094ae6f7882SJeremy Morse 1095010108bbSJeremy Morse bool InstrRefBasedLDV::transferDebugInstrRef(MachineInstr &MI, 1096ab49dce0SJeremy Morse const ValueTable *MLiveOuts, 1097ab49dce0SJeremy Morse const ValueTable *MLiveIns) { 109868f47157SJeremy Morse if (!MI.isDebugRef()) 109968f47157SJeremy Morse return false; 110068f47157SJeremy Morse 110168f47157SJeremy Morse // Only handle this instruction when we are building the variable value 110268f47157SJeremy Morse // transfer function. 1103a80181a8SJeremy Morse if (!VTracker && !TTracker) 110468f47157SJeremy Morse return false; 110568f47157SJeremy Morse 110668f47157SJeremy Morse unsigned InstNo = MI.getOperand(0).getImm(); 110768f47157SJeremy Morse unsigned OpNo = MI.getOperand(1).getImm(); 110868f47157SJeremy Morse 110968f47157SJeremy Morse const DILocalVariable *Var = MI.getDebugVariable(); 111068f47157SJeremy Morse const DIExpression *Expr = MI.getDebugExpression(); 111168f47157SJeremy Morse const DILocation *DebugLoc = MI.getDebugLoc(); 111268f47157SJeremy Morse const DILocation *InlinedAt = DebugLoc->getInlinedAt(); 111368f47157SJeremy Morse assert(Var->isValidLocationForIntrinsic(DebugLoc) && 111468f47157SJeremy Morse "Expected inlined-at fields to agree"); 111568f47157SJeremy Morse 111668f47157SJeremy Morse DebugVariable V(Var, Expr, InlinedAt); 111768f47157SJeremy Morse 111868f47157SJeremy Morse auto *Scope = LS.findLexicalScope(MI.getDebugLoc().get()); 111968f47157SJeremy Morse if (Scope == nullptr) 112068f47157SJeremy Morse return true; // Handled by doing nothing. This variable is never in scope. 112168f47157SJeremy Morse 112268f47157SJeremy Morse const MachineFunction &MF = *MI.getParent()->getParent(); 112368f47157SJeremy Morse 112468f47157SJeremy Morse // Various optimizations may have happened to the value during codegen, 112568f47157SJeremy Morse // recorded in the value substitution table. Apply any substitutions to 1126f551fb96SJeremy Morse // the instruction / operand number in this DBG_INSTR_REF, and collect 1127f551fb96SJeremy Morse // any subregister extractions performed during optimization. 1128f551fb96SJeremy Morse 1129f551fb96SJeremy Morse // Create dummy substitution with Src set, for lookup. 1130f551fb96SJeremy Morse auto SoughtSub = 1131f551fb96SJeremy Morse MachineFunction::DebugSubstitution({InstNo, OpNo}, {0, 0}, 0); 1132f551fb96SJeremy Morse 1133e9641c91SJeremy Morse SmallVector<unsigned, 4> SeenSubregs; 1134f551fb96SJeremy Morse auto LowerBoundIt = llvm::lower_bound(MF.DebugValueSubstitutions, SoughtSub); 1135f551fb96SJeremy Morse while (LowerBoundIt != MF.DebugValueSubstitutions.end() && 1136f551fb96SJeremy Morse LowerBoundIt->Src == SoughtSub.Src) { 1137f551fb96SJeremy Morse std::tie(InstNo, OpNo) = LowerBoundIt->Dest; 1138f551fb96SJeremy Morse SoughtSub.Src = LowerBoundIt->Dest; 1139f551fb96SJeremy Morse if (unsigned Subreg = LowerBoundIt->Subreg) 1140e9641c91SJeremy Morse SeenSubregs.push_back(Subreg); 1141f551fb96SJeremy Morse LowerBoundIt = llvm::lower_bound(MF.DebugValueSubstitutions, SoughtSub); 114268f47157SJeremy Morse } 114368f47157SJeremy Morse 114468f47157SJeremy Morse // Default machine value number is <None> -- if no instruction defines 114568f47157SJeremy Morse // the corresponding value, it must have been optimized out. 114668f47157SJeremy Morse Optional<ValueIDNum> NewID = None; 114768f47157SJeremy Morse 114868f47157SJeremy Morse // Try to lookup the instruction number, and find the machine value number 1149010108bbSJeremy Morse // that it defines. It could be an instruction, or a PHI. 115068f47157SJeremy Morse auto InstrIt = DebugInstrNumToInstr.find(InstNo); 1151010108bbSJeremy Morse auto PHIIt = std::lower_bound(DebugPHINumToValue.begin(), 1152010108bbSJeremy Morse DebugPHINumToValue.end(), InstNo); 115368f47157SJeremy Morse if (InstrIt != DebugInstrNumToInstr.end()) { 115468f47157SJeremy Morse const MachineInstr &TargetInstr = *InstrIt->second.first; 115568f47157SJeremy Morse uint64_t BlockNo = TargetInstr.getParent()->getNumber(); 115668f47157SJeremy Morse 1157ee3eee71SJeremy Morse // Pick out the designated operand. It might be a memory reference, if 1158ee3eee71SJeremy Morse // a register def was folded into a stack store. 1159ee3eee71SJeremy Morse if (OpNo == MachineFunction::DebugOperandMemNumber && 1160ee3eee71SJeremy Morse TargetInstr.hasOneMemOperand()) { 1161ee3eee71SJeremy Morse Optional<LocIdx> L = findLocationForMemOperand(TargetInstr); 1162ee3eee71SJeremy Morse if (L) 1163ee3eee71SJeremy Morse NewID = ValueIDNum(BlockNo, InstrIt->second.second, *L); 1164ee3eee71SJeremy Morse } else if (OpNo != MachineFunction::DebugOperandMemNumber) { 1165be5734ddSJeremy Morse // Permit the debug-info to be completely wrong: identifying a nonexistant 1166be5734ddSJeremy Morse // operand, or one that is not a register definition, means something 1167be5734ddSJeremy Morse // unexpected happened during optimisation. Broken debug-info, however, 1168be5734ddSJeremy Morse // shouldn't crash the compiler -- instead leave the variable value as 1169be5734ddSJeremy Morse // None, which will make it appear "optimised out". 1170be5734ddSJeremy Morse if (OpNo < TargetInstr.getNumOperands()) { 117168f47157SJeremy Morse const MachineOperand &MO = TargetInstr.getOperand(OpNo); 117268f47157SJeremy Morse 1173be5734ddSJeremy Morse if (MO.isReg() && MO.isDef() && MO.getReg()) { 1174e7084ceaSJeremy Morse unsigned LocID = MTracker->getLocID(MO.getReg()); 117568f47157SJeremy Morse LocIdx L = MTracker->LocIDToLocIdx[LocID]; 117668f47157SJeremy Morse NewID = ValueIDNum(BlockNo, InstrIt->second.second, L); 1177ee3eee71SJeremy Morse } 1178be5734ddSJeremy Morse } 1179be5734ddSJeremy Morse 1180be5734ddSJeremy Morse if (!NewID) { 1181be5734ddSJeremy Morse LLVM_DEBUG( 1182be5734ddSJeremy Morse { dbgs() << "Seen instruction reference to illegal operand\n"; }); 1183be5734ddSJeremy Morse } 1184be5734ddSJeremy Morse } 1185ee3eee71SJeremy Morse // else: NewID is left as None. 1186010108bbSJeremy Morse } else if (PHIIt != DebugPHINumToValue.end() && PHIIt->InstrNum == InstNo) { 1187010108bbSJeremy Morse // It's actually a PHI value. Which value it is might not be obvious, use 1188010108bbSJeremy Morse // the resolver helper to find out. 1189010108bbSJeremy Morse NewID = resolveDbgPHIs(*MI.getParent()->getParent(), MLiveOuts, MLiveIns, 1190010108bbSJeremy Morse MI, InstNo); 119168f47157SJeremy Morse } 119268f47157SJeremy Morse 1193e9641c91SJeremy Morse // Apply any subregister extractions, in reverse. We might have seen code 1194e9641c91SJeremy Morse // like this: 1195e9641c91SJeremy Morse // CALL64 @foo, implicit-def $rax 1196e9641c91SJeremy Morse // %0:gr64 = COPY $rax 1197e9641c91SJeremy Morse // %1:gr32 = COPY %0.sub_32bit 1198e9641c91SJeremy Morse // %2:gr16 = COPY %1.sub_16bit 1199e9641c91SJeremy Morse // %3:gr8 = COPY %2.sub_8bit 1200e9641c91SJeremy Morse // In which case each copy would have been recorded as a substitution with 1201e9641c91SJeremy Morse // a subregister qualifier. Apply those qualifiers now. 1202e9641c91SJeremy Morse if (NewID && !SeenSubregs.empty()) { 1203e9641c91SJeremy Morse unsigned Offset = 0; 1204e9641c91SJeremy Morse unsigned Size = 0; 1205e9641c91SJeremy Morse 1206e9641c91SJeremy Morse // Look at each subregister that we passed through, and progressively 1207e9641c91SJeremy Morse // narrow in, accumulating any offsets that occur. Substitutions should 1208e9641c91SJeremy Morse // only ever be the same or narrower width than what they read from; 1209e9641c91SJeremy Morse // iterate in reverse order so that we go from wide to small. 1210e9641c91SJeremy Morse for (unsigned Subreg : reverse(SeenSubregs)) { 1211e9641c91SJeremy Morse unsigned ThisSize = TRI->getSubRegIdxSize(Subreg); 1212e9641c91SJeremy Morse unsigned ThisOffset = TRI->getSubRegIdxOffset(Subreg); 1213e9641c91SJeremy Morse Offset += ThisOffset; 1214e9641c91SJeremy Morse Size = (Size == 0) ? ThisSize : std::min(Size, ThisSize); 1215e9641c91SJeremy Morse } 1216e9641c91SJeremy Morse 1217e9641c91SJeremy Morse // If that worked, look for an appropriate subregister with the register 1218e9641c91SJeremy Morse // where the define happens. Don't look at values that were defined during 1219e9641c91SJeremy Morse // a stack write: we can't currently express register locations within 1220e9641c91SJeremy Morse // spills. 1221e9641c91SJeremy Morse LocIdx L = NewID->getLoc(); 1222e9641c91SJeremy Morse if (NewID && !MTracker->isSpill(L)) { 1223e9641c91SJeremy Morse // Find the register class for the register where this def happened. 1224e9641c91SJeremy Morse // FIXME: no index for this? 1225e9641c91SJeremy Morse Register Reg = MTracker->LocIdxToLocID[L]; 1226e9641c91SJeremy Morse const TargetRegisterClass *TRC = nullptr; 12279e6d1f4bSKazu Hirata for (const auto *TRCI : TRI->regclasses()) 1228e9641c91SJeremy Morse if (TRCI->contains(Reg)) 1229e9641c91SJeremy Morse TRC = TRCI; 1230e9641c91SJeremy Morse assert(TRC && "Couldn't find target register class?"); 1231e9641c91SJeremy Morse 1232e9641c91SJeremy Morse // If the register we have isn't the right size or in the right place, 1233e9641c91SJeremy Morse // Try to find a subregister inside it. 1234e9641c91SJeremy Morse unsigned MainRegSize = TRI->getRegSizeInBits(*TRC); 1235e9641c91SJeremy Morse if (Size != MainRegSize || Offset) { 1236e9641c91SJeremy Morse // Enumerate all subregisters, searching. 1237e9641c91SJeremy Morse Register NewReg = 0; 1238e9641c91SJeremy Morse for (MCSubRegIterator SRI(Reg, TRI, false); SRI.isValid(); ++SRI) { 1239e9641c91SJeremy Morse unsigned Subreg = TRI->getSubRegIndex(Reg, *SRI); 1240e9641c91SJeremy Morse unsigned SubregSize = TRI->getSubRegIdxSize(Subreg); 1241e9641c91SJeremy Morse unsigned SubregOffset = TRI->getSubRegIdxOffset(Subreg); 1242e9641c91SJeremy Morse if (SubregSize == Size && SubregOffset == Offset) { 1243e9641c91SJeremy Morse NewReg = *SRI; 1244e9641c91SJeremy Morse break; 1245e9641c91SJeremy Morse } 1246e9641c91SJeremy Morse } 1247e9641c91SJeremy Morse 1248e9641c91SJeremy Morse // If we didn't find anything: there's no way to express our value. 1249e9641c91SJeremy Morse if (!NewReg) { 1250e9641c91SJeremy Morse NewID = None; 1251e9641c91SJeremy Morse } else { 1252e9641c91SJeremy Morse // Re-state the value as being defined within the subregister 1253e9641c91SJeremy Morse // that we found. 1254e9641c91SJeremy Morse LocIdx NewLoc = MTracker->lookupOrTrackRegister(NewReg); 1255e9641c91SJeremy Morse NewID = ValueIDNum(NewID->getBlock(), NewID->getInst(), NewLoc); 1256e9641c91SJeremy Morse } 1257e9641c91SJeremy Morse } 1258e9641c91SJeremy Morse } else { 1259e9641c91SJeremy Morse // If we can't handle subregisters, unset the new value. 1260e9641c91SJeremy Morse NewID = None; 1261e9641c91SJeremy Morse } 1262e9641c91SJeremy Morse } 1263e9641c91SJeremy Morse 126468f47157SJeremy Morse // We, we have a value number or None. Tell the variable value tracker about 126568f47157SJeremy Morse // it. The rest of this LiveDebugValues implementation acts exactly the same 126668f47157SJeremy Morse // for DBG_INSTR_REFs as DBG_VALUEs (just, the former can refer to values that 126768f47157SJeremy Morse // aren't immediately available). 126868f47157SJeremy Morse DbgValueProperties Properties(Expr, false); 1269a80181a8SJeremy Morse if (VTracker) 127068f47157SJeremy Morse VTracker->defVar(MI, Properties, NewID); 127168f47157SJeremy Morse 127268f47157SJeremy Morse // If we're on the final pass through the function, decompose this INSTR_REF 127368f47157SJeremy Morse // into a plain DBG_VALUE. 127468f47157SJeremy Morse if (!TTracker) 127568f47157SJeremy Morse return true; 127668f47157SJeremy Morse 127768f47157SJeremy Morse // Pick a location for the machine value number, if such a location exists. 127868f47157SJeremy Morse // (This information could be stored in TransferTracker to make it faster). 127968f47157SJeremy Morse Optional<LocIdx> FoundLoc = None; 128068f47157SJeremy Morse for (auto Location : MTracker->locations()) { 128168f47157SJeremy Morse LocIdx CurL = Location.Idx; 1282d9eebe3cSJeremy Morse ValueIDNum ID = MTracker->readMLoc(CurL); 128368f47157SJeremy Morse if (NewID && ID == NewID) { 128468f47157SJeremy Morse // If this is the first location with that value, pick it. Otherwise, 128568f47157SJeremy Morse // consider whether it's a "longer term" location. 128668f47157SJeremy Morse if (!FoundLoc) { 128768f47157SJeremy Morse FoundLoc = CurL; 128868f47157SJeremy Morse continue; 128968f47157SJeremy Morse } 129068f47157SJeremy Morse 129168f47157SJeremy Morse if (MTracker->isSpill(CurL)) 129268f47157SJeremy Morse FoundLoc = CurL; // Spills are a longer term location. 129368f47157SJeremy Morse else if (!MTracker->isSpill(*FoundLoc) && 129468f47157SJeremy Morse !MTracker->isSpill(CurL) && 129568f47157SJeremy Morse !isCalleeSaved(*FoundLoc) && 129668f47157SJeremy Morse isCalleeSaved(CurL)) 129768f47157SJeremy Morse FoundLoc = CurL; // Callee saved regs are longer term than normal. 129868f47157SJeremy Morse } 129968f47157SJeremy Morse } 130068f47157SJeremy Morse 130168f47157SJeremy Morse // Tell transfer tracker that the variable value has changed. 130268f47157SJeremy Morse TTracker->redefVar(MI, Properties, FoundLoc); 130368f47157SJeremy Morse 1304b1b2c6abSJeremy Morse // If there was a value with no location; but the value is defined in a 1305b1b2c6abSJeremy Morse // later instruction in this block, this is a block-local use-before-def. 1306b1b2c6abSJeremy Morse if (!FoundLoc && NewID && NewID->getBlock() == CurBB && 1307b1b2c6abSJeremy Morse NewID->getInst() > CurInst) 1308b1b2c6abSJeremy Morse TTracker->addUseBeforeDef(V, {MI.getDebugExpression(), false}, *NewID); 1309b1b2c6abSJeremy Morse 131068f47157SJeremy Morse // Produce a DBG_VALUE representing what this DBG_INSTR_REF meant. 131168f47157SJeremy Morse // This DBG_VALUE is potentially a $noreg / undefined location, if 131268f47157SJeremy Morse // FoundLoc is None. 131368f47157SJeremy Morse // (XXX -- could morph the DBG_INSTR_REF in the future). 131468f47157SJeremy Morse MachineInstr *DbgMI = MTracker->emitLoc(FoundLoc, V, Properties); 131568f47157SJeremy Morse TTracker->PendingDbgValues.push_back(DbgMI); 131668f47157SJeremy Morse TTracker->flushDbgValues(MI.getIterator(), nullptr); 1317010108bbSJeremy Morse return true; 1318010108bbSJeremy Morse } 1319010108bbSJeremy Morse 1320010108bbSJeremy Morse bool InstrRefBasedLDV::transferDebugPHI(MachineInstr &MI) { 1321010108bbSJeremy Morse if (!MI.isDebugPHI()) 1322010108bbSJeremy Morse return false; 1323010108bbSJeremy Morse 1324010108bbSJeremy Morse // Analyse these only when solving the machine value location problem. 1325010108bbSJeremy Morse if (VTracker || TTracker) 1326010108bbSJeremy Morse return true; 1327010108bbSJeremy Morse 1328010108bbSJeremy Morse // First operand is the value location, either a stack slot or register. 1329010108bbSJeremy Morse // Second is the debug instruction number of the original PHI. 1330010108bbSJeremy Morse const MachineOperand &MO = MI.getOperand(0); 1331010108bbSJeremy Morse unsigned InstrNum = MI.getOperand(1).getImm(); 1332010108bbSJeremy Morse 1333be5734ddSJeremy Morse auto EmitBadPHI = [this, &MI, InstrNum](void) -> bool { 1334be5734ddSJeremy Morse // Helper lambda to do any accounting when we fail to find a location for 1335be5734ddSJeremy Morse // a DBG_PHI. This can happen if DBG_PHIs are malformed, or refer to a 1336be5734ddSJeremy Morse // dead stack slot, for example. 1337be5734ddSJeremy Morse // Record a DebugPHIRecord with an empty value + location. 1338be5734ddSJeremy Morse DebugPHINumToValue.push_back({InstrNum, MI.getParent(), None, None}); 1339be5734ddSJeremy Morse return true; 1340be5734ddSJeremy Morse }; 1341be5734ddSJeremy Morse 1342be5734ddSJeremy Morse if (MO.isReg() && MO.getReg()) { 1343010108bbSJeremy Morse // The value is whatever's currently in the register. Read and record it, 1344010108bbSJeremy Morse // to be analysed later. 1345010108bbSJeremy Morse Register Reg = MO.getReg(); 1346010108bbSJeremy Morse ValueIDNum Num = MTracker->readReg(Reg); 1347010108bbSJeremy Morse auto PHIRec = DebugPHIRecord( 1348010108bbSJeremy Morse {InstrNum, MI.getParent(), Num, MTracker->lookupOrTrackRegister(Reg)}); 1349010108bbSJeremy Morse DebugPHINumToValue.push_back(PHIRec); 1350e265644bSJeremy Morse 1351e7084ceaSJeremy Morse // Ensure this register is tracked. 1352e265644bSJeremy Morse for (MCRegAliasIterator RAI(MO.getReg(), TRI, true); RAI.isValid(); ++RAI) 1353e265644bSJeremy Morse MTracker->lookupOrTrackRegister(*RAI); 1354be5734ddSJeremy Morse } else if (MO.isFI()) { 1355010108bbSJeremy Morse // The value is whatever's in this stack slot. 1356010108bbSJeremy Morse unsigned FI = MO.getIndex(); 1357010108bbSJeremy Morse 1358010108bbSJeremy Morse // If the stack slot is dead, then this was optimized away. 1359010108bbSJeremy Morse // FIXME: stack slot colouring should account for slots that get merged. 1360010108bbSJeremy Morse if (MFI->isDeadObjectIndex(FI)) 1361be5734ddSJeremy Morse return EmitBadPHI(); 1362010108bbSJeremy Morse 1363e7084ceaSJeremy Morse // Identify this spill slot, ensure it's tracked. 1364010108bbSJeremy Morse Register Base; 1365010108bbSJeremy Morse StackOffset Offs = TFI->getFrameIndexReference(*MI.getMF(), FI, Base); 1366010108bbSJeremy Morse SpillLoc SL = {Base, Offs}; 136714aaaa12SJeremy Morse Optional<SpillLocationNo> SpillNo = MTracker->getOrTrackSpillLoc(SL); 136814aaaa12SJeremy Morse 136914aaaa12SJeremy Morse // We might be able to find a value, but have chosen not to, to avoid 137014aaaa12SJeremy Morse // tracking too much stack information. 137114aaaa12SJeremy Morse if (!SpillNo) 1372be5734ddSJeremy Morse return EmitBadPHI(); 1373010108bbSJeremy Morse 137465d5becaSJeremy Morse // Any stack location DBG_PHI should have an associate bit-size. 137565d5becaSJeremy Morse assert(MI.getNumOperands() == 3 && "Stack DBG_PHI with no size?"); 137665d5becaSJeremy Morse unsigned slotBitSize = MI.getOperand(2).getImm(); 1377e7084ceaSJeremy Morse 137865d5becaSJeremy Morse unsigned SpillID = MTracker->getLocID(*SpillNo, {slotBitSize, 0}); 137965d5becaSJeremy Morse LocIdx SpillLoc = MTracker->getSpillMLoc(SpillID); 138065d5becaSJeremy Morse ValueIDNum Result = MTracker->readMLoc(SpillLoc); 1381010108bbSJeremy Morse 1382010108bbSJeremy Morse // Record this DBG_PHI for later analysis. 138365d5becaSJeremy Morse auto DbgPHI = DebugPHIRecord({InstrNum, MI.getParent(), Result, SpillLoc}); 1384010108bbSJeremy Morse DebugPHINumToValue.push_back(DbgPHI); 1385be5734ddSJeremy Morse } else { 1386be5734ddSJeremy Morse // Else: if the operand is neither a legal register or a stack slot, then 1387be5734ddSJeremy Morse // we're being fed illegal debug-info. Record an empty PHI, so that any 1388be5734ddSJeremy Morse // debug users trying to read this number will be put off trying to 1389be5734ddSJeremy Morse // interpret the value. 1390be5734ddSJeremy Morse LLVM_DEBUG( 1391be5734ddSJeremy Morse { dbgs() << "Seen DBG_PHI with unrecognised operand format\n"; }); 1392be5734ddSJeremy Morse return EmitBadPHI(); 1393010108bbSJeremy Morse } 139468f47157SJeremy Morse 139568f47157SJeremy Morse return true; 139668f47157SJeremy Morse } 139768f47157SJeremy Morse 1398ae6f7882SJeremy Morse void InstrRefBasedLDV::transferRegisterDef(MachineInstr &MI) { 1399ae6f7882SJeremy Morse // Meta Instructions do not affect the debug liveness of any register they 1400ae6f7882SJeremy Morse // define. 1401ae6f7882SJeremy Morse if (MI.isImplicitDef()) { 1402ae6f7882SJeremy Morse // Except when there's an implicit def, and the location it's defining has 1403ae6f7882SJeremy Morse // no value number. The whole point of an implicit def is to announce that 1404ae6f7882SJeremy Morse // the register is live, without be specific about it's value. So define 1405ae6f7882SJeremy Morse // a value if there isn't one already. 1406ae6f7882SJeremy Morse ValueIDNum Num = MTracker->readReg(MI.getOperand(0).getReg()); 1407ae6f7882SJeremy Morse // Has a legitimate value -> ignore the implicit def. 1408ae6f7882SJeremy Morse if (Num.getLoc() != 0) 1409ae6f7882SJeremy Morse return; 1410ae6f7882SJeremy Morse // Otherwise, def it here. 1411ae6f7882SJeremy Morse } else if (MI.isMetaInstruction()) 1412ae6f7882SJeremy Morse return; 1413ae6f7882SJeremy Morse 1414bfadc5dcSJeremy Morse // We always ignore SP defines on call instructions, they don't actually 1415bfadc5dcSJeremy Morse // change the value of the stack pointer... except for win32's _chkstk. This 1416bfadc5dcSJeremy Morse // is rare: filter quickly for the common case (no stack adjustments, not a 1417bfadc5dcSJeremy Morse // call, etc). If it is a call that modifies SP, recognise the SP register 1418bfadc5dcSJeremy Morse // defs. 1419bfadc5dcSJeremy Morse bool CallChangesSP = false; 1420bfadc5dcSJeremy Morse if (AdjustsStackInCalls && MI.isCall() && MI.getOperand(0).isSymbol() && 1421bfadc5dcSJeremy Morse !strcmp(MI.getOperand(0).getSymbolName(), StackProbeSymbolName.data())) 1422bfadc5dcSJeremy Morse CallChangesSP = true; 1423bfadc5dcSJeremy Morse 1424bfadc5dcSJeremy Morse // Test whether we should ignore a def of this register due to it being part 1425bfadc5dcSJeremy Morse // of the stack pointer. 1426bfadc5dcSJeremy Morse auto IgnoreSPAlias = [this, &MI, CallChangesSP](Register R) -> bool { 1427bfadc5dcSJeremy Morse if (CallChangesSP) 1428bfadc5dcSJeremy Morse return false; 1429133e25f9SJeremy Morse return MI.isCall() && MTracker->SPAliases.count(R); 1430133e25f9SJeremy Morse }; 1431133e25f9SJeremy Morse 1432ae6f7882SJeremy Morse // Find the regs killed by MI, and find regmasks of preserved regs. 1433ae6f7882SJeremy Morse // Max out the number of statically allocated elements in `DeadRegs`, as this 1434ae6f7882SJeremy Morse // prevents fallback to std::set::count() operations. 1435ae6f7882SJeremy Morse SmallSet<uint32_t, 32> DeadRegs; 1436ae6f7882SJeremy Morse SmallVector<const uint32_t *, 4> RegMasks; 1437ae6f7882SJeremy Morse SmallVector<const MachineOperand *, 4> RegMaskPtrs; 1438ae6f7882SJeremy Morse for (const MachineOperand &MO : MI.operands()) { 1439ae6f7882SJeremy Morse // Determine whether the operand is a register def. 1440ae6f7882SJeremy Morse if (MO.isReg() && MO.isDef() && MO.getReg() && 1441ae6f7882SJeremy Morse Register::isPhysicalRegister(MO.getReg()) && 1442133e25f9SJeremy Morse !IgnoreSPAlias(MO.getReg())) { 1443ae6f7882SJeremy Morse // Remove ranges of all aliased registers. 1444ae6f7882SJeremy Morse for (MCRegAliasIterator RAI(MO.getReg(), TRI, true); RAI.isValid(); ++RAI) 1445ae6f7882SJeremy Morse // FIXME: Can we break out of this loop early if no insertion occurs? 1446ae6f7882SJeremy Morse DeadRegs.insert(*RAI); 1447ae6f7882SJeremy Morse } else if (MO.isRegMask()) { 1448ae6f7882SJeremy Morse RegMasks.push_back(MO.getRegMask()); 1449ae6f7882SJeremy Morse RegMaskPtrs.push_back(&MO); 1450ae6f7882SJeremy Morse } 1451ae6f7882SJeremy Morse } 1452ae6f7882SJeremy Morse 1453ae6f7882SJeremy Morse // Tell MLocTracker about all definitions, of regmasks and otherwise. 1454ae6f7882SJeremy Morse for (uint32_t DeadReg : DeadRegs) 1455ae6f7882SJeremy Morse MTracker->defReg(DeadReg, CurBB, CurInst); 1456ae6f7882SJeremy Morse 14579e6d1f4bSKazu Hirata for (const auto *MO : RegMaskPtrs) 1458ae6f7882SJeremy Morse MTracker->writeRegMask(MO, CurBB, CurInst); 145949555441SJeremy Morse 1460ee3eee71SJeremy Morse // If this instruction writes to a spill slot, def that slot. 1461ee3eee71SJeremy Morse if (hasFoldedStackStore(MI)) { 146214aaaa12SJeremy Morse if (Optional<SpillLocationNo> SpillNo = extractSpillBaseRegAndOffset(MI)) { 1463ee3eee71SJeremy Morse for (unsigned int I = 0; I < MTracker->NumSlotIdxes; ++I) { 146414aaaa12SJeremy Morse unsigned SpillID = MTracker->getSpillIDWithIdx(*SpillNo, I); 1465ee3eee71SJeremy Morse LocIdx L = MTracker->getSpillMLoc(SpillID); 1466ee3eee71SJeremy Morse MTracker->setMLoc(L, ValueIDNum(CurBB, CurInst, L)); 1467ee3eee71SJeremy Morse } 1468ee3eee71SJeremy Morse } 146914aaaa12SJeremy Morse } 1470ee3eee71SJeremy Morse 147149555441SJeremy Morse if (!TTracker) 147249555441SJeremy Morse return; 147349555441SJeremy Morse 147449555441SJeremy Morse // When committing variable values to locations: tell transfer tracker that 147549555441SJeremy Morse // we've clobbered things. It may be able to recover the variable from a 147649555441SJeremy Morse // different location. 147749555441SJeremy Morse 147849555441SJeremy Morse // Inform TTracker about any direct clobbers. 147949555441SJeremy Morse for (uint32_t DeadReg : DeadRegs) { 148049555441SJeremy Morse LocIdx Loc = MTracker->lookupOrTrackRegister(DeadReg); 148149555441SJeremy Morse TTracker->clobberMloc(Loc, MI.getIterator(), false); 148249555441SJeremy Morse } 148349555441SJeremy Morse 148449555441SJeremy Morse // Look for any clobbers performed by a register mask. Only test locations 148549555441SJeremy Morse // that are actually being tracked. 14868e75536eSJeremy Morse if (!RegMaskPtrs.empty()) { 148749555441SJeremy Morse for (auto L : MTracker->locations()) { 148849555441SJeremy Morse // Stack locations can't be clobbered by regmasks. 148949555441SJeremy Morse if (MTracker->isSpill(L.Idx)) 149049555441SJeremy Morse continue; 149149555441SJeremy Morse 149249555441SJeremy Morse Register Reg = MTracker->LocIdxToLocID[L.Idx]; 1493133e25f9SJeremy Morse if (IgnoreSPAlias(Reg)) 1494133e25f9SJeremy Morse continue; 1495133e25f9SJeremy Morse 14969e6d1f4bSKazu Hirata for (const auto *MO : RegMaskPtrs) 149749555441SJeremy Morse if (MO->clobbersPhysReg(Reg)) 149849555441SJeremy Morse TTracker->clobberMloc(L.Idx, MI.getIterator(), false); 149949555441SJeremy Morse } 15008e75536eSJeremy Morse } 1501ee3eee71SJeremy Morse 1502ee3eee71SJeremy Morse // Tell TTracker about any folded stack store. 1503ee3eee71SJeremy Morse if (hasFoldedStackStore(MI)) { 150414aaaa12SJeremy Morse if (Optional<SpillLocationNo> SpillNo = extractSpillBaseRegAndOffset(MI)) { 1505ee3eee71SJeremy Morse for (unsigned int I = 0; I < MTracker->NumSlotIdxes; ++I) { 150614aaaa12SJeremy Morse unsigned SpillID = MTracker->getSpillIDWithIdx(*SpillNo, I); 1507ee3eee71SJeremy Morse LocIdx L = MTracker->getSpillMLoc(SpillID); 1508ee3eee71SJeremy Morse TTracker->clobberMloc(L, MI.getIterator(), true); 1509ee3eee71SJeremy Morse } 1510ee3eee71SJeremy Morse } 1511ae6f7882SJeremy Morse } 151214aaaa12SJeremy Morse } 1513ae6f7882SJeremy Morse 1514ae6f7882SJeremy Morse void InstrRefBasedLDV::performCopy(Register SrcRegNum, Register DstRegNum) { 1515d9eebe3cSJeremy Morse // In all circumstances, re-def all aliases. It's definitely a new value now. 1516d9eebe3cSJeremy Morse for (MCRegAliasIterator RAI(DstRegNum, TRI, true); RAI.isValid(); ++RAI) 1517d9eebe3cSJeremy Morse MTracker->defReg(*RAI, CurBB, CurInst); 1518ae6f7882SJeremy Morse 1519d9eebe3cSJeremy Morse ValueIDNum SrcValue = MTracker->readReg(SrcRegNum); 1520ae6f7882SJeremy Morse MTracker->setReg(DstRegNum, SrcValue); 1521ae6f7882SJeremy Morse 1522d9eebe3cSJeremy Morse // Copy subregisters from one location to another. 1523ae6f7882SJeremy Morse for (MCSubRegIndexIterator SRI(SrcRegNum, TRI); SRI.isValid(); ++SRI) { 1524ae6f7882SJeremy Morse unsigned SrcSubReg = SRI.getSubReg(); 1525ae6f7882SJeremy Morse unsigned SubRegIdx = SRI.getSubRegIndex(); 1526ae6f7882SJeremy Morse unsigned DstSubReg = TRI->getSubReg(DstRegNum, SubRegIdx); 1527ae6f7882SJeremy Morse if (!DstSubReg) 1528ae6f7882SJeremy Morse continue; 1529ae6f7882SJeremy Morse 1530ae6f7882SJeremy Morse // Do copy. There are two matching subregisters, the source value should 1531ae6f7882SJeremy Morse // have been def'd when the super-reg was, the latter might not be tracked 1532ae6f7882SJeremy Morse // yet. 1533d9eebe3cSJeremy Morse // This will force SrcSubReg to be tracked, if it isn't yet. Will read 1534d9eebe3cSJeremy Morse // mphi values if it wasn't tracked. 1535d9eebe3cSJeremy Morse LocIdx SrcL = MTracker->lookupOrTrackRegister(SrcSubReg); 1536d9eebe3cSJeremy Morse LocIdx DstL = MTracker->lookupOrTrackRegister(DstSubReg); 1537d9eebe3cSJeremy Morse (void)SrcL; 1538ae6f7882SJeremy Morse (void)DstL; 1539d9eebe3cSJeremy Morse ValueIDNum CpyValue = MTracker->readReg(SrcSubReg); 1540ae6f7882SJeremy Morse 1541ae6f7882SJeremy Morse MTracker->setReg(DstSubReg, CpyValue); 1542ae6f7882SJeremy Morse } 1543ae6f7882SJeremy Morse } 1544ae6f7882SJeremy Morse 154514aaaa12SJeremy Morse Optional<SpillLocationNo> 154614aaaa12SJeremy Morse InstrRefBasedLDV::isSpillInstruction(const MachineInstr &MI, 1547ae6f7882SJeremy Morse MachineFunction *MF) { 1548ae6f7882SJeremy Morse // TODO: Handle multiple stores folded into one. 1549ae6f7882SJeremy Morse if (!MI.hasOneMemOperand()) 155014aaaa12SJeremy Morse return None; 1551ae6f7882SJeremy Morse 1552ee3eee71SJeremy Morse // Reject any memory operand that's aliased -- we can't guarantee its value. 1553ee3eee71SJeremy Morse auto MMOI = MI.memoperands_begin(); 1554ee3eee71SJeremy Morse const PseudoSourceValue *PVal = (*MMOI)->getPseudoValue(); 1555ee3eee71SJeremy Morse if (PVal->isAliased(MFI)) 155614aaaa12SJeremy Morse return None; 1557ee3eee71SJeremy Morse 1558ae6f7882SJeremy Morse if (!MI.getSpillSize(TII) && !MI.getFoldedSpillSize(TII)) 155914aaaa12SJeremy Morse return None; // This is not a spill instruction, since no valid size was 1560ae6f7882SJeremy Morse // returned from either function. 1561ae6f7882SJeremy Morse 156214aaaa12SJeremy Morse return extractSpillBaseRegAndOffset(MI); 1563ae6f7882SJeremy Morse } 1564ae6f7882SJeremy Morse 1565ae6f7882SJeremy Morse bool InstrRefBasedLDV::isLocationSpill(const MachineInstr &MI, 1566ae6f7882SJeremy Morse MachineFunction *MF, unsigned &Reg) { 1567ae6f7882SJeremy Morse if (!isSpillInstruction(MI, MF)) 1568ae6f7882SJeremy Morse return false; 1569ae6f7882SJeremy Morse 1570ae6f7882SJeremy Morse int FI; 1571ae6f7882SJeremy Morse Reg = TII->isStoreToStackSlotPostFE(MI, FI); 1572ae6f7882SJeremy Morse return Reg != 0; 1573ae6f7882SJeremy Morse } 1574ae6f7882SJeremy Morse 1575e7084ceaSJeremy Morse Optional<SpillLocationNo> 1576ae6f7882SJeremy Morse InstrRefBasedLDV::isRestoreInstruction(const MachineInstr &MI, 1577ae6f7882SJeremy Morse MachineFunction *MF, unsigned &Reg) { 1578ae6f7882SJeremy Morse if (!MI.hasOneMemOperand()) 1579ae6f7882SJeremy Morse return None; 1580ae6f7882SJeremy Morse 1581ae6f7882SJeremy Morse // FIXME: Handle folded restore instructions with more than one memory 1582ae6f7882SJeremy Morse // operand. 1583ae6f7882SJeremy Morse if (MI.getRestoreSize(TII)) { 1584ae6f7882SJeremy Morse Reg = MI.getOperand(0).getReg(); 1585ae6f7882SJeremy Morse return extractSpillBaseRegAndOffset(MI); 1586ae6f7882SJeremy Morse } 1587ae6f7882SJeremy Morse return None; 1588ae6f7882SJeremy Morse } 1589ae6f7882SJeremy Morse 1590ae6f7882SJeremy Morse bool InstrRefBasedLDV::transferSpillOrRestoreInst(MachineInstr &MI) { 1591ae6f7882SJeremy Morse // XXX -- it's too difficult to implement VarLocBasedImpl's stack location 1592ae6f7882SJeremy Morse // limitations under the new model. Therefore, when comparing them, compare 1593ae6f7882SJeremy Morse // versions that don't attempt spills or restores at all. 1594ae6f7882SJeremy Morse if (EmulateOldLDV) 1595ae6f7882SJeremy Morse return false; 1596ae6f7882SJeremy Morse 1597e7084ceaSJeremy Morse // Strictly limit ourselves to plain loads and stores, not all instructions 1598e7084ceaSJeremy Morse // that can access the stack. 1599e7084ceaSJeremy Morse int DummyFI = -1; 1600e7084ceaSJeremy Morse if (!TII->isStoreToStackSlotPostFE(MI, DummyFI) && 1601e7084ceaSJeremy Morse !TII->isLoadFromStackSlotPostFE(MI, DummyFI)) 1602e7084ceaSJeremy Morse return false; 1603e7084ceaSJeremy Morse 1604ae6f7882SJeremy Morse MachineFunction *MF = MI.getMF(); 1605ae6f7882SJeremy Morse unsigned Reg; 1606ae6f7882SJeremy Morse 1607ae6f7882SJeremy Morse LLVM_DEBUG(dbgs() << "Examining instruction: "; MI.dump();); 1608ae6f7882SJeremy Morse 1609ee3eee71SJeremy Morse // Strictly limit ourselves to plain loads and stores, not all instructions 1610ee3eee71SJeremy Morse // that can access the stack. 1611ee3eee71SJeremy Morse int FIDummy; 1612ee3eee71SJeremy Morse if (!TII->isStoreToStackSlotPostFE(MI, FIDummy) && 1613ee3eee71SJeremy Morse !TII->isLoadFromStackSlotPostFE(MI, FIDummy)) 1614ee3eee71SJeremy Morse return false; 1615ee3eee71SJeremy Morse 1616ae6f7882SJeremy Morse // First, if there are any DBG_VALUEs pointing at a spill slot that is 1617ae6f7882SJeremy Morse // written to, terminate that variable location. The value in memory 1618ae6f7882SJeremy Morse // will have changed. DbgEntityHistoryCalculator doesn't try to detect this. 161914aaaa12SJeremy Morse if (Optional<SpillLocationNo> Loc = isSpillInstruction(MI, MF)) { 1620e7084ceaSJeremy Morse // Un-set this location and clobber, so that earlier locations don't 1621e7084ceaSJeremy Morse // continue past this store. 1622e7084ceaSJeremy Morse for (unsigned SlotIdx = 0; SlotIdx < MTracker->NumSlotIdxes; ++SlotIdx) { 162314aaaa12SJeremy Morse unsigned SpillID = MTracker->getSpillIDWithIdx(*Loc, SlotIdx); 1624e7084ceaSJeremy Morse Optional<LocIdx> MLoc = MTracker->getSpillMLoc(SpillID); 1625e7084ceaSJeremy Morse if (!MLoc) 1626e7084ceaSJeremy Morse continue; 1627e7084ceaSJeremy Morse 1628e7084ceaSJeremy Morse // We need to over-write the stack slot with something (here, a def at 1629e7084ceaSJeremy Morse // this instruction) to ensure no values are preserved in this stack slot 1630e7084ceaSJeremy Morse // after the spill. It also prevents TTracker from trying to recover the 1631e7084ceaSJeremy Morse // location and re-installing it in the same place. 1632e7084ceaSJeremy Morse ValueIDNum Def(CurBB, CurInst, *MLoc); 1633e7084ceaSJeremy Morse MTracker->setMLoc(*MLoc, Def); 1634e7084ceaSJeremy Morse if (TTracker) 1635ae6f7882SJeremy Morse TTracker->clobberMloc(*MLoc, MI.getIterator()); 1636ae6f7882SJeremy Morse } 1637ae6f7882SJeremy Morse } 1638ae6f7882SJeremy Morse 1639ae6f7882SJeremy Morse // Try to recognise spill and restore instructions that may transfer a value. 1640ae6f7882SJeremy Morse if (isLocationSpill(MI, MF, Reg)) { 164114aaaa12SJeremy Morse // isLocationSpill returning true should guarantee we can extract a 164214aaaa12SJeremy Morse // location. 164314aaaa12SJeremy Morse SpillLocationNo Loc = *extractSpillBaseRegAndOffset(MI); 1644ae6f7882SJeremy Morse 1645e7084ceaSJeremy Morse auto DoTransfer = [&](Register SrcReg, unsigned SpillID) { 1646e7084ceaSJeremy Morse auto ReadValue = MTracker->readReg(SrcReg); 1647e7084ceaSJeremy Morse LocIdx DstLoc = MTracker->getSpillMLoc(SpillID); 1648e7084ceaSJeremy Morse MTracker->setMLoc(DstLoc, ReadValue); 1649ae6f7882SJeremy Morse 1650e7084ceaSJeremy Morse if (TTracker) { 1651e7084ceaSJeremy Morse LocIdx SrcLoc = MTracker->getRegMLoc(SrcReg); 1652e7084ceaSJeremy Morse TTracker->transferMlocs(SrcLoc, DstLoc, MI.getIterator()); 1653ae6f7882SJeremy Morse } 1654e7084ceaSJeremy Morse }; 1655e7084ceaSJeremy Morse 1656e7084ceaSJeremy Morse // Then, transfer subreg bits. 1657e7084ceaSJeremy Morse for (MCSubRegIterator SRI(Reg, TRI, false); SRI.isValid(); ++SRI) { 1658e7084ceaSJeremy Morse // Ensure this reg is tracked, 1659e7084ceaSJeremy Morse (void)MTracker->lookupOrTrackRegister(*SRI); 1660e7084ceaSJeremy Morse unsigned SubregIdx = TRI->getSubRegIndex(Reg, *SRI); 1661e7084ceaSJeremy Morse unsigned SpillID = MTracker->getLocID(Loc, SubregIdx); 1662e7084ceaSJeremy Morse DoTransfer(*SRI, SpillID); 1663e7084ceaSJeremy Morse } 1664e7084ceaSJeremy Morse 1665e7084ceaSJeremy Morse // Directly lookup size of main source reg, and transfer. 1666e7084ceaSJeremy Morse unsigned Size = TRI->getRegSizeInBits(Reg, *MRI); 1667e7084ceaSJeremy Morse unsigned SpillID = MTracker->getLocID(Loc, {Size, 0}); 1668e7084ceaSJeremy Morse DoTransfer(Reg, SpillID); 1669e7084ceaSJeremy Morse } else { 167014aaaa12SJeremy Morse Optional<SpillLocationNo> Loc = isRestoreInstruction(MI, MF, Reg); 167114aaaa12SJeremy Morse if (!Loc) 1672e7084ceaSJeremy Morse return false; 1673e7084ceaSJeremy Morse 1674e7084ceaSJeremy Morse // Assumption: we're reading from the base of the stack slot, not some 1675e7084ceaSJeremy Morse // offset into it. It seems very unlikely LLVM would ever generate 1676e7084ceaSJeremy Morse // restores where this wasn't true. This then becomes a question of what 1677e7084ceaSJeremy Morse // subregisters in the destination register line up with positions in the 1678e7084ceaSJeremy Morse // stack slot. 1679e7084ceaSJeremy Morse 1680e7084ceaSJeremy Morse // Def all registers that alias the destination. 1681e7084ceaSJeremy Morse for (MCRegAliasIterator RAI(Reg, TRI, true); RAI.isValid(); ++RAI) 1682e7084ceaSJeremy Morse MTracker->defReg(*RAI, CurBB, CurInst); 1683e7084ceaSJeremy Morse 1684e7084ceaSJeremy Morse // Now find subregisters within the destination register, and load values 1685e7084ceaSJeremy Morse // from stack slot positions. 1686e7084ceaSJeremy Morse auto DoTransfer = [&](Register DestReg, unsigned SpillID) { 1687e7084ceaSJeremy Morse LocIdx SrcIdx = MTracker->getSpillMLoc(SpillID); 1688e7084ceaSJeremy Morse auto ReadValue = MTracker->readMLoc(SrcIdx); 1689e7084ceaSJeremy Morse MTracker->setReg(DestReg, ReadValue); 1690e7084ceaSJeremy Morse }; 1691e7084ceaSJeremy Morse 1692e7084ceaSJeremy Morse for (MCSubRegIterator SRI(Reg, TRI, false); SRI.isValid(); ++SRI) { 1693e7084ceaSJeremy Morse unsigned Subreg = TRI->getSubRegIndex(Reg, *SRI); 169414aaaa12SJeremy Morse unsigned SpillID = MTracker->getLocID(*Loc, Subreg); 1695e7084ceaSJeremy Morse DoTransfer(*SRI, SpillID); 1696e7084ceaSJeremy Morse } 1697e7084ceaSJeremy Morse 1698e7084ceaSJeremy Morse // Directly look up this registers slot idx by size, and transfer. 1699e7084ceaSJeremy Morse unsigned Size = TRI->getRegSizeInBits(Reg, *MRI); 170014aaaa12SJeremy Morse unsigned SpillID = MTracker->getLocID(*Loc, {Size, 0}); 1701e7084ceaSJeremy Morse DoTransfer(Reg, SpillID); 1702ae6f7882SJeremy Morse } 1703ae6f7882SJeremy Morse return true; 1704ae6f7882SJeremy Morse } 1705ae6f7882SJeremy Morse 1706ae6f7882SJeremy Morse bool InstrRefBasedLDV::transferRegisterCopy(MachineInstr &MI) { 1707ae6f7882SJeremy Morse auto DestSrc = TII->isCopyInstr(MI); 1708ae6f7882SJeremy Morse if (!DestSrc) 1709ae6f7882SJeremy Morse return false; 1710ae6f7882SJeremy Morse 1711ae6f7882SJeremy Morse const MachineOperand *DestRegOp = DestSrc->Destination; 1712ae6f7882SJeremy Morse const MachineOperand *SrcRegOp = DestSrc->Source; 1713ae6f7882SJeremy Morse 1714ae6f7882SJeremy Morse auto isCalleeSavedReg = [&](unsigned Reg) { 1715ae6f7882SJeremy Morse for (MCRegAliasIterator RAI(Reg, TRI, true); RAI.isValid(); ++RAI) 1716ae6f7882SJeremy Morse if (CalleeSavedRegs.test(*RAI)) 1717ae6f7882SJeremy Morse return true; 1718ae6f7882SJeremy Morse return false; 1719ae6f7882SJeremy Morse }; 1720ae6f7882SJeremy Morse 1721ae6f7882SJeremy Morse Register SrcReg = SrcRegOp->getReg(); 1722ae6f7882SJeremy Morse Register DestReg = DestRegOp->getReg(); 1723ae6f7882SJeremy Morse 1724ae6f7882SJeremy Morse // Ignore identity copies. Yep, these make it as far as LiveDebugValues. 1725ae6f7882SJeremy Morse if (SrcReg == DestReg) 1726ae6f7882SJeremy Morse return true; 1727ae6f7882SJeremy Morse 1728ae6f7882SJeremy Morse // For emulating VarLocBasedImpl: 1729ae6f7882SJeremy Morse // We want to recognize instructions where destination register is callee 1730ae6f7882SJeremy Morse // saved register. If register that could be clobbered by the call is 1731ae6f7882SJeremy Morse // included, there would be a great chance that it is going to be clobbered 1732ae6f7882SJeremy Morse // soon. It is more likely that previous register, which is callee saved, is 1733ae6f7882SJeremy Morse // going to stay unclobbered longer, even if it is killed. 1734ae6f7882SJeremy Morse // 1735ae6f7882SJeremy Morse // For InstrRefBasedImpl, we can track multiple locations per value, so 1736ae6f7882SJeremy Morse // ignore this condition. 1737ae6f7882SJeremy Morse if (EmulateOldLDV && !isCalleeSavedReg(DestReg)) 1738ae6f7882SJeremy Morse return false; 1739ae6f7882SJeremy Morse 1740ae6f7882SJeremy Morse // InstrRefBasedImpl only followed killing copies. 1741ae6f7882SJeremy Morse if (EmulateOldLDV && !SrcRegOp->isKill()) 1742ae6f7882SJeremy Morse return false; 1743ae6f7882SJeremy Morse 1744f9ac161aSStephen Tozer // Before we update MTracker, remember which values were present in each of 1745f9ac161aSStephen Tozer // the locations about to be overwritten, so that we can recover any 1746f9ac161aSStephen Tozer // potentially clobbered variables. 1747f9ac161aSStephen Tozer DenseMap<LocIdx, ValueIDNum> ClobberedLocs; 1748f9ac161aSStephen Tozer if (TTracker) { 1749f9ac161aSStephen Tozer for (MCRegAliasIterator RAI(DestReg, TRI, true); RAI.isValid(); ++RAI) { 1750f9ac161aSStephen Tozer LocIdx ClobberedLoc = MTracker->getRegMLoc(*RAI); 1751f9ac161aSStephen Tozer auto MLocIt = TTracker->ActiveMLocs.find(ClobberedLoc); 1752f9ac161aSStephen Tozer // If ActiveMLocs isn't tracking this location or there are no variables 1753f9ac161aSStephen Tozer // using it, don't bother remembering. 1754f9ac161aSStephen Tozer if (MLocIt == TTracker->ActiveMLocs.end() || MLocIt->second.empty()) 1755f9ac161aSStephen Tozer continue; 1756f9ac161aSStephen Tozer ValueIDNum Value = MTracker->readReg(*RAI); 1757f9ac161aSStephen Tozer ClobberedLocs[ClobberedLoc] = Value; 1758f9ac161aSStephen Tozer } 1759f9ac161aSStephen Tozer } 1760f9ac161aSStephen Tozer 1761ae6f7882SJeremy Morse // Copy MTracker info, including subregs if available. 1762ae6f7882SJeremy Morse InstrRefBasedLDV::performCopy(SrcReg, DestReg); 1763ae6f7882SJeremy Morse 1764f9ac161aSStephen Tozer // The copy might have clobbered variables based on the destination register. 1765f9ac161aSStephen Tozer // Tell TTracker about it, passing the old ValueIDNum to search for 1766f9ac161aSStephen Tozer // alternative locations (or else terminating those variables). 1767f9ac161aSStephen Tozer if (TTracker) { 1768f9ac161aSStephen Tozer for (auto LocVal : ClobberedLocs) { 1769f9ac161aSStephen Tozer TTracker->clobberMloc(LocVal.first, LocVal.second, MI.getIterator(), false); 1770f9ac161aSStephen Tozer } 1771f9ac161aSStephen Tozer } 1772f9ac161aSStephen Tozer 1773ae6f7882SJeremy Morse // Only produce a transfer of DBG_VALUE within a block where old LDV 1774ae6f7882SJeremy Morse // would have. We might make use of the additional value tracking in some 1775ae6f7882SJeremy Morse // other way, later. 1776ae6f7882SJeremy Morse if (TTracker && isCalleeSavedReg(DestReg) && SrcRegOp->isKill()) 1777ae6f7882SJeremy Morse TTracker->transferMlocs(MTracker->getRegMLoc(SrcReg), 1778ae6f7882SJeremy Morse MTracker->getRegMLoc(DestReg), MI.getIterator()); 1779ae6f7882SJeremy Morse 1780ae6f7882SJeremy Morse // VarLocBasedImpl would quit tracking the old location after copying. 1781ae6f7882SJeremy Morse if (EmulateOldLDV && SrcReg != DestReg) 1782ae6f7882SJeremy Morse MTracker->defReg(SrcReg, CurBB, CurInst); 1783ae6f7882SJeremy Morse 1784ae6f7882SJeremy Morse return true; 1785ae6f7882SJeremy Morse } 1786ae6f7882SJeremy Morse 1787ae6f7882SJeremy Morse /// Accumulate a mapping between each DILocalVariable fragment and other 1788ae6f7882SJeremy Morse /// fragments of that DILocalVariable which overlap. This reduces work during 1789ae6f7882SJeremy Morse /// the data-flow stage from "Find any overlapping fragments" to "Check if the 1790ae6f7882SJeremy Morse /// known-to-overlap fragments are present". 17910eee8445SJeremy Morse /// \param MI A previously unprocessed debug instruction to analyze for 1792ae6f7882SJeremy Morse /// fragment usage. 1793ae6f7882SJeremy Morse void InstrRefBasedLDV::accumulateFragmentMap(MachineInstr &MI) { 17940eee8445SJeremy Morse assert(MI.isDebugValue() || MI.isDebugRef()); 1795ae6f7882SJeremy Morse DebugVariable MIVar(MI.getDebugVariable(), MI.getDebugExpression(), 1796ae6f7882SJeremy Morse MI.getDebugLoc()->getInlinedAt()); 1797ae6f7882SJeremy Morse FragmentInfo ThisFragment = MIVar.getFragmentOrDefault(); 1798ae6f7882SJeremy Morse 1799ae6f7882SJeremy Morse // If this is the first sighting of this variable, then we are guaranteed 1800ae6f7882SJeremy Morse // there are currently no overlapping fragments either. Initialize the set 1801ae6f7882SJeremy Morse // of seen fragments, record no overlaps for the current one, and return. 1802ae6f7882SJeremy Morse auto SeenIt = SeenFragments.find(MIVar.getVariable()); 1803ae6f7882SJeremy Morse if (SeenIt == SeenFragments.end()) { 1804ae6f7882SJeremy Morse SmallSet<FragmentInfo, 4> OneFragment; 1805ae6f7882SJeremy Morse OneFragment.insert(ThisFragment); 1806ae6f7882SJeremy Morse SeenFragments.insert({MIVar.getVariable(), OneFragment}); 1807ae6f7882SJeremy Morse 1808ae6f7882SJeremy Morse OverlapFragments.insert({{MIVar.getVariable(), ThisFragment}, {}}); 1809ae6f7882SJeremy Morse return; 1810ae6f7882SJeremy Morse } 1811ae6f7882SJeremy Morse 1812ae6f7882SJeremy Morse // If this particular Variable/Fragment pair already exists in the overlap 1813ae6f7882SJeremy Morse // map, it has already been accounted for. 1814ae6f7882SJeremy Morse auto IsInOLapMap = 1815ae6f7882SJeremy Morse OverlapFragments.insert({{MIVar.getVariable(), ThisFragment}, {}}); 1816ae6f7882SJeremy Morse if (!IsInOLapMap.second) 1817ae6f7882SJeremy Morse return; 1818ae6f7882SJeremy Morse 1819ae6f7882SJeremy Morse auto &ThisFragmentsOverlaps = IsInOLapMap.first->second; 1820ae6f7882SJeremy Morse auto &AllSeenFragments = SeenIt->second; 1821ae6f7882SJeremy Morse 1822ae6f7882SJeremy Morse // Otherwise, examine all other seen fragments for this variable, with "this" 1823ae6f7882SJeremy Morse // fragment being a previously unseen fragment. Record any pair of 1824ae6f7882SJeremy Morse // overlapping fragments. 18259e6d1f4bSKazu Hirata for (const auto &ASeenFragment : AllSeenFragments) { 1826ae6f7882SJeremy Morse // Does this previously seen fragment overlap? 1827ae6f7882SJeremy Morse if (DIExpression::fragmentsOverlap(ThisFragment, ASeenFragment)) { 1828ae6f7882SJeremy Morse // Yes: Mark the current fragment as being overlapped. 1829ae6f7882SJeremy Morse ThisFragmentsOverlaps.push_back(ASeenFragment); 1830ae6f7882SJeremy Morse // Mark the previously seen fragment as being overlapped by the current 1831ae6f7882SJeremy Morse // one. 1832ae6f7882SJeremy Morse auto ASeenFragmentsOverlaps = 1833ae6f7882SJeremy Morse OverlapFragments.find({MIVar.getVariable(), ASeenFragment}); 1834ae6f7882SJeremy Morse assert(ASeenFragmentsOverlaps != OverlapFragments.end() && 1835ae6f7882SJeremy Morse "Previously seen var fragment has no vector of overlaps"); 1836ae6f7882SJeremy Morse ASeenFragmentsOverlaps->second.push_back(ThisFragment); 1837ae6f7882SJeremy Morse } 1838ae6f7882SJeremy Morse } 1839ae6f7882SJeremy Morse 1840ae6f7882SJeremy Morse AllSeenFragments.insert(ThisFragment); 1841ae6f7882SJeremy Morse } 1842ae6f7882SJeremy Morse 1843ab49dce0SJeremy Morse void InstrRefBasedLDV::process(MachineInstr &MI, const ValueTable *MLiveOuts, 1844ab49dce0SJeremy Morse const ValueTable *MLiveIns) { 1845ae6f7882SJeremy Morse // Try to interpret an MI as a debug or transfer instruction. Only if it's 1846ae6f7882SJeremy Morse // none of these should we interpret it's register defs as new value 1847ae6f7882SJeremy Morse // definitions. 1848ae6f7882SJeremy Morse if (transferDebugValue(MI)) 1849ae6f7882SJeremy Morse return; 1850010108bbSJeremy Morse if (transferDebugInstrRef(MI, MLiveOuts, MLiveIns)) 1851010108bbSJeremy Morse return; 1852010108bbSJeremy Morse if (transferDebugPHI(MI)) 185368f47157SJeremy Morse return; 1854ae6f7882SJeremy Morse if (transferRegisterCopy(MI)) 1855ae6f7882SJeremy Morse return; 1856ae6f7882SJeremy Morse if (transferSpillOrRestoreInst(MI)) 1857ae6f7882SJeremy Morse return; 1858ae6f7882SJeremy Morse transferRegisterDef(MI); 1859ae6f7882SJeremy Morse } 1860ae6f7882SJeremy Morse 1861ab93e710SJeremy Morse void InstrRefBasedLDV::produceMLocTransferFunction( 1862ae6f7882SJeremy Morse MachineFunction &MF, SmallVectorImpl<MLocTransferMap> &MLocTransfer, 1863ab93e710SJeremy Morse unsigned MaxNumBlocks) { 1864ae6f7882SJeremy Morse // Because we try to optimize around register mask operands by ignoring regs 1865ae6f7882SJeremy Morse // that aren't currently tracked, we set up something ugly for later: RegMask 1866ae6f7882SJeremy Morse // operands that are seen earlier than the first use of a register, still need 1867ae6f7882SJeremy Morse // to clobber that register in the transfer function. But this information 1868ae6f7882SJeremy Morse // isn't actively recorded. Instead, we track each RegMask used in each block, 1869ae6f7882SJeremy Morse // and accumulated the clobbered but untracked registers in each block into 1870ae6f7882SJeremy Morse // the following bitvector. Later, if new values are tracked, we can add 1871ae6f7882SJeremy Morse // appropriate clobbers. 1872ae6f7882SJeremy Morse SmallVector<BitVector, 32> BlockMasks; 1873ae6f7882SJeremy Morse BlockMasks.resize(MaxNumBlocks); 1874ae6f7882SJeremy Morse 1875ae6f7882SJeremy Morse // Reserve one bit per register for the masks described above. 1876ae6f7882SJeremy Morse unsigned BVWords = MachineOperand::getRegMaskSize(TRI->getNumRegs()); 1877ae6f7882SJeremy Morse for (auto &BV : BlockMasks) 1878ae6f7882SJeremy Morse BV.resize(TRI->getNumRegs(), true); 1879ae6f7882SJeremy Morse 1880ae6f7882SJeremy Morse // Step through all instructions and inhale the transfer function. 1881ae6f7882SJeremy Morse for (auto &MBB : MF) { 1882ae6f7882SJeremy Morse // Object fields that are read by trackers to know where we are in the 1883ae6f7882SJeremy Morse // function. 1884ae6f7882SJeremy Morse CurBB = MBB.getNumber(); 1885ae6f7882SJeremy Morse CurInst = 1; 1886ae6f7882SJeremy Morse 1887ae6f7882SJeremy Morse // Set all machine locations to a PHI value. For transfer function 1888ae6f7882SJeremy Morse // production only, this signifies the live-in value to the block. 1889ae6f7882SJeremy Morse MTracker->reset(); 1890ae6f7882SJeremy Morse MTracker->setMPhis(CurBB); 1891ae6f7882SJeremy Morse 1892ae6f7882SJeremy Morse // Step through each instruction in this block. 1893ae6f7882SJeremy Morse for (auto &MI : MBB) { 1894ab49dce0SJeremy Morse // Pass in an empty unique_ptr for the value tables when accumulating the 1895ab49dce0SJeremy Morse // machine transfer function. 1896ab49dce0SJeremy Morse process(MI, nullptr, nullptr); 1897ab49dce0SJeremy Morse 1898ae6f7882SJeremy Morse // Also accumulate fragment map. 18990eee8445SJeremy Morse if (MI.isDebugValue() || MI.isDebugRef()) 1900ae6f7882SJeremy Morse accumulateFragmentMap(MI); 190168f47157SJeremy Morse 190268f47157SJeremy Morse // Create a map from the instruction number (if present) to the 190368f47157SJeremy Morse // MachineInstr and its position. 1904cca049adSDjordje Todorovic if (uint64_t InstrNo = MI.peekDebugInstrNum()) { 190568f47157SJeremy Morse auto InstrAndPos = std::make_pair(&MI, CurInst); 190668f47157SJeremy Morse auto InsertResult = 190768f47157SJeremy Morse DebugInstrNumToInstr.insert(std::make_pair(InstrNo, InstrAndPos)); 190868f47157SJeremy Morse 190968f47157SJeremy Morse // There should never be duplicate instruction numbers. 191068f47157SJeremy Morse assert(InsertResult.second); 191168f47157SJeremy Morse (void)InsertResult; 191268f47157SJeremy Morse } 191368f47157SJeremy Morse 1914ae6f7882SJeremy Morse ++CurInst; 1915ae6f7882SJeremy Morse } 1916ae6f7882SJeremy Morse 1917ae6f7882SJeremy Morse // Produce the transfer function, a map of machine location to new value. If 1918ae6f7882SJeremy Morse // any machine location has the live-in phi value from the start of the 1919ae6f7882SJeremy Morse // block, it's live-through and doesn't need recording in the transfer 1920ae6f7882SJeremy Morse // function. 1921ae6f7882SJeremy Morse for (auto Location : MTracker->locations()) { 1922ae6f7882SJeremy Morse LocIdx Idx = Location.Idx; 1923ae6f7882SJeremy Morse ValueIDNum &P = Location.Value; 1924ae6f7882SJeremy Morse if (P.isPHI() && P.getLoc() == Idx.asU64()) 1925ae6f7882SJeremy Morse continue; 1926ae6f7882SJeremy Morse 1927ae6f7882SJeremy Morse // Insert-or-update. 1928ae6f7882SJeremy Morse auto &TransferMap = MLocTransfer[CurBB]; 1929ae6f7882SJeremy Morse auto Result = TransferMap.insert(std::make_pair(Idx.asU64(), P)); 1930ae6f7882SJeremy Morse if (!Result.second) 1931ae6f7882SJeremy Morse Result.first->second = P; 1932ae6f7882SJeremy Morse } 1933ae6f7882SJeremy Morse 1934ae6f7882SJeremy Morse // Accumulate any bitmask operands into the clobberred reg mask for this 1935ae6f7882SJeremy Morse // block. 1936ae6f7882SJeremy Morse for (auto &P : MTracker->Masks) { 1937ae6f7882SJeremy Morse BlockMasks[CurBB].clearBitsNotInMask(P.first->getRegMask(), BVWords); 1938ae6f7882SJeremy Morse } 1939ae6f7882SJeremy Morse } 1940ae6f7882SJeremy Morse 1941ae6f7882SJeremy Morse // Compute a bitvector of all the registers that are tracked in this block. 1942ae6f7882SJeremy Morse BitVector UsedRegs(TRI->getNumRegs()); 1943ae6f7882SJeremy Morse for (auto Location : MTracker->locations()) { 1944ae6f7882SJeremy Morse unsigned ID = MTracker->LocIdxToLocID[Location.Idx]; 1945fbf269c7SJeremy Morse // Ignore stack slots, and aliases of the stack pointer. 1946fbf269c7SJeremy Morse if (ID >= TRI->getNumRegs() || MTracker->SPAliases.count(ID)) 1947ae6f7882SJeremy Morse continue; 1948ae6f7882SJeremy Morse UsedRegs.set(ID); 1949ae6f7882SJeremy Morse } 1950ae6f7882SJeremy Morse 1951ae6f7882SJeremy Morse // Check that any regmask-clobber of a register that gets tracked, is not 1952ae6f7882SJeremy Morse // live-through in the transfer function. It needs to be clobbered at the 1953ae6f7882SJeremy Morse // very least. 1954ae6f7882SJeremy Morse for (unsigned int I = 0; I < MaxNumBlocks; ++I) { 1955ae6f7882SJeremy Morse BitVector &BV = BlockMasks[I]; 1956ae6f7882SJeremy Morse BV.flip(); 1957ae6f7882SJeremy Morse BV &= UsedRegs; 1958ae6f7882SJeremy Morse // This produces all the bits that we clobber, but also use. Check that 1959ae6f7882SJeremy Morse // they're all clobbered or at least set in the designated transfer 1960ae6f7882SJeremy Morse // elem. 1961ae6f7882SJeremy Morse for (unsigned Bit : BV.set_bits()) { 1962e7084ceaSJeremy Morse unsigned ID = MTracker->getLocID(Bit); 1963ae6f7882SJeremy Morse LocIdx Idx = MTracker->LocIDToLocIdx[ID]; 1964ae6f7882SJeremy Morse auto &TransferMap = MLocTransfer[I]; 1965ae6f7882SJeremy Morse 1966ae6f7882SJeremy Morse // Install a value representing the fact that this location is effectively 1967ae6f7882SJeremy Morse // written to in this block. As there's no reserved value, instead use 1968ae6f7882SJeremy Morse // a value number that is never generated. Pick the value number for the 1969ae6f7882SJeremy Morse // first instruction in the block, def'ing this location, which we know 1970ae6f7882SJeremy Morse // this block never used anyway. 1971ae6f7882SJeremy Morse ValueIDNum NotGeneratedNum = ValueIDNum(I, 1, Idx); 1972ae6f7882SJeremy Morse auto Result = 1973ae6f7882SJeremy Morse TransferMap.insert(std::make_pair(Idx.asU64(), NotGeneratedNum)); 1974ae6f7882SJeremy Morse if (!Result.second) { 1975ae6f7882SJeremy Morse ValueIDNum &ValueID = Result.first->second; 1976ae6f7882SJeremy Morse if (ValueID.getBlock() == I && ValueID.isPHI()) 1977ae6f7882SJeremy Morse // It was left as live-through. Set it to clobbered. 1978ae6f7882SJeremy Morse ValueID = NotGeneratedNum; 1979ae6f7882SJeremy Morse } 1980ae6f7882SJeremy Morse } 1981ae6f7882SJeremy Morse } 1982ae6f7882SJeremy Morse } 1983ae6f7882SJeremy Morse 1984a3936a6cSJeremy Morse bool InstrRefBasedLDV::mlocJoin( 1985a3936a6cSJeremy Morse MachineBasicBlock &MBB, SmallPtrSet<const MachineBasicBlock *, 16> &Visited, 1986ab49dce0SJeremy Morse FuncValueTable &OutLocs, ValueTable &InLocs) { 1987ae6f7882SJeremy Morse LLVM_DEBUG(dbgs() << "join MBB: " << MBB.getNumber() << "\n"); 1988ae6f7882SJeremy Morse bool Changed = false; 1989ae6f7882SJeremy Morse 1990a3936a6cSJeremy Morse // Handle value-propagation when control flow merges on entry to a block. For 1991a3936a6cSJeremy Morse // any location without a PHI already placed, the location has the same value 1992a3936a6cSJeremy Morse // as its predecessors. If a PHI is placed, test to see whether it's now a 1993a3936a6cSJeremy Morse // redundant PHI that we can eliminate. 1994a3936a6cSJeremy Morse 1995ae6f7882SJeremy Morse SmallVector<const MachineBasicBlock *, 8> BlockOrders; 19969e6d1f4bSKazu Hirata for (auto *Pred : MBB.predecessors()) 1997ae6f7882SJeremy Morse BlockOrders.push_back(Pred); 1998ae6f7882SJeremy Morse 1999ae6f7882SJeremy Morse // Visit predecessors in RPOT order. 2000ae6f7882SJeremy Morse auto Cmp = [&](const MachineBasicBlock *A, const MachineBasicBlock *B) { 2001ae6f7882SJeremy Morse return BBToOrder.find(A)->second < BBToOrder.find(B)->second; 2002ae6f7882SJeremy Morse }; 20039bcc0d10SKazu Hirata llvm::sort(BlockOrders, Cmp); 2004ae6f7882SJeremy Morse 2005ae6f7882SJeremy Morse // Skip entry block. 2006ae6f7882SJeremy Morse if (BlockOrders.size() == 0) 2007a3936a6cSJeremy Morse return false; 2008ae6f7882SJeremy Morse 2009a3936a6cSJeremy Morse // Step through all machine locations, look at each predecessor and test 2010a3936a6cSJeremy Morse // whether we can eliminate redundant PHIs. 2011ae6f7882SJeremy Morse for (auto Location : MTracker->locations()) { 2012ae6f7882SJeremy Morse LocIdx Idx = Location.Idx; 2013a3936a6cSJeremy Morse 2014ae6f7882SJeremy Morse // Pick out the first predecessors live-out value for this location. It's 2015a3936a6cSJeremy Morse // guaranteed to not be a backedge, as we order by RPO. 2016a3936a6cSJeremy Morse ValueIDNum FirstVal = OutLocs[BlockOrders[0]->getNumber()][Idx.asU64()]; 2017ae6f7882SJeremy Morse 2018a3936a6cSJeremy Morse // If we've already eliminated a PHI here, do no further checking, just 2019a3936a6cSJeremy Morse // propagate the first live-in value into this block. 2020a3936a6cSJeremy Morse if (InLocs[Idx.asU64()] != ValueIDNum(MBB.getNumber(), 0, Idx)) { 2021a3936a6cSJeremy Morse if (InLocs[Idx.asU64()] != FirstVal) { 2022a3936a6cSJeremy Morse InLocs[Idx.asU64()] = FirstVal; 2023a3936a6cSJeremy Morse Changed |= true; 2024a3936a6cSJeremy Morse } 2025a3936a6cSJeremy Morse continue; 2026a3936a6cSJeremy Morse } 2027a3936a6cSJeremy Morse 2028a3936a6cSJeremy Morse // We're now examining a PHI to see whether it's un-necessary. Loop around 2029a3936a6cSJeremy Morse // the other live-in values and test whether they're all the same. 2030ae6f7882SJeremy Morse bool Disagree = false; 2031ae6f7882SJeremy Morse for (unsigned int I = 1; I < BlockOrders.size(); ++I) { 2032a3936a6cSJeremy Morse const MachineBasicBlock *PredMBB = BlockOrders[I]; 2033a3936a6cSJeremy Morse const ValueIDNum &PredLiveOut = 2034a3936a6cSJeremy Morse OutLocs[PredMBB->getNumber()][Idx.asU64()]; 2035a3936a6cSJeremy Morse 2036a3936a6cSJeremy Morse // Incoming values agree, continue trying to eliminate this PHI. 2037a3936a6cSJeremy Morse if (FirstVal == PredLiveOut) 2038a3936a6cSJeremy Morse continue; 2039a3936a6cSJeremy Morse 2040a3936a6cSJeremy Morse // We can also accept a PHI value that feeds back into itself. 2041a3936a6cSJeremy Morse if (PredLiveOut == ValueIDNum(MBB.getNumber(), 0, Idx)) 2042a3936a6cSJeremy Morse continue; 2043a3936a6cSJeremy Morse 2044ae6f7882SJeremy Morse // Live-out of a predecessor disagrees with the first predecessor. 2045ae6f7882SJeremy Morse Disagree = true; 2046ae6f7882SJeremy Morse } 2047ae6f7882SJeremy Morse 2048a3936a6cSJeremy Morse // No disagreement? No PHI. Otherwise, leave the PHI in live-ins. 2049a3936a6cSJeremy Morse if (!Disagree) { 2050a3936a6cSJeremy Morse InLocs[Idx.asU64()] = FirstVal; 2051ae6f7882SJeremy Morse Changed |= true; 2052ae6f7882SJeremy Morse } 2053ae6f7882SJeremy Morse } 2054ae6f7882SJeremy Morse 2055cca049adSDjordje Todorovic // TODO: Reimplement NumInserted and NumRemoved. 2056a3936a6cSJeremy Morse return Changed; 2057ae6f7882SJeremy Morse } 2058ae6f7882SJeremy Morse 205997ddf49eSJeremy Morse void InstrRefBasedLDV::findStackIndexInterference( 206097ddf49eSJeremy Morse SmallVectorImpl<unsigned> &Slots) { 206197ddf49eSJeremy Morse // We could spend a bit of time finding the exact, minimal, set of stack 206297ddf49eSJeremy Morse // indexes that interfere with each other, much like reg units. Or, we can 206397ddf49eSJeremy Morse // rely on the fact that: 206497ddf49eSJeremy Morse // * The smallest / lowest index will interfere with everything at zero 206597ddf49eSJeremy Morse // offset, which will be the largest set of registers, 206697ddf49eSJeremy Morse // * Most indexes with non-zero offset will end up being interference units 206797ddf49eSJeremy Morse // anyway. 206897ddf49eSJeremy Morse // So just pick those out and return them. 206997ddf49eSJeremy Morse 207097ddf49eSJeremy Morse // We can rely on a single-byte stack index existing already, because we 207197ddf49eSJeremy Morse // initialize them in MLocTracker. 207297ddf49eSJeremy Morse auto It = MTracker->StackSlotIdxes.find({8, 0}); 207397ddf49eSJeremy Morse assert(It != MTracker->StackSlotIdxes.end()); 207497ddf49eSJeremy Morse Slots.push_back(It->second); 207597ddf49eSJeremy Morse 207697ddf49eSJeremy Morse // Find anything that has a non-zero offset and add that too. 207797ddf49eSJeremy Morse for (auto &Pair : MTracker->StackSlotIdxes) { 207897ddf49eSJeremy Morse // Is offset zero? If so, ignore. 207997ddf49eSJeremy Morse if (!Pair.first.second) 208097ddf49eSJeremy Morse continue; 208197ddf49eSJeremy Morse Slots.push_back(Pair.second); 208297ddf49eSJeremy Morse } 208397ddf49eSJeremy Morse } 208497ddf49eSJeremy Morse 208597ddf49eSJeremy Morse void InstrRefBasedLDV::placeMLocPHIs( 208697ddf49eSJeremy Morse MachineFunction &MF, SmallPtrSetImpl<MachineBasicBlock *> &AllBlocks, 2087ab49dce0SJeremy Morse FuncValueTable &MInLocs, SmallVectorImpl<MLocTransferMap> &MLocTransfer) { 208897ddf49eSJeremy Morse SmallVector<unsigned, 4> StackUnits; 208997ddf49eSJeremy Morse findStackIndexInterference(StackUnits); 209097ddf49eSJeremy Morse 2091fbf269c7SJeremy Morse // To avoid repeatedly running the PHI placement algorithm, leverage the 2092fbf269c7SJeremy Morse // fact that a def of register MUST also def its register units. Find the 2093fbf269c7SJeremy Morse // units for registers, place PHIs for them, and then replicate them for 2094fbf269c7SJeremy Morse // aliasing registers. Some inputs that are never def'd (DBG_PHIs of 2095fbf269c7SJeremy Morse // arguments) don't lead to register units being tracked, just place PHIs for 209697ddf49eSJeremy Morse // those registers directly. Stack slots have their own form of "unit", 209797ddf49eSJeremy Morse // store them to one side. 2098fbf269c7SJeremy Morse SmallSet<Register, 32> RegUnitsToPHIUp; 209997ddf49eSJeremy Morse SmallSet<LocIdx, 32> NormalLocsToPHI; 210097ddf49eSJeremy Morse SmallSet<SpillLocationNo, 32> StackSlots; 2101fbf269c7SJeremy Morse for (auto Location : MTracker->locations()) { 2102fbf269c7SJeremy Morse LocIdx L = Location.Idx; 2103fbf269c7SJeremy Morse if (MTracker->isSpill(L)) { 210497ddf49eSJeremy Morse StackSlots.insert(MTracker->locIDToSpill(MTracker->LocIdxToLocID[L])); 2105fbf269c7SJeremy Morse continue; 2106fbf269c7SJeremy Morse } 2107fbf269c7SJeremy Morse 2108fbf269c7SJeremy Morse Register R = MTracker->LocIdxToLocID[L]; 2109fbf269c7SJeremy Morse SmallSet<Register, 8> FoundRegUnits; 2110fbf269c7SJeremy Morse bool AnyIllegal = false; 2111fbf269c7SJeremy Morse for (MCRegUnitIterator RUI(R.asMCReg(), TRI); RUI.isValid(); ++RUI) { 2112fbf269c7SJeremy Morse for (MCRegUnitRootIterator URoot(*RUI, TRI); URoot.isValid(); ++URoot){ 2113fbf269c7SJeremy Morse if (!MTracker->isRegisterTracked(*URoot)) { 2114fbf269c7SJeremy Morse // Not all roots were loaded into the tracking map: this register 2115fbf269c7SJeremy Morse // isn't actually def'd anywhere, we only read from it. Generate PHIs 2116fbf269c7SJeremy Morse // for this reg, but don't iterate units. 2117fbf269c7SJeremy Morse AnyIllegal = true; 2118fbf269c7SJeremy Morse } else { 2119fbf269c7SJeremy Morse FoundRegUnits.insert(*URoot); 2120fbf269c7SJeremy Morse } 2121fbf269c7SJeremy Morse } 2122fbf269c7SJeremy Morse } 2123fbf269c7SJeremy Morse 2124fbf269c7SJeremy Morse if (AnyIllegal) { 212597ddf49eSJeremy Morse NormalLocsToPHI.insert(L); 2126fbf269c7SJeremy Morse continue; 2127fbf269c7SJeremy Morse } 2128fbf269c7SJeremy Morse 2129fbf269c7SJeremy Morse RegUnitsToPHIUp.insert(FoundRegUnits.begin(), FoundRegUnits.end()); 2130fbf269c7SJeremy Morse } 2131fbf269c7SJeremy Morse 2132fbf269c7SJeremy Morse // Lambda to fetch PHIs for a given location, and write into the PHIBlocks 2133fbf269c7SJeremy Morse // collection. 2134fbf269c7SJeremy Morse SmallVector<MachineBasicBlock *, 32> PHIBlocks; 2135fbf269c7SJeremy Morse auto CollectPHIsForLoc = [&](LocIdx L) { 2136fbf269c7SJeremy Morse // Collect the set of defs. 2137fbf269c7SJeremy Morse SmallPtrSet<MachineBasicBlock *, 32> DefBlocks; 2138fbf269c7SJeremy Morse for (unsigned int I = 0; I < OrderToBB.size(); ++I) { 2139fbf269c7SJeremy Morse MachineBasicBlock *MBB = OrderToBB[I]; 2140fbf269c7SJeremy Morse const auto &TransferFunc = MLocTransfer[MBB->getNumber()]; 2141fbf269c7SJeremy Morse if (TransferFunc.find(L) != TransferFunc.end()) 2142fbf269c7SJeremy Morse DefBlocks.insert(MBB); 2143fbf269c7SJeremy Morse } 2144fbf269c7SJeremy Morse 2145fbf269c7SJeremy Morse // The entry block defs the location too: it's the live-in / argument value. 2146fbf269c7SJeremy Morse // Only insert if there are other defs though; everything is trivially live 2147fbf269c7SJeremy Morse // through otherwise. 2148fbf269c7SJeremy Morse if (!DefBlocks.empty()) 2149fbf269c7SJeremy Morse DefBlocks.insert(&*MF.begin()); 2150fbf269c7SJeremy Morse 2151fbf269c7SJeremy Morse // Ask the SSA construction algorithm where we should put PHIs. Clear 2152fbf269c7SJeremy Morse // anything that might have been hanging around from earlier. 2153fbf269c7SJeremy Morse PHIBlocks.clear(); 2154fbf269c7SJeremy Morse BlockPHIPlacement(AllBlocks, DefBlocks, PHIBlocks); 2155fbf269c7SJeremy Morse }; 2156fbf269c7SJeremy Morse 215797ddf49eSJeremy Morse auto InstallPHIsAtLoc = [&PHIBlocks, &MInLocs](LocIdx L) { 2158fbf269c7SJeremy Morse for (const MachineBasicBlock *MBB : PHIBlocks) 2159fbf269c7SJeremy Morse MInLocs[MBB->getNumber()][L.asU64()] = ValueIDNum(MBB->getNumber(), 0, L); 216097ddf49eSJeremy Morse }; 216197ddf49eSJeremy Morse 216297ddf49eSJeremy Morse // For locations with no reg units, just place PHIs. 216397ddf49eSJeremy Morse for (LocIdx L : NormalLocsToPHI) { 216497ddf49eSJeremy Morse CollectPHIsForLoc(L); 216597ddf49eSJeremy Morse // Install those PHI values into the live-in value array. 216697ddf49eSJeremy Morse InstallPHIsAtLoc(L); 216797ddf49eSJeremy Morse } 216897ddf49eSJeremy Morse 216997ddf49eSJeremy Morse // For stack slots, calculate PHIs for the equivalent of the units, then 217097ddf49eSJeremy Morse // install for each index. 217197ddf49eSJeremy Morse for (SpillLocationNo Slot : StackSlots) { 217297ddf49eSJeremy Morse for (unsigned Idx : StackUnits) { 217397ddf49eSJeremy Morse unsigned SpillID = MTracker->getSpillIDWithIdx(Slot, Idx); 217497ddf49eSJeremy Morse LocIdx L = MTracker->getSpillMLoc(SpillID); 217597ddf49eSJeremy Morse CollectPHIsForLoc(L); 217697ddf49eSJeremy Morse InstallPHIsAtLoc(L); 217797ddf49eSJeremy Morse 217897ddf49eSJeremy Morse // Find anything that aliases this stack index, install PHIs for it too. 217997ddf49eSJeremy Morse unsigned Size, Offset; 218097ddf49eSJeremy Morse std::tie(Size, Offset) = MTracker->StackIdxesToPos[Idx]; 218197ddf49eSJeremy Morse for (auto &Pair : MTracker->StackSlotIdxes) { 218297ddf49eSJeremy Morse unsigned ThisSize, ThisOffset; 218397ddf49eSJeremy Morse std::tie(ThisSize, ThisOffset) = Pair.first; 218497ddf49eSJeremy Morse if (ThisSize + ThisOffset <= Offset || Size + Offset <= ThisOffset) 218597ddf49eSJeremy Morse continue; 218697ddf49eSJeremy Morse 218797ddf49eSJeremy Morse unsigned ThisID = MTracker->getSpillIDWithIdx(Slot, Pair.second); 218897ddf49eSJeremy Morse LocIdx ThisL = MTracker->getSpillMLoc(ThisID); 218997ddf49eSJeremy Morse InstallPHIsAtLoc(ThisL); 219097ddf49eSJeremy Morse } 219197ddf49eSJeremy Morse } 2192fbf269c7SJeremy Morse } 2193fbf269c7SJeremy Morse 2194fbf269c7SJeremy Morse // For reg units, place PHIs, and then place them for any aliasing registers. 2195fbf269c7SJeremy Morse for (Register R : RegUnitsToPHIUp) { 2196fbf269c7SJeremy Morse LocIdx L = MTracker->lookupOrTrackRegister(R); 2197fbf269c7SJeremy Morse CollectPHIsForLoc(L); 2198fbf269c7SJeremy Morse 2199fbf269c7SJeremy Morse // Install those PHI values into the live-in value array. 220097ddf49eSJeremy Morse InstallPHIsAtLoc(L); 2201fbf269c7SJeremy Morse 2202fbf269c7SJeremy Morse // Now find aliases and install PHIs for those. 2203fbf269c7SJeremy Morse for (MCRegAliasIterator RAI(R, TRI, true); RAI.isValid(); ++RAI) { 2204fbf269c7SJeremy Morse // Super-registers that are "above" the largest register read/written by 2205fbf269c7SJeremy Morse // the function will alias, but will not be tracked. 2206fbf269c7SJeremy Morse if (!MTracker->isRegisterTracked(*RAI)) 2207fbf269c7SJeremy Morse continue; 2208fbf269c7SJeremy Morse 2209fbf269c7SJeremy Morse LocIdx AliasLoc = MTracker->lookupOrTrackRegister(*RAI); 221097ddf49eSJeremy Morse InstallPHIsAtLoc(AliasLoc); 2211fbf269c7SJeremy Morse } 2212fbf269c7SJeremy Morse } 2213fbf269c7SJeremy Morse } 2214fbf269c7SJeremy Morse 2215a3936a6cSJeremy Morse void InstrRefBasedLDV::buildMLocValueMap( 2216ab49dce0SJeremy Morse MachineFunction &MF, FuncValueTable &MInLocs, FuncValueTable &MOutLocs, 2217ae6f7882SJeremy Morse SmallVectorImpl<MLocTransferMap> &MLocTransfer) { 2218ae6f7882SJeremy Morse std::priority_queue<unsigned int, std::vector<unsigned int>, 2219ae6f7882SJeremy Morse std::greater<unsigned int>> 2220ae6f7882SJeremy Morse Worklist, Pending; 2221ae6f7882SJeremy Morse 2222ae6f7882SJeremy Morse // We track what is on the current and pending worklist to avoid inserting 2223ae6f7882SJeremy Morse // the same thing twice. We could avoid this with a custom priority queue, 2224ae6f7882SJeremy Morse // but this is probably not worth it. 2225ae6f7882SJeremy Morse SmallPtrSet<MachineBasicBlock *, 16> OnPending, OnWorklist; 2226ae6f7882SJeremy Morse 2227a3936a6cSJeremy Morse // Initialize worklist with every block to be visited. Also produce list of 2228a3936a6cSJeremy Morse // all blocks. 2229a3936a6cSJeremy Morse SmallPtrSet<MachineBasicBlock *, 32> AllBlocks; 2230ae6f7882SJeremy Morse for (unsigned int I = 0; I < BBToOrder.size(); ++I) { 2231ae6f7882SJeremy Morse Worklist.push(I); 2232ae6f7882SJeremy Morse OnWorklist.insert(OrderToBB[I]); 2233a3936a6cSJeremy Morse AllBlocks.insert(OrderToBB[I]); 2234ae6f7882SJeremy Morse } 2235ae6f7882SJeremy Morse 2236a3936a6cSJeremy Morse // Initialize entry block to PHIs. These represent arguments. 2237a3936a6cSJeremy Morse for (auto Location : MTracker->locations()) 2238a3936a6cSJeremy Morse MInLocs[0][Location.Idx.asU64()] = ValueIDNum(0, 0, Location.Idx); 2239a3936a6cSJeremy Morse 2240ae6f7882SJeremy Morse MTracker->reset(); 2241ae6f7882SJeremy Morse 2242a3936a6cSJeremy Morse // Start by placing PHIs, using the usual SSA constructor algorithm. Consider 2243a3936a6cSJeremy Morse // any machine-location that isn't live-through a block to be def'd in that 2244a3936a6cSJeremy Morse // block. 2245fbf269c7SJeremy Morse placeMLocPHIs(MF, AllBlocks, MInLocs, MLocTransfer); 2246a3936a6cSJeremy Morse 2247a3936a6cSJeremy Morse // Propagate values to eliminate redundant PHIs. At the same time, this 2248a3936a6cSJeremy Morse // produces the table of Block x Location => Value for the entry to each 2249a3936a6cSJeremy Morse // block. 2250a3936a6cSJeremy Morse // The kind of PHIs we can eliminate are, for example, where one path in a 2251a3936a6cSJeremy Morse // conditional spills and restores a register, and the register still has 2252a3936a6cSJeremy Morse // the same value once control flow joins, unbeknowns to the PHI placement 2253a3936a6cSJeremy Morse // code. Propagating values allows us to identify such un-necessary PHIs and 2254a3936a6cSJeremy Morse // remove them. 2255ae6f7882SJeremy Morse SmallPtrSet<const MachineBasicBlock *, 16> Visited; 2256ae6f7882SJeremy Morse while (!Worklist.empty() || !Pending.empty()) { 2257ae6f7882SJeremy Morse // Vector for storing the evaluated block transfer function. 2258ae6f7882SJeremy Morse SmallVector<std::pair<LocIdx, ValueIDNum>, 32> ToRemap; 2259ae6f7882SJeremy Morse 2260ae6f7882SJeremy Morse while (!Worklist.empty()) { 2261ae6f7882SJeremy Morse MachineBasicBlock *MBB = OrderToBB[Worklist.top()]; 2262ae6f7882SJeremy Morse CurBB = MBB->getNumber(); 2263ae6f7882SJeremy Morse Worklist.pop(); 2264ae6f7882SJeremy Morse 2265ae6f7882SJeremy Morse // Join the values in all predecessor blocks. 2266a3936a6cSJeremy Morse bool InLocsChanged; 2267a3936a6cSJeremy Morse InLocsChanged = mlocJoin(*MBB, Visited, MOutLocs, MInLocs[CurBB]); 2268ae6f7882SJeremy Morse InLocsChanged |= Visited.insert(MBB).second; 2269ae6f7882SJeremy Morse 2270ae6f7882SJeremy Morse // Don't examine transfer function if we've visited this loc at least 2271ae6f7882SJeremy Morse // once, and inlocs haven't changed. 2272ae6f7882SJeremy Morse if (!InLocsChanged) 2273ae6f7882SJeremy Morse continue; 2274ae6f7882SJeremy Morse 2275ae6f7882SJeremy Morse // Load the current set of live-ins into MLocTracker. 2276ae6f7882SJeremy Morse MTracker->loadFromArray(MInLocs[CurBB], CurBB); 2277ae6f7882SJeremy Morse 2278ae6f7882SJeremy Morse // Each element of the transfer function can be a new def, or a read of 2279ae6f7882SJeremy Morse // a live-in value. Evaluate each element, and store to "ToRemap". 2280ae6f7882SJeremy Morse ToRemap.clear(); 2281ae6f7882SJeremy Morse for (auto &P : MLocTransfer[CurBB]) { 2282ae6f7882SJeremy Morse if (P.second.getBlock() == CurBB && P.second.isPHI()) { 2283ae6f7882SJeremy Morse // This is a movement of whatever was live in. Read it. 2284d9eebe3cSJeremy Morse ValueIDNum NewID = MTracker->readMLoc(P.second.getLoc()); 2285ae6f7882SJeremy Morse ToRemap.push_back(std::make_pair(P.first, NewID)); 2286ae6f7882SJeremy Morse } else { 2287ae6f7882SJeremy Morse // It's a def. Just set it. 2288ae6f7882SJeremy Morse assert(P.second.getBlock() == CurBB); 2289ae6f7882SJeremy Morse ToRemap.push_back(std::make_pair(P.first, P.second)); 2290ae6f7882SJeremy Morse } 2291ae6f7882SJeremy Morse } 2292ae6f7882SJeremy Morse 2293ae6f7882SJeremy Morse // Commit the transfer function changes into mloc tracker, which 2294ae6f7882SJeremy Morse // transforms the contents of the MLocTracker into the live-outs. 2295ae6f7882SJeremy Morse for (auto &P : ToRemap) 2296ae6f7882SJeremy Morse MTracker->setMLoc(P.first, P.second); 2297ae6f7882SJeremy Morse 2298ae6f7882SJeremy Morse // Now copy out-locs from mloc tracker into out-loc vector, checking 2299ae6f7882SJeremy Morse // whether changes have occurred. These changes can have come from both 2300ae6f7882SJeremy Morse // the transfer function, and mlocJoin. 2301ae6f7882SJeremy Morse bool OLChanged = false; 2302ae6f7882SJeremy Morse for (auto Location : MTracker->locations()) { 2303ae6f7882SJeremy Morse OLChanged |= MOutLocs[CurBB][Location.Idx.asU64()] != Location.Value; 2304ae6f7882SJeremy Morse MOutLocs[CurBB][Location.Idx.asU64()] = Location.Value; 2305ae6f7882SJeremy Morse } 2306ae6f7882SJeremy Morse 2307ae6f7882SJeremy Morse MTracker->reset(); 2308ae6f7882SJeremy Morse 2309ae6f7882SJeremy Morse // No need to examine successors again if out-locs didn't change. 2310ae6f7882SJeremy Morse if (!OLChanged) 2311ae6f7882SJeremy Morse continue; 2312ae6f7882SJeremy Morse 2313ae6f7882SJeremy Morse // All successors should be visited: put any back-edges on the pending 2314a3936a6cSJeremy Morse // list for the next pass-through, and any other successors to be 2315a3936a6cSJeremy Morse // visited this pass, if they're not going to be already. 23169e6d1f4bSKazu Hirata for (auto *s : MBB->successors()) { 2317ae6f7882SJeremy Morse // Does branching to this successor represent a back-edge? 2318ae6f7882SJeremy Morse if (BBToOrder[s] > BBToOrder[MBB]) { 2319ae6f7882SJeremy Morse // No: visit it during this dataflow iteration. 2320ae6f7882SJeremy Morse if (OnWorklist.insert(s).second) 2321ae6f7882SJeremy Morse Worklist.push(BBToOrder[s]); 2322ae6f7882SJeremy Morse } else { 2323ae6f7882SJeremy Morse // Yes: visit it on the next iteration. 2324ae6f7882SJeremy Morse if (OnPending.insert(s).second) 2325ae6f7882SJeremy Morse Pending.push(BBToOrder[s]); 2326ae6f7882SJeremy Morse } 2327ae6f7882SJeremy Morse } 2328ae6f7882SJeremy Morse } 2329ae6f7882SJeremy Morse 2330ae6f7882SJeremy Morse Worklist.swap(Pending); 2331ae6f7882SJeremy Morse std::swap(OnPending, OnWorklist); 2332ae6f7882SJeremy Morse OnPending.clear(); 2333ae6f7882SJeremy Morse // At this point, pending must be empty, since it was just the empty 2334ae6f7882SJeremy Morse // worklist 2335ae6f7882SJeremy Morse assert(Pending.empty() && "Pending should be empty"); 2336ae6f7882SJeremy Morse } 2337ae6f7882SJeremy Morse 2338a3936a6cSJeremy Morse // Once all the live-ins don't change on mlocJoin(), we've eliminated all 2339a3936a6cSJeremy Morse // redundant PHIs. 2340a3936a6cSJeremy Morse } 2341a3936a6cSJeremy Morse 2342a3936a6cSJeremy Morse void InstrRefBasedLDV::BlockPHIPlacement( 2343a3936a6cSJeremy Morse const SmallPtrSetImpl<MachineBasicBlock *> &AllBlocks, 2344a3936a6cSJeremy Morse const SmallPtrSetImpl<MachineBasicBlock *> &DefBlocks, 2345a3936a6cSJeremy Morse SmallVectorImpl<MachineBasicBlock *> &PHIBlocks) { 2346a3936a6cSJeremy Morse // Apply IDF calculator to the designated set of location defs, storing 2347a3936a6cSJeremy Morse // required PHIs into PHIBlocks. Uses the dominator tree stored in the 2348a3936a6cSJeremy Morse // InstrRefBasedLDV object. 2349e0b11c76SMarkus Böck IDFCalculatorBase<MachineBasicBlock, false> IDF(DomTree->getBase()); 2350a3936a6cSJeremy Morse 2351a3936a6cSJeremy Morse IDF.setLiveInBlocks(AllBlocks); 2352a3936a6cSJeremy Morse IDF.setDefiningBlocks(DefBlocks); 2353a3936a6cSJeremy Morse IDF.calculate(PHIBlocks); 2354ae6f7882SJeremy Morse } 2355ae6f7882SJeremy Morse 2356b5426cedSJeremy Morse Optional<ValueIDNum> InstrRefBasedLDV::pickVPHILoc( 2357b5426cedSJeremy Morse const MachineBasicBlock &MBB, const DebugVariable &Var, 2358ab49dce0SJeremy Morse const LiveIdxT &LiveOuts, FuncValueTable &MOutLocs, 2359b5426cedSJeremy Morse const SmallVectorImpl<const MachineBasicBlock *> &BlockOrders) { 2360ae6f7882SJeremy Morse // Collect a set of locations from predecessor where its live-out value can 2361ae6f7882SJeremy Morse // be found. 2362ae6f7882SJeremy Morse SmallVector<SmallVector<LocIdx, 4>, 8> Locs; 2363b5426cedSJeremy Morse SmallVector<const DbgValueProperties *, 4> Properties; 2364ae6f7882SJeremy Morse unsigned NumLocs = MTracker->getNumLocs(); 2365b5426cedSJeremy Morse 2366b5426cedSJeremy Morse // No predecessors means no PHIs. 2367b5426cedSJeremy Morse if (BlockOrders.empty()) 2368b5426cedSJeremy Morse return None; 2369ae6f7882SJeremy Morse 23709e6d1f4bSKazu Hirata for (const auto *p : BlockOrders) { 2371ae6f7882SJeremy Morse unsigned ThisBBNum = p->getNumber(); 237289950adeSJeremy Morse auto OutValIt = LiveOuts.find(p); 237389950adeSJeremy Morse if (OutValIt == LiveOuts.end()) 237489950adeSJeremy Morse // If we have a predecessor not in scope, we'll never find a PHI position. 2375b5426cedSJeremy Morse return None; 237689950adeSJeremy Morse const DbgValue &OutVal = *OutValIt->second; 2377ae6f7882SJeremy Morse 2378ae6f7882SJeremy Morse if (OutVal.Kind == DbgValue::Const || OutVal.Kind == DbgValue::NoVal) 2379ae6f7882SJeremy Morse // Consts and no-values cannot have locations we can join on. 2380b5426cedSJeremy Morse return None; 2381ae6f7882SJeremy Morse 2382b5426cedSJeremy Morse Properties.push_back(&OutVal.Properties); 2383b5426cedSJeremy Morse 2384b5426cedSJeremy Morse // Create new empty vector of locations. 2385b5426cedSJeremy Morse Locs.resize(Locs.size() + 1); 2386b5426cedSJeremy Morse 2387b5426cedSJeremy Morse // If the live-in value is a def, find the locations where that value is 2388b5426cedSJeremy Morse // present. Do the same for VPHIs where we know the VPHI value. 2389b5426cedSJeremy Morse if (OutVal.Kind == DbgValue::Def || 2390b5426cedSJeremy Morse (OutVal.Kind == DbgValue::VPHI && OutVal.BlockNo != MBB.getNumber() && 2391b5426cedSJeremy Morse OutVal.ID != ValueIDNum::EmptyValue)) { 2392ae6f7882SJeremy Morse ValueIDNum ValToLookFor = OutVal.ID; 2393ae6f7882SJeremy Morse // Search the live-outs of the predecessor for the specified value. 2394ae6f7882SJeremy Morse for (unsigned int I = 0; I < NumLocs; ++I) { 2395ae6f7882SJeremy Morse if (MOutLocs[ThisBBNum][I] == ValToLookFor) 2396ae6f7882SJeremy Morse Locs.back().push_back(LocIdx(I)); 2397ae6f7882SJeremy Morse } 2398b5426cedSJeremy Morse } else { 2399b5426cedSJeremy Morse assert(OutVal.Kind == DbgValue::VPHI); 2400b5426cedSJeremy Morse // For VPHIs where we don't know the location, we definitely can't find 2401b5426cedSJeremy Morse // a join loc. 2402b5426cedSJeremy Morse if (OutVal.BlockNo != MBB.getNumber()) 2403b5426cedSJeremy Morse return None; 2404b5426cedSJeremy Morse 2405b5426cedSJeremy Morse // Otherwise: this is a VPHI on a backedge feeding back into itself, i.e. 2406b5426cedSJeremy Morse // a value that's live-through the whole loop. (It has to be a backedge, 2407b5426cedSJeremy Morse // because a block can't dominate itself). We can accept as a PHI location 2408b5426cedSJeremy Morse // any location where the other predecessors agree, _and_ the machine 2409b5426cedSJeremy Morse // locations feed back into themselves. Therefore, add all self-looping 2410b5426cedSJeremy Morse // machine-value PHI locations. 2411b5426cedSJeremy Morse for (unsigned int I = 0; I < NumLocs; ++I) { 2412b5426cedSJeremy Morse ValueIDNum MPHI(MBB.getNumber(), 0, LocIdx(I)); 2413b5426cedSJeremy Morse if (MOutLocs[ThisBBNum][I] == MPHI) 2414b5426cedSJeremy Morse Locs.back().push_back(LocIdx(I)); 2415b5426cedSJeremy Morse } 2416b5426cedSJeremy Morse } 2417ae6f7882SJeremy Morse } 2418ae6f7882SJeremy Morse 2419b5426cedSJeremy Morse // We should have found locations for all predecessors, or returned. 2420b5426cedSJeremy Morse assert(Locs.size() == BlockOrders.size()); 2421ae6f7882SJeremy Morse 2422b5426cedSJeremy Morse // Check that all properties are the same. We can't pick a location if they're 2423b5426cedSJeremy Morse // not. 2424b5426cedSJeremy Morse const DbgValueProperties *Properties0 = Properties[0]; 24259e6d1f4bSKazu Hirata for (const auto *Prop : Properties) 2426b5426cedSJeremy Morse if (*Prop != *Properties0) 2427b5426cedSJeremy Morse return None; 2428b5426cedSJeremy Morse 2429ae6f7882SJeremy Morse // Starting with the first set of locations, take the intersection with 2430ae6f7882SJeremy Morse // subsequent sets. 2431b5426cedSJeremy Morse SmallVector<LocIdx, 4> CandidateLocs = Locs[0]; 2432b5426cedSJeremy Morse for (unsigned int I = 1; I < Locs.size(); ++I) { 2433b5426cedSJeremy Morse auto &LocVec = Locs[I]; 2434b5426cedSJeremy Morse SmallVector<LocIdx, 4> NewCandidates; 2435b5426cedSJeremy Morse std::set_intersection(CandidateLocs.begin(), CandidateLocs.end(), 2436b5426cedSJeremy Morse LocVec.begin(), LocVec.end(), std::inserter(NewCandidates, NewCandidates.begin())); 2437b5426cedSJeremy Morse CandidateLocs = NewCandidates; 2438ae6f7882SJeremy Morse } 2439b5426cedSJeremy Morse if (CandidateLocs.empty()) 2440ae6f7882SJeremy Morse return None; 2441ae6f7882SJeremy Morse 2442ae6f7882SJeremy Morse // We now have a set of LocIdxes that contain the right output value in 2443ae6f7882SJeremy Morse // each of the predecessors. Pick the lowest; if there's a register loc, 2444ae6f7882SJeremy Morse // that'll be it. 2445b5426cedSJeremy Morse LocIdx L = *CandidateLocs.begin(); 2446ae6f7882SJeremy Morse 2447ae6f7882SJeremy Morse // Return a PHI-value-number for the found location. 2448ae6f7882SJeremy Morse ValueIDNum PHIVal = {(unsigned)MBB.getNumber(), 0, L}; 2449b5426cedSJeremy Morse return PHIVal; 2450ae6f7882SJeremy Morse } 2451ae6f7882SJeremy Morse 2452b5426cedSJeremy Morse bool InstrRefBasedLDV::vlocJoin( 2453849b1794SJeremy Morse MachineBasicBlock &MBB, LiveIdxT &VLOCOutLocs, 2454ae6f7882SJeremy Morse SmallPtrSet<const MachineBasicBlock *, 8> &BlocksToExplore, 245589950adeSJeremy Morse DbgValue &LiveIn) { 2456ae6f7882SJeremy Morse LLVM_DEBUG(dbgs() << "join MBB: " << MBB.getNumber() << "\n"); 2457ae6f7882SJeremy Morse bool Changed = false; 2458ae6f7882SJeremy Morse 2459ae6f7882SJeremy Morse // Order predecessors by RPOT order, for exploring them in that order. 24607925aa09SKazu Hirata SmallVector<MachineBasicBlock *, 8> BlockOrders(MBB.predecessors()); 2461ae6f7882SJeremy Morse 2462ae6f7882SJeremy Morse auto Cmp = [&](MachineBasicBlock *A, MachineBasicBlock *B) { 2463ae6f7882SJeremy Morse return BBToOrder[A] < BBToOrder[B]; 2464ae6f7882SJeremy Morse }; 2465ae6f7882SJeremy Morse 24669bcc0d10SKazu Hirata llvm::sort(BlockOrders, Cmp); 2467ae6f7882SJeremy Morse 2468ae6f7882SJeremy Morse unsigned CurBlockRPONum = BBToOrder[&MBB]; 2469ae6f7882SJeremy Morse 2470b5426cedSJeremy Morse // Collect all the incoming DbgValues for this variable, from predecessor 2471b5426cedSJeremy Morse // live-out values. 2472ae6f7882SJeremy Morse SmallVector<InValueT, 8> Values; 2473ae6f7882SJeremy Morse bool Bail = false; 2474ea970661SJeremy Morse int BackEdgesStart = 0; 24759e6d1f4bSKazu Hirata for (auto *p : BlockOrders) { 2476ae6f7882SJeremy Morse // If the predecessor isn't in scope / to be explored, we'll never be 2477ae6f7882SJeremy Morse // able to join any locations. 2478805d5959SKazu Hirata if (!BlocksToExplore.contains(p)) { 2479ae6f7882SJeremy Morse Bail = true; 2480ae6f7882SJeremy Morse break; 2481ae6f7882SJeremy Morse } 2482ae6f7882SJeremy Morse 248389950adeSJeremy Morse // All Live-outs will have been initialized. 248489950adeSJeremy Morse DbgValue &OutLoc = *VLOCOutLocs.find(p)->second; 2485ae6f7882SJeremy Morse 2486ae6f7882SJeremy Morse // Keep track of where back-edges begin in the Values vector. Relies on 2487ae6f7882SJeremy Morse // BlockOrders being sorted by RPO. 2488ae6f7882SJeremy Morse unsigned ThisBBRPONum = BBToOrder[p]; 2489ae6f7882SJeremy Morse if (ThisBBRPONum < CurBlockRPONum) 2490ae6f7882SJeremy Morse ++BackEdgesStart; 2491ae6f7882SJeremy Morse 249289950adeSJeremy Morse Values.push_back(std::make_pair(p, &OutLoc)); 2493ae6f7882SJeremy Morse } 2494ae6f7882SJeremy Morse 2495ae6f7882SJeremy Morse // If there were no values, or one of the predecessors couldn't have a 2496ae6f7882SJeremy Morse // value, then give up immediately. It's not safe to produce a live-in 2497b5426cedSJeremy Morse // value. Leave as whatever it was before. 249889950adeSJeremy Morse if (Bail || Values.size() == 0) 249989950adeSJeremy Morse return false; 2500ae6f7882SJeremy Morse 2501ae6f7882SJeremy Morse // All (non-entry) blocks have at least one non-backedge predecessor. 2502ae6f7882SJeremy Morse // Pick the variable value from the first of these, to compare against 2503ae6f7882SJeremy Morse // all others. 2504ae6f7882SJeremy Morse const DbgValue &FirstVal = *Values[0].second; 2505ae6f7882SJeremy Morse 2506b5426cedSJeremy Morse // If the old live-in value is not a PHI then either a) no PHI is needed 2507b5426cedSJeremy Morse // here, or b) we eliminated the PHI that was here. If so, we can just 250889950adeSJeremy Morse // propagate in the first parent's incoming value. 250989950adeSJeremy Morse if (LiveIn.Kind != DbgValue::VPHI || LiveIn.BlockNo != MBB.getNumber()) { 251089950adeSJeremy Morse Changed = LiveIn != FirstVal; 251189950adeSJeremy Morse if (Changed) 251289950adeSJeremy Morse LiveIn = FirstVal; 251389950adeSJeremy Morse return Changed; 2514ae6f7882SJeremy Morse } 2515ae6f7882SJeremy Morse 2516b5426cedSJeremy Morse // Scan for variable values that can never be resolved: if they have 2517b5426cedSJeremy Morse // different DIExpressions, different indirectness, or are mixed constants / 2518b5426cedSJeremy Morse // non-constants. 2519b5426cedSJeremy Morse for (auto &V : Values) { 2520b5426cedSJeremy Morse if (V.second->Properties != FirstVal.Properties) 252189950adeSJeremy Morse return false; 2522b5426cedSJeremy Morse if (V.second->Kind == DbgValue::NoVal) 252389950adeSJeremy Morse return false; 2524b5426cedSJeremy Morse if (V.second->Kind == DbgValue::Const && FirstVal.Kind != DbgValue::Const) 252589950adeSJeremy Morse return false; 2526b5426cedSJeremy Morse } 2527b5426cedSJeremy Morse 2528b5426cedSJeremy Morse // Try to eliminate this PHI. Do the incoming values all agree? 2529ae6f7882SJeremy Morse bool Disagree = false; 2530ae6f7882SJeremy Morse for (auto &V : Values) { 2531ae6f7882SJeremy Morse if (*V.second == FirstVal) 2532ae6f7882SJeremy Morse continue; // No disagreement. 2533ae6f7882SJeremy Morse 2534b5426cedSJeremy Morse // Eliminate if a backedge feeds a VPHI back into itself. 2535b5426cedSJeremy Morse if (V.second->Kind == DbgValue::VPHI && 2536b5426cedSJeremy Morse V.second->BlockNo == MBB.getNumber() && 2537b5426cedSJeremy Morse // Is this a backedge? 2538b5426cedSJeremy Morse std::distance(Values.begin(), &V) >= BackEdgesStart) 2539b5426cedSJeremy Morse continue; 2540b5426cedSJeremy Morse 2541ae6f7882SJeremy Morse Disagree = true; 2542ae6f7882SJeremy Morse } 2543ae6f7882SJeremy Morse 2544b5426cedSJeremy Morse // No disagreement -> live-through value. 2545b5426cedSJeremy Morse if (!Disagree) { 254689950adeSJeremy Morse Changed = LiveIn != FirstVal; 254789950adeSJeremy Morse if (Changed) 254889950adeSJeremy Morse LiveIn = FirstVal; 254989950adeSJeremy Morse return Changed; 2550ae6f7882SJeremy Morse } else { 2551b5426cedSJeremy Morse // Otherwise use a VPHI. 255289950adeSJeremy Morse DbgValue VPHI(MBB.getNumber(), FirstVal.Properties, DbgValue::VPHI); 255389950adeSJeremy Morse Changed = LiveIn != VPHI; 255489950adeSJeremy Morse if (Changed) 255589950adeSJeremy Morse LiveIn = VPHI; 2556b5426cedSJeremy Morse return Changed; 2557ae6f7882SJeremy Morse } 255889950adeSJeremy Morse } 2559ae6f7882SJeremy Morse 25604a2cb013SJeremy Morse void InstrRefBasedLDV::getBlocksForScope( 25614a2cb013SJeremy Morse const DILocation *DILoc, 25624a2cb013SJeremy Morse SmallPtrSetImpl<const MachineBasicBlock *> &BlocksToExplore, 25634a2cb013SJeremy Morse const SmallPtrSetImpl<MachineBasicBlock *> &AssignBlocks) { 25644a2cb013SJeremy Morse // Get the set of "normal" in-lexical-scope blocks. 25654a2cb013SJeremy Morse LS.getMachineBasicBlocks(DILoc, BlocksToExplore); 25664a2cb013SJeremy Morse 25674a2cb013SJeremy Morse // VarLoc LiveDebugValues tracks variable locations that are defined in 25684a2cb013SJeremy Morse // blocks not in scope. This is something we could legitimately ignore, but 25694a2cb013SJeremy Morse // lets allow it for now for the sake of coverage. 25704a2cb013SJeremy Morse BlocksToExplore.insert(AssignBlocks.begin(), AssignBlocks.end()); 25714a2cb013SJeremy Morse 25724a2cb013SJeremy Morse // Storage for artificial blocks we intend to add to BlocksToExplore. 25734a2cb013SJeremy Morse DenseSet<const MachineBasicBlock *> ToAdd; 25744a2cb013SJeremy Morse 25754a2cb013SJeremy Morse // To avoid needlessly dropping large volumes of variable locations, propagate 25764a2cb013SJeremy Morse // variables through aritifical blocks, i.e. those that don't have any 25774a2cb013SJeremy Morse // instructions in scope at all. To accurately replicate VarLoc 25784a2cb013SJeremy Morse // LiveDebugValues, this means exploring all artificial successors too. 25794a2cb013SJeremy Morse // Perform a depth-first-search to enumerate those blocks. 25809e6d1f4bSKazu Hirata for (const auto *MBB : BlocksToExplore) { 25814a2cb013SJeremy Morse // Depth-first-search state: each node is a block and which successor 25824a2cb013SJeremy Morse // we're currently exploring. 25834a2cb013SJeremy Morse SmallVector<std::pair<const MachineBasicBlock *, 25844a2cb013SJeremy Morse MachineBasicBlock::const_succ_iterator>, 25854a2cb013SJeremy Morse 8> 25864a2cb013SJeremy Morse DFS; 25874a2cb013SJeremy Morse 25884a2cb013SJeremy Morse // Find any artificial successors not already tracked. 25894a2cb013SJeremy Morse for (auto *succ : MBB->successors()) { 25904a2cb013SJeremy Morse if (BlocksToExplore.count(succ)) 25914a2cb013SJeremy Morse continue; 25924a2cb013SJeremy Morse if (!ArtificialBlocks.count(succ)) 25934a2cb013SJeremy Morse continue; 25944a2cb013SJeremy Morse ToAdd.insert(succ); 25954a2cb013SJeremy Morse DFS.push_back({succ, succ->succ_begin()}); 25964a2cb013SJeremy Morse } 25974a2cb013SJeremy Morse 25984a2cb013SJeremy Morse // Search all those blocks, depth first. 25994a2cb013SJeremy Morse while (!DFS.empty()) { 26004a2cb013SJeremy Morse const MachineBasicBlock *CurBB = DFS.back().first; 26014a2cb013SJeremy Morse MachineBasicBlock::const_succ_iterator &CurSucc = DFS.back().second; 26024a2cb013SJeremy Morse // Walk back if we've explored this blocks successors to the end. 26034a2cb013SJeremy Morse if (CurSucc == CurBB->succ_end()) { 26044a2cb013SJeremy Morse DFS.pop_back(); 26054a2cb013SJeremy Morse continue; 26064a2cb013SJeremy Morse } 26074a2cb013SJeremy Morse 26084a2cb013SJeremy Morse // If the current successor is artificial and unexplored, descend into 26094a2cb013SJeremy Morse // it. 26104a2cb013SJeremy Morse if (!ToAdd.count(*CurSucc) && ArtificialBlocks.count(*CurSucc)) { 26114a2cb013SJeremy Morse ToAdd.insert(*CurSucc); 26124a2cb013SJeremy Morse DFS.push_back({*CurSucc, (*CurSucc)->succ_begin()}); 26134a2cb013SJeremy Morse continue; 26144a2cb013SJeremy Morse } 26154a2cb013SJeremy Morse 26164a2cb013SJeremy Morse ++CurSucc; 26174a2cb013SJeremy Morse } 26184a2cb013SJeremy Morse }; 26194a2cb013SJeremy Morse 26204a2cb013SJeremy Morse BlocksToExplore.insert(ToAdd.begin(), ToAdd.end()); 26214a2cb013SJeremy Morse } 26224a2cb013SJeremy Morse 26234a2cb013SJeremy Morse void InstrRefBasedLDV::buildVLocValueMap( 26244a2cb013SJeremy Morse const DILocation *DILoc, const SmallSet<DebugVariable, 4> &VarsWeCareAbout, 2625ae6f7882SJeremy Morse SmallPtrSetImpl<MachineBasicBlock *> &AssignBlocks, LiveInsT &Output, 2626ab49dce0SJeremy Morse FuncValueTable &MOutLocs, FuncValueTable &MInLocs, 2627ae6f7882SJeremy Morse SmallVectorImpl<VLocTracker> &AllTheVLocs) { 2628b5426cedSJeremy Morse // This method is much like buildMLocValueMap: but focuses on a single 2629ae6f7882SJeremy Morse // LexicalScope at a time. Pick out a set of blocks and variables that are 2630ae6f7882SJeremy Morse // to have their value assignments solved, then run our dataflow algorithm 2631ae6f7882SJeremy Morse // until a fixedpoint is reached. 2632ae6f7882SJeremy Morse std::priority_queue<unsigned int, std::vector<unsigned int>, 2633ae6f7882SJeremy Morse std::greater<unsigned int>> 2634ae6f7882SJeremy Morse Worklist, Pending; 2635ae6f7882SJeremy Morse SmallPtrSet<MachineBasicBlock *, 16> OnWorklist, OnPending; 2636ae6f7882SJeremy Morse 2637ae6f7882SJeremy Morse // The set of blocks we'll be examining. 2638ae6f7882SJeremy Morse SmallPtrSet<const MachineBasicBlock *, 8> BlocksToExplore; 2639ae6f7882SJeremy Morse 2640ae6f7882SJeremy Morse // The order in which to examine them (RPO). 2641ae6f7882SJeremy Morse SmallVector<MachineBasicBlock *, 8> BlockOrders; 2642ae6f7882SJeremy Morse 2643ae6f7882SJeremy Morse // RPO ordering function. 2644ae6f7882SJeremy Morse auto Cmp = [&](MachineBasicBlock *A, MachineBasicBlock *B) { 2645ae6f7882SJeremy Morse return BBToOrder[A] < BBToOrder[B]; 2646ae6f7882SJeremy Morse }; 2647ae6f7882SJeremy Morse 26484a2cb013SJeremy Morse getBlocksForScope(DILoc, BlocksToExplore, AssignBlocks); 2649ae6f7882SJeremy Morse 2650ae6f7882SJeremy Morse // Single block scope: not interesting! No propagation at all. Note that 2651ae6f7882SJeremy Morse // this could probably go above ArtificialBlocks without damage, but 2652ae6f7882SJeremy Morse // that then produces output differences from original-live-debug-values, 2653ae6f7882SJeremy Morse // which propagates from a single block into many artificial ones. 2654ae6f7882SJeremy Morse if (BlocksToExplore.size() == 1) 2655ae6f7882SJeremy Morse return; 2656ae6f7882SJeremy Morse 265789950adeSJeremy Morse // Convert a const set to a non-const set. LexicalScopes 265889950adeSJeremy Morse // getMachineBasicBlocks returns const MBB pointers, IDF wants mutable ones. 265989950adeSJeremy Morse // (Neither of them mutate anything). 266089950adeSJeremy Morse SmallPtrSet<MachineBasicBlock *, 8> MutBlocksToExplore; 266189950adeSJeremy Morse for (const auto *MBB : BlocksToExplore) 266289950adeSJeremy Morse MutBlocksToExplore.insert(const_cast<MachineBasicBlock *>(MBB)); 266389950adeSJeremy Morse 2664ae6f7882SJeremy Morse // Picks out relevants blocks RPO order and sort them. 26659e6d1f4bSKazu Hirata for (const auto *MBB : BlocksToExplore) 2666ae6f7882SJeremy Morse BlockOrders.push_back(const_cast<MachineBasicBlock *>(MBB)); 2667ae6f7882SJeremy Morse 26689bcc0d10SKazu Hirata llvm::sort(BlockOrders, Cmp); 2669ae6f7882SJeremy Morse unsigned NumBlocks = BlockOrders.size(); 2670ae6f7882SJeremy Morse 2671ae6f7882SJeremy Morse // Allocate some vectors for storing the live ins and live outs. Large. 267289950adeSJeremy Morse SmallVector<DbgValue, 32> LiveIns, LiveOuts; 267389950adeSJeremy Morse LiveIns.reserve(NumBlocks); 267489950adeSJeremy Morse LiveOuts.reserve(NumBlocks); 2675ae6f7882SJeremy Morse 2676b5426cedSJeremy Morse // Initialize all values to start as NoVals. This signifies "it's live 2677b5426cedSJeremy Morse // through, but we don't know what it is". 2678b5426cedSJeremy Morse DbgValueProperties EmptyProperties(EmptyExpr, false); 267989950adeSJeremy Morse for (unsigned int I = 0; I < NumBlocks; ++I) { 268089950adeSJeremy Morse DbgValue EmptyDbgValue(I, EmptyProperties, DbgValue::NoVal); 268189950adeSJeremy Morse LiveIns.push_back(EmptyDbgValue); 268289950adeSJeremy Morse LiveOuts.push_back(EmptyDbgValue); 2683b5426cedSJeremy Morse } 2684b5426cedSJeremy Morse 2685ae6f7882SJeremy Morse // Produce by-MBB indexes of live-in/live-outs, to ease lookup within 2686ae6f7882SJeremy Morse // vlocJoin. 2687ae6f7882SJeremy Morse LiveIdxT LiveOutIdx, LiveInIdx; 2688ae6f7882SJeremy Morse LiveOutIdx.reserve(NumBlocks); 2689ae6f7882SJeremy Morse LiveInIdx.reserve(NumBlocks); 2690ae6f7882SJeremy Morse for (unsigned I = 0; I < NumBlocks; ++I) { 2691ae6f7882SJeremy Morse LiveOutIdx[BlockOrders[I]] = &LiveOuts[I]; 2692ae6f7882SJeremy Morse LiveInIdx[BlockOrders[I]] = &LiveIns[I]; 2693ae6f7882SJeremy Morse } 2694ae6f7882SJeremy Morse 269589950adeSJeremy Morse // Loop over each variable and place PHIs for it, then propagate values 269689950adeSJeremy Morse // between blocks. This keeps the locality of working on one lexical scope at 269789950adeSJeremy Morse // at time, but avoids re-processing variable values because some other 269889950adeSJeremy Morse // variable has been assigned. 26999e6d1f4bSKazu Hirata for (const auto &Var : VarsWeCareAbout) { 270089950adeSJeremy Morse // Re-initialize live-ins and live-outs, to clear the remains of previous 270189950adeSJeremy Morse // variables live-ins / live-outs. 270289950adeSJeremy Morse for (unsigned int I = 0; I < NumBlocks; ++I) { 270389950adeSJeremy Morse DbgValue EmptyDbgValue(I, EmptyProperties, DbgValue::NoVal); 270489950adeSJeremy Morse LiveIns[I] = EmptyDbgValue; 270589950adeSJeremy Morse LiveOuts[I] = EmptyDbgValue; 2706849b1794SJeremy Morse } 2707849b1794SJeremy Morse 2708b5426cedSJeremy Morse // Place PHIs for variable values, using the LLVM IDF calculator. 2709b5426cedSJeremy Morse // Collect the set of blocks where variables are def'd. 2710b5426cedSJeremy Morse SmallPtrSet<MachineBasicBlock *, 32> DefBlocks; 2711b5426cedSJeremy Morse for (const MachineBasicBlock *ExpMBB : BlocksToExplore) { 2712b5426cedSJeremy Morse auto &TransferFunc = AllTheVLocs[ExpMBB->getNumber()].Vars; 2713b5426cedSJeremy Morse if (TransferFunc.find(Var) != TransferFunc.end()) 2714b5426cedSJeremy Morse DefBlocks.insert(const_cast<MachineBasicBlock *>(ExpMBB)); 2715b5426cedSJeremy Morse } 2716b5426cedSJeremy Morse 2717b5426cedSJeremy Morse SmallVector<MachineBasicBlock *, 32> PHIBlocks; 2718b5426cedSJeremy Morse 2719c703d77aSJeremy Morse // Request the set of PHIs we should insert for this variable. If there's 2720c703d77aSJeremy Morse // only one value definition, things are very simple. 2721c703d77aSJeremy Morse if (DefBlocks.size() == 1) { 2722c703d77aSJeremy Morse placePHIsForSingleVarDefinition(MutBlocksToExplore, *DefBlocks.begin(), 2723c703d77aSJeremy Morse AllTheVLocs, Var, Output); 2724c703d77aSJeremy Morse continue; 2725c703d77aSJeremy Morse } 2726c703d77aSJeremy Morse 2727c703d77aSJeremy Morse // Otherwise: we need to place PHIs through SSA and propagate values. 2728b5426cedSJeremy Morse BlockPHIPlacement(MutBlocksToExplore, DefBlocks, PHIBlocks); 2729b5426cedSJeremy Morse 2730b5426cedSJeremy Morse // Insert PHIs into the per-block live-in tables for this variable. 2731b5426cedSJeremy Morse for (MachineBasicBlock *PHIMBB : PHIBlocks) { 2732b5426cedSJeremy Morse unsigned BlockNo = PHIMBB->getNumber(); 273389950adeSJeremy Morse DbgValue *LiveIn = LiveInIdx[PHIMBB]; 273489950adeSJeremy Morse *LiveIn = DbgValue(BlockNo, EmptyProperties, DbgValue::VPHI); 2735b5426cedSJeremy Morse } 2736b5426cedSJeremy Morse 2737ae6f7882SJeremy Morse for (auto *MBB : BlockOrders) { 2738ae6f7882SJeremy Morse Worklist.push(BBToOrder[MBB]); 2739ae6f7882SJeremy Morse OnWorklist.insert(MBB); 2740ae6f7882SJeremy Morse } 2741ae6f7882SJeremy Morse 274289950adeSJeremy Morse // Iterate over all the blocks we selected, propagating the variables value. 274389950adeSJeremy Morse // This loop does two things: 2744b5426cedSJeremy Morse // * Eliminates un-necessary VPHIs in vlocJoin, 2745b5426cedSJeremy Morse // * Evaluates the blocks transfer function (i.e. variable assignments) and 2746b5426cedSJeremy Morse // stores the result to the blocks live-outs. 274789950adeSJeremy Morse // Always evaluate the transfer function on the first iteration, and when 274889950adeSJeremy Morse // the live-ins change thereafter. 2749ae6f7882SJeremy Morse bool FirstTrip = true; 2750ae6f7882SJeremy Morse while (!Worklist.empty() || !Pending.empty()) { 2751ae6f7882SJeremy Morse while (!Worklist.empty()) { 2752ae6f7882SJeremy Morse auto *MBB = OrderToBB[Worklist.top()]; 2753ae6f7882SJeremy Morse CurBB = MBB->getNumber(); 2754ae6f7882SJeremy Morse Worklist.pop(); 2755ae6f7882SJeremy Morse 275689950adeSJeremy Morse auto LiveInsIt = LiveInIdx.find(MBB); 275789950adeSJeremy Morse assert(LiveInsIt != LiveInIdx.end()); 275889950adeSJeremy Morse DbgValue *LiveIn = LiveInsIt->second; 2759ae6f7882SJeremy Morse 2760ae6f7882SJeremy Morse // Join values from predecessors. Updates LiveInIdx, and writes output 2761ae6f7882SJeremy Morse // into JoinedInLocs. 2762849b1794SJeremy Morse bool InLocsChanged = 27638dda516bSJeremy Morse vlocJoin(*MBB, LiveOutIdx, BlocksToExplore, *LiveIn); 2764ae6f7882SJeremy Morse 2765b5426cedSJeremy Morse SmallVector<const MachineBasicBlock *, 8> Preds; 2766b5426cedSJeremy Morse for (const auto *Pred : MBB->predecessors()) 2767b5426cedSJeremy Morse Preds.push_back(Pred); 2768ae6f7882SJeremy Morse 276989950adeSJeremy Morse // If this block's live-in value is a VPHI, try to pick a machine-value 277089950adeSJeremy Morse // for it. This makes the machine-value available and propagated 277189950adeSJeremy Morse // through all blocks by the time value propagation finishes. We can't 277289950adeSJeremy Morse // do this any earlier as it needs to read the block live-outs. 277389950adeSJeremy Morse if (LiveIn->Kind == DbgValue::VPHI && LiveIn->BlockNo == (int)CurBB) { 2774b5426cedSJeremy Morse // There's a small possibility that on a preceeding path, a VPHI is 2775b5426cedSJeremy Morse // eliminated and transitions from VPHI-with-location to 2776b5426cedSJeremy Morse // live-through-value. As a result, the selected location of any VPHI 2777b5426cedSJeremy Morse // might change, so we need to re-compute it on each iteration. 277889950adeSJeremy Morse Optional<ValueIDNum> ValueNum = 277989950adeSJeremy Morse pickVPHILoc(*MBB, Var, LiveOutIdx, MOutLocs, Preds); 2780ae6f7882SJeremy Morse 2781b5426cedSJeremy Morse if (ValueNum) { 278289950adeSJeremy Morse InLocsChanged |= LiveIn->ID != *ValueNum; 278389950adeSJeremy Morse LiveIn->ID = *ValueNum; 2784b5426cedSJeremy Morse } 2785b5426cedSJeremy Morse } 2786b5426cedSJeremy Morse 2787b5426cedSJeremy Morse if (!InLocsChanged && !FirstTrip) 2788ae6f7882SJeremy Morse continue; 2789ae6f7882SJeremy Morse 279089950adeSJeremy Morse DbgValue *LiveOut = LiveOutIdx[MBB]; 2791849b1794SJeremy Morse bool OLChanged = false; 2792849b1794SJeremy Morse 2793ae6f7882SJeremy Morse // Do transfer function. 2794ab93e710SJeremy Morse auto &VTracker = AllTheVLocs[MBB->getNumber()]; 279589950adeSJeremy Morse auto TransferIt = VTracker.Vars.find(Var); 279689950adeSJeremy Morse if (TransferIt != VTracker.Vars.end()) { 2797ae6f7882SJeremy Morse // Erase on empty transfer (DBG_VALUE $noreg). 279889950adeSJeremy Morse if (TransferIt->second.Kind == DbgValue::Undef) { 2799849b1794SJeremy Morse DbgValue NewVal(MBB->getNumber(), EmptyProperties, DbgValue::NoVal); 280089950adeSJeremy Morse if (*LiveOut != NewVal) { 280189950adeSJeremy Morse *LiveOut = NewVal; 2802849b1794SJeremy Morse OLChanged = true; 2803849b1794SJeremy Morse } 2804ae6f7882SJeremy Morse } else { 2805ae6f7882SJeremy Morse // Insert new variable value; or overwrite. 280689950adeSJeremy Morse if (*LiveOut != TransferIt->second) { 280789950adeSJeremy Morse *LiveOut = TransferIt->second; 2808849b1794SJeremy Morse OLChanged = true; 2809849b1794SJeremy Morse } 2810ae6f7882SJeremy Morse } 281189950adeSJeremy Morse } else { 281289950adeSJeremy Morse // Just copy live-ins to live-outs, for anything not transferred. 281389950adeSJeremy Morse if (*LiveOut != *LiveIn) { 281489950adeSJeremy Morse *LiveOut = *LiveIn; 2815849b1794SJeremy Morse OLChanged = true; 2816849b1794SJeremy Morse } 2817849b1794SJeremy Morse } 2818849b1794SJeremy Morse 2819849b1794SJeremy Morse // If no live-out value changed, there's no need to explore further. 2820849b1794SJeremy Morse if (!OLChanged) 2821849b1794SJeremy Morse continue; 2822ae6f7882SJeremy Morse 2823ae6f7882SJeremy Morse // We should visit all successors. Ensure we'll visit any non-backedge 2824ae6f7882SJeremy Morse // successors during this dataflow iteration; book backedge successors 2825ae6f7882SJeremy Morse // to be visited next time around. 28269e6d1f4bSKazu Hirata for (auto *s : MBB->successors()) { 2827ae6f7882SJeremy Morse // Ignore out of scope / not-to-be-explored successors. 2828ae6f7882SJeremy Morse if (LiveInIdx.find(s) == LiveInIdx.end()) 2829ae6f7882SJeremy Morse continue; 2830ae6f7882SJeremy Morse 2831ae6f7882SJeremy Morse if (BBToOrder[s] > BBToOrder[MBB]) { 2832ae6f7882SJeremy Morse if (OnWorklist.insert(s).second) 2833ae6f7882SJeremy Morse Worklist.push(BBToOrder[s]); 2834ae6f7882SJeremy Morse } else if (OnPending.insert(s).second && (FirstTrip || OLChanged)) { 2835ae6f7882SJeremy Morse Pending.push(BBToOrder[s]); 2836ae6f7882SJeremy Morse } 2837ae6f7882SJeremy Morse } 2838ae6f7882SJeremy Morse } 2839ae6f7882SJeremy Morse Worklist.swap(Pending); 2840ae6f7882SJeremy Morse std::swap(OnWorklist, OnPending); 2841ae6f7882SJeremy Morse OnPending.clear(); 2842ae6f7882SJeremy Morse assert(Pending.empty()); 2843ae6f7882SJeremy Morse FirstTrip = false; 2844ae6f7882SJeremy Morse } 2845ae6f7882SJeremy Morse 2846b5426cedSJeremy Morse // Save live-ins to output vector. Ignore any that are still marked as being 2847b5426cedSJeremy Morse // VPHIs with no location -- those are variables that we know the value of, 2848b5426cedSJeremy Morse // but are not actually available in the register file. 2849ae6f7882SJeremy Morse for (auto *MBB : BlockOrders) { 285089950adeSJeremy Morse DbgValue *BlockLiveIn = LiveInIdx[MBB]; 285189950adeSJeremy Morse if (BlockLiveIn->Kind == DbgValue::NoVal) 2852ae6f7882SJeremy Morse continue; 285389950adeSJeremy Morse if (BlockLiveIn->Kind == DbgValue::VPHI && 285489950adeSJeremy Morse BlockLiveIn->ID == ValueIDNum::EmptyValue) 2855b5426cedSJeremy Morse continue; 285689950adeSJeremy Morse if (BlockLiveIn->Kind == DbgValue::VPHI) 285789950adeSJeremy Morse BlockLiveIn->Kind = DbgValue::Def; 28588dda516bSJeremy Morse assert(BlockLiveIn->Properties.DIExpr->getFragmentInfo() == 28598dda516bSJeremy Morse Var.getFragment() && "Fragment info missing during value prop"); 286089950adeSJeremy Morse Output[MBB->getNumber()].push_back(std::make_pair(Var, *BlockLiveIn)); 2861ae6f7882SJeremy Morse } 286289950adeSJeremy Morse } // Per-variable loop. 2863ae6f7882SJeremy Morse 2864ae6f7882SJeremy Morse BlockOrders.clear(); 2865ae6f7882SJeremy Morse BlocksToExplore.clear(); 2866ae6f7882SJeremy Morse } 2867ae6f7882SJeremy Morse 2868c703d77aSJeremy Morse void InstrRefBasedLDV::placePHIsForSingleVarDefinition( 2869c703d77aSJeremy Morse const SmallPtrSetImpl<MachineBasicBlock *> &InScopeBlocks, 2870c703d77aSJeremy Morse MachineBasicBlock *AssignMBB, SmallVectorImpl<VLocTracker> &AllTheVLocs, 2871c703d77aSJeremy Morse const DebugVariable &Var, LiveInsT &Output) { 2872c703d77aSJeremy Morse // If there is a single definition of the variable, then working out it's 2873c703d77aSJeremy Morse // value everywhere is very simple: it's every block dominated by the 2874c703d77aSJeremy Morse // definition. At the dominance frontier, the usual algorithm would: 2875c703d77aSJeremy Morse // * Place PHIs, 2876c703d77aSJeremy Morse // * Propagate values into them, 2877c703d77aSJeremy Morse // * Find there's no incoming variable value from the other incoming branches 2878c703d77aSJeremy Morse // of the dominance frontier, 2879c703d77aSJeremy Morse // * Specify there's no variable value in blocks past the frontier. 2880c703d77aSJeremy Morse // This is a common case, hence it's worth special-casing it. 2881c703d77aSJeremy Morse 2882c703d77aSJeremy Morse // Pick out the variables value from the block transfer function. 2883c703d77aSJeremy Morse VLocTracker &VLocs = AllTheVLocs[AssignMBB->getNumber()]; 2884c703d77aSJeremy Morse auto ValueIt = VLocs.Vars.find(Var); 2885c703d77aSJeremy Morse const DbgValue &Value = ValueIt->second; 2886c703d77aSJeremy Morse 288743de3057SJeremy Morse // If it's an explicit assignment of "undef", that means there is no location 288843de3057SJeremy Morse // anyway, anywhere. 288943de3057SJeremy Morse if (Value.Kind == DbgValue::Undef) 289043de3057SJeremy Morse return; 289143de3057SJeremy Morse 2892c703d77aSJeremy Morse // Assign the variable value to entry to each dominated block that's in scope. 2893c703d77aSJeremy Morse // Skip the definition block -- it's assigned the variable value in the middle 2894c703d77aSJeremy Morse // of the block somewhere. 2895c703d77aSJeremy Morse for (auto *ScopeBlock : InScopeBlocks) { 2896c703d77aSJeremy Morse if (!DomTree->properlyDominates(AssignMBB, ScopeBlock)) 2897c703d77aSJeremy Morse continue; 2898c703d77aSJeremy Morse 2899c703d77aSJeremy Morse Output[ScopeBlock->getNumber()].push_back({Var, Value}); 2900c703d77aSJeremy Morse } 2901c703d77aSJeremy Morse 2902c703d77aSJeremy Morse // All blocks that aren't dominated have no live-in value, thus no variable 2903c703d77aSJeremy Morse // value will be given to them. 2904c703d77aSJeremy Morse } 2905c703d77aSJeremy Morse 29062ac06241SFangrui Song #if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP) 2907ae6f7882SJeremy Morse void InstrRefBasedLDV::dump_mloc_transfer( 2908ae6f7882SJeremy Morse const MLocTransferMap &mloc_transfer) const { 29099e6d1f4bSKazu Hirata for (const auto &P : mloc_transfer) { 2910ae6f7882SJeremy Morse std::string foo = MTracker->LocIdxToName(P.first); 2911ae6f7882SJeremy Morse std::string bar = MTracker->IDAsString(P.second); 2912ae6f7882SJeremy Morse dbgs() << "Loc " << foo << " --> " << bar << "\n"; 2913ae6f7882SJeremy Morse } 2914ae6f7882SJeremy Morse } 29152ac06241SFangrui Song #endif 2916ae6f7882SJeremy Morse 2917ae6f7882SJeremy Morse void InstrRefBasedLDV::initialSetup(MachineFunction &MF) { 2918ae6f7882SJeremy Morse // Build some useful data structures. 2919b5426cedSJeremy Morse 2920b5426cedSJeremy Morse LLVMContext &Context = MF.getFunction().getContext(); 2921b5426cedSJeremy Morse EmptyExpr = DIExpression::get(Context, {}); 2922b5426cedSJeremy Morse 2923ae6f7882SJeremy Morse auto hasNonArtificialLocation = [](const MachineInstr &MI) -> bool { 2924ae6f7882SJeremy Morse if (const DebugLoc &DL = MI.getDebugLoc()) 2925ae6f7882SJeremy Morse return DL.getLine() != 0; 2926ae6f7882SJeremy Morse return false; 2927ae6f7882SJeremy Morse }; 2928ae6f7882SJeremy Morse // Collect a set of all the artificial blocks. 2929ae6f7882SJeremy Morse for (auto &MBB : MF) 2930ae6f7882SJeremy Morse if (none_of(MBB.instrs(), hasNonArtificialLocation)) 2931ae6f7882SJeremy Morse ArtificialBlocks.insert(&MBB); 2932ae6f7882SJeremy Morse 2933ae6f7882SJeremy Morse // Compute mappings of block <=> RPO order. 2934ae6f7882SJeremy Morse ReversePostOrderTraversal<MachineFunction *> RPOT(&MF); 2935ae6f7882SJeremy Morse unsigned int RPONumber = 0; 2936d5adba10SKazu Hirata for (MachineBasicBlock *MBB : RPOT) { 2937d5adba10SKazu Hirata OrderToBB[RPONumber] = MBB; 2938d5adba10SKazu Hirata BBToOrder[MBB] = RPONumber; 2939d5adba10SKazu Hirata BBNumToRPO[MBB->getNumber()] = RPONumber; 2940ae6f7882SJeremy Morse ++RPONumber; 2941ae6f7882SJeremy Morse } 2942f551fb96SJeremy Morse 2943f551fb96SJeremy Morse // Order value substitutions by their "source" operand pair, for quick lookup. 2944f551fb96SJeremy Morse llvm::sort(MF.DebugValueSubstitutions); 2945f551fb96SJeremy Morse 2946f551fb96SJeremy Morse #ifdef EXPENSIVE_CHECKS 2947f551fb96SJeremy Morse // As an expensive check, test whether there are any duplicate substitution 2948f551fb96SJeremy Morse // sources in the collection. 2949f551fb96SJeremy Morse if (MF.DebugValueSubstitutions.size() > 2) { 2950f551fb96SJeremy Morse for (auto It = MF.DebugValueSubstitutions.begin(); 2951f551fb96SJeremy Morse It != std::prev(MF.DebugValueSubstitutions.end()); ++It) { 2952f551fb96SJeremy Morse assert(It->Src != std::next(It)->Src && "Duplicate variable location " 2953f551fb96SJeremy Morse "substitution seen"); 2954f551fb96SJeremy Morse } 2955f551fb96SJeremy Morse } 2956f551fb96SJeremy Morse #endif 2957ae6f7882SJeremy Morse } 2958ae6f7882SJeremy Morse 29599fd9d56dSJeremy Morse // Produce an "ejection map" for blocks, i.e., what's the highest-numbered 29609fd9d56dSJeremy Morse // lexical scope it's used in. When exploring in DFS order and we pass that 29619fd9d56dSJeremy Morse // scope, the block can be processed and any tracking information freed. 29629fd9d56dSJeremy Morse void InstrRefBasedLDV::makeDepthFirstEjectionMap( 29639fd9d56dSJeremy Morse SmallVectorImpl<unsigned> &EjectionMap, 29649fd9d56dSJeremy Morse const ScopeToDILocT &ScopeToDILocation, 29659fd9d56dSJeremy Morse ScopeToAssignBlocksT &ScopeToAssignBlocks) { 29669fd9d56dSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 8> BlocksToExplore; 29679fd9d56dSJeremy Morse SmallVector<std::pair<LexicalScope *, ssize_t>, 4> WorkStack; 29689fd9d56dSJeremy Morse auto *TopScope = LS.getCurrentFunctionScope(); 29699fd9d56dSJeremy Morse 29709fd9d56dSJeremy Morse // Unlike lexical scope explorers, we explore in reverse order, to find the 29719fd9d56dSJeremy Morse // "last" lexical scope used for each block early. 29729fd9d56dSJeremy Morse WorkStack.push_back({TopScope, TopScope->getChildren().size() - 1}); 29739fd9d56dSJeremy Morse 29749fd9d56dSJeremy Morse while (!WorkStack.empty()) { 29759fd9d56dSJeremy Morse auto &ScopePosition = WorkStack.back(); 29769fd9d56dSJeremy Morse LexicalScope *WS = ScopePosition.first; 29779fd9d56dSJeremy Morse ssize_t ChildNum = ScopePosition.second--; 29789fd9d56dSJeremy Morse 29799fd9d56dSJeremy Morse const SmallVectorImpl<LexicalScope *> &Children = WS->getChildren(); 29809fd9d56dSJeremy Morse if (ChildNum >= 0) { 29819fd9d56dSJeremy Morse // If ChildNum is positive, there are remaining children to explore. 29829fd9d56dSJeremy Morse // Push the child and its children-count onto the stack. 29839fd9d56dSJeremy Morse auto &ChildScope = Children[ChildNum]; 29849fd9d56dSJeremy Morse WorkStack.push_back( 29859fd9d56dSJeremy Morse std::make_pair(ChildScope, ChildScope->getChildren().size() - 1)); 29869fd9d56dSJeremy Morse } else { 29879fd9d56dSJeremy Morse WorkStack.pop_back(); 29889fd9d56dSJeremy Morse 29899fd9d56dSJeremy Morse // We've explored all children and any later blocks: examine all blocks 29909fd9d56dSJeremy Morse // in our scope. If they haven't yet had an ejection number set, then 29919fd9d56dSJeremy Morse // this scope will be the last to use that block. 29929fd9d56dSJeremy Morse auto DILocationIt = ScopeToDILocation.find(WS); 29939fd9d56dSJeremy Morse if (DILocationIt != ScopeToDILocation.end()) { 29949fd9d56dSJeremy Morse getBlocksForScope(DILocationIt->second, BlocksToExplore, 29959fd9d56dSJeremy Morse ScopeToAssignBlocks.find(WS)->second); 29969e6d1f4bSKazu Hirata for (const auto *MBB : BlocksToExplore) { 29979fd9d56dSJeremy Morse unsigned BBNum = MBB->getNumber(); 29989fd9d56dSJeremy Morse if (EjectionMap[BBNum] == 0) 29999fd9d56dSJeremy Morse EjectionMap[BBNum] = WS->getDFSOut(); 30009fd9d56dSJeremy Morse } 30019fd9d56dSJeremy Morse 30029fd9d56dSJeremy Morse BlocksToExplore.clear(); 30039fd9d56dSJeremy Morse } 30049fd9d56dSJeremy Morse } 30059fd9d56dSJeremy Morse } 30069fd9d56dSJeremy Morse } 30079fd9d56dSJeremy Morse 30089fd9d56dSJeremy Morse bool InstrRefBasedLDV::depthFirstVLocAndEmit( 30099fd9d56dSJeremy Morse unsigned MaxNumBlocks, const ScopeToDILocT &ScopeToDILocation, 30109fd9d56dSJeremy Morse const ScopeToVarsT &ScopeToVars, ScopeToAssignBlocksT &ScopeToAssignBlocks, 3011ab49dce0SJeremy Morse LiveInsT &Output, FuncValueTable &MOutLocs, FuncValueTable &MInLocs, 30129fd9d56dSJeremy Morse SmallVectorImpl<VLocTracker> &AllTheVLocs, MachineFunction &MF, 30139fd9d56dSJeremy Morse DenseMap<DebugVariable, unsigned> &AllVarsNumbering, 30149fd9d56dSJeremy Morse const TargetPassConfig &TPC) { 30159fd9d56dSJeremy Morse TTracker = new TransferTracker(TII, MTracker, MF, *TRI, CalleeSavedRegs, TPC); 30169fd9d56dSJeremy Morse unsigned NumLocs = MTracker->getNumLocs(); 30179fd9d56dSJeremy Morse VTracker = nullptr; 30189fd9d56dSJeremy Morse 30199fd9d56dSJeremy Morse // No scopes? No variable locations. 3020ab49dce0SJeremy Morse if (!LS.getCurrentFunctionScope()) 30219fd9d56dSJeremy Morse return false; 30229fd9d56dSJeremy Morse 30239fd9d56dSJeremy Morse // Build map from block number to the last scope that uses the block. 30249fd9d56dSJeremy Morse SmallVector<unsigned, 16> EjectionMap; 30259fd9d56dSJeremy Morse EjectionMap.resize(MaxNumBlocks, 0); 30269fd9d56dSJeremy Morse makeDepthFirstEjectionMap(EjectionMap, ScopeToDILocation, 30279fd9d56dSJeremy Morse ScopeToAssignBlocks); 30289fd9d56dSJeremy Morse 30299fd9d56dSJeremy Morse // Helper lambda for ejecting a block -- if nothing is going to use the block, 30309fd9d56dSJeremy Morse // we can translate the variable location information into DBG_VALUEs and then 30319fd9d56dSJeremy Morse // free all of InstrRefBasedLDV's data structures. 30329fd9d56dSJeremy Morse auto EjectBlock = [&](MachineBasicBlock &MBB) -> void { 30339fd9d56dSJeremy Morse unsigned BBNum = MBB.getNumber(); 30349fd9d56dSJeremy Morse AllTheVLocs[BBNum].clear(); 30359fd9d56dSJeremy Morse 30369fd9d56dSJeremy Morse // Prime the transfer-tracker, and then step through all the block 30379fd9d56dSJeremy Morse // instructions, installing transfers. 30389fd9d56dSJeremy Morse MTracker->reset(); 30399fd9d56dSJeremy Morse MTracker->loadFromArray(MInLocs[BBNum], BBNum); 30409fd9d56dSJeremy Morse TTracker->loadInlocs(MBB, MInLocs[BBNum], Output[BBNum], NumLocs); 30419fd9d56dSJeremy Morse 30429fd9d56dSJeremy Morse CurBB = BBNum; 30439fd9d56dSJeremy Morse CurInst = 1; 30449fd9d56dSJeremy Morse for (auto &MI : MBB) { 3045ab49dce0SJeremy Morse process(MI, MOutLocs.get(), MInLocs.get()); 30469fd9d56dSJeremy Morse TTracker->checkInstForNewValues(CurInst, MI.getIterator()); 30479fd9d56dSJeremy Morse ++CurInst; 30489fd9d56dSJeremy Morse } 30499fd9d56dSJeremy Morse 30509fd9d56dSJeremy Morse // Free machine-location tables for this block. 3051ab49dce0SJeremy Morse MInLocs[BBNum].reset(); 3052ab49dce0SJeremy Morse MOutLocs[BBNum].reset(); 30539fd9d56dSJeremy Morse // We don't need live-in variable values for this block either. 30549fd9d56dSJeremy Morse Output[BBNum].clear(); 30559fd9d56dSJeremy Morse AllTheVLocs[BBNum].clear(); 30569fd9d56dSJeremy Morse }; 30579fd9d56dSJeremy Morse 30589fd9d56dSJeremy Morse SmallPtrSet<const MachineBasicBlock *, 8> BlocksToExplore; 30599fd9d56dSJeremy Morse SmallVector<std::pair<LexicalScope *, ssize_t>, 4> WorkStack; 30609fd9d56dSJeremy Morse WorkStack.push_back({LS.getCurrentFunctionScope(), 0}); 30619fd9d56dSJeremy Morse unsigned HighestDFSIn = 0; 30629fd9d56dSJeremy Morse 30639fd9d56dSJeremy Morse // Proceed to explore in depth first order. 30649fd9d56dSJeremy Morse while (!WorkStack.empty()) { 30659fd9d56dSJeremy Morse auto &ScopePosition = WorkStack.back(); 30669fd9d56dSJeremy Morse LexicalScope *WS = ScopePosition.first; 30679fd9d56dSJeremy Morse ssize_t ChildNum = ScopePosition.second++; 30689fd9d56dSJeremy Morse 30699fd9d56dSJeremy Morse // We obesrve scopes with children twice here, once descending in, once 30709fd9d56dSJeremy Morse // ascending out of the scope nest. Use HighestDFSIn as a ratchet to ensure 30719fd9d56dSJeremy Morse // we don't process a scope twice. Additionally, ignore scopes that don't 30729fd9d56dSJeremy Morse // have a DILocation -- by proxy, this means we never tracked any variable 30739fd9d56dSJeremy Morse // assignments in that scope. 30749fd9d56dSJeremy Morse auto DILocIt = ScopeToDILocation.find(WS); 30759fd9d56dSJeremy Morse if (HighestDFSIn <= WS->getDFSIn() && DILocIt != ScopeToDILocation.end()) { 30769fd9d56dSJeremy Morse const DILocation *DILoc = DILocIt->second; 30779fd9d56dSJeremy Morse auto &VarsWeCareAbout = ScopeToVars.find(WS)->second; 30789fd9d56dSJeremy Morse auto &BlocksInScope = ScopeToAssignBlocks.find(WS)->second; 30799fd9d56dSJeremy Morse 30809fd9d56dSJeremy Morse buildVLocValueMap(DILoc, VarsWeCareAbout, BlocksInScope, Output, MOutLocs, 30819fd9d56dSJeremy Morse MInLocs, AllTheVLocs); 30829fd9d56dSJeremy Morse } 30839fd9d56dSJeremy Morse 30849fd9d56dSJeremy Morse HighestDFSIn = std::max(HighestDFSIn, WS->getDFSIn()); 30859fd9d56dSJeremy Morse 30869fd9d56dSJeremy Morse // Descend into any scope nests. 30879fd9d56dSJeremy Morse const SmallVectorImpl<LexicalScope *> &Children = WS->getChildren(); 30889fd9d56dSJeremy Morse if (ChildNum < (ssize_t)Children.size()) { 30899fd9d56dSJeremy Morse // There are children to explore -- push onto stack and continue. 30909fd9d56dSJeremy Morse auto &ChildScope = Children[ChildNum]; 30919fd9d56dSJeremy Morse WorkStack.push_back(std::make_pair(ChildScope, 0)); 30929fd9d56dSJeremy Morse } else { 30939fd9d56dSJeremy Morse WorkStack.pop_back(); 30949fd9d56dSJeremy Morse 30959fd9d56dSJeremy Morse // We've explored a leaf, or have explored all the children of a scope. 30969fd9d56dSJeremy Morse // Try to eject any blocks where this is the last scope it's relevant to. 30979fd9d56dSJeremy Morse auto DILocationIt = ScopeToDILocation.find(WS); 30989fd9d56dSJeremy Morse if (DILocationIt == ScopeToDILocation.end()) 30999fd9d56dSJeremy Morse continue; 31009fd9d56dSJeremy Morse 31019fd9d56dSJeremy Morse getBlocksForScope(DILocationIt->second, BlocksToExplore, 31029fd9d56dSJeremy Morse ScopeToAssignBlocks.find(WS)->second); 31039e6d1f4bSKazu Hirata for (const auto *MBB : BlocksToExplore) 31049fd9d56dSJeremy Morse if (WS->getDFSOut() == EjectionMap[MBB->getNumber()]) 31059fd9d56dSJeremy Morse EjectBlock(const_cast<MachineBasicBlock &>(*MBB)); 31069fd9d56dSJeremy Morse 31079fd9d56dSJeremy Morse BlocksToExplore.clear(); 31089fd9d56dSJeremy Morse } 31099fd9d56dSJeremy Morse } 31109fd9d56dSJeremy Morse 31119fd9d56dSJeremy Morse // Some artificial blocks may not have been ejected, meaning they're not 31129fd9d56dSJeremy Morse // connected to an actual legitimate scope. This can technically happen 31139fd9d56dSJeremy Morse // with things like the entry block. In theory, we shouldn't need to do 31149fd9d56dSJeremy Morse // anything for such out-of-scope blocks, but for the sake of being similar 31159fd9d56dSJeremy Morse // to VarLocBasedLDV, eject these too. 31169fd9d56dSJeremy Morse for (auto *MBB : ArtificialBlocks) 31179fd9d56dSJeremy Morse if (MOutLocs[MBB->getNumber()]) 31189fd9d56dSJeremy Morse EjectBlock(*MBB); 31199fd9d56dSJeremy Morse 31209fd9d56dSJeremy Morse return emitTransfers(AllVarsNumbering); 31219fd9d56dSJeremy Morse } 31229fd9d56dSJeremy Morse 31234a2cb013SJeremy Morse bool InstrRefBasedLDV::emitTransfers( 31244a2cb013SJeremy Morse DenseMap<DebugVariable, unsigned> &AllVarsNumbering) { 31254a2cb013SJeremy Morse // Go through all the transfers recorded in the TransferTracker -- this is 31264a2cb013SJeremy Morse // both the live-ins to a block, and any movements of values that happen 31274a2cb013SJeremy Morse // in the middle. 31284a2cb013SJeremy Morse for (const auto &P : TTracker->Transfers) { 31294a2cb013SJeremy Morse // We have to insert DBG_VALUEs in a consistent order, otherwise they 31304a2cb013SJeremy Morse // appear in DWARF in different orders. Use the order that they appear 31314a2cb013SJeremy Morse // when walking through each block / each instruction, stored in 31324a2cb013SJeremy Morse // AllVarsNumbering. 31334a2cb013SJeremy Morse SmallVector<std::pair<unsigned, MachineInstr *>> Insts; 31344a2cb013SJeremy Morse for (MachineInstr *MI : P.Insts) { 31354a2cb013SJeremy Morse DebugVariable Var(MI->getDebugVariable(), MI->getDebugExpression(), 31364a2cb013SJeremy Morse MI->getDebugLoc()->getInlinedAt()); 31374a2cb013SJeremy Morse Insts.emplace_back(AllVarsNumbering.find(Var)->second, MI); 31384a2cb013SJeremy Morse } 31394a2cb013SJeremy Morse llvm::sort(Insts, 31404a2cb013SJeremy Morse [](const auto &A, const auto &B) { return A.first < B.first; }); 31414a2cb013SJeremy Morse 31424a2cb013SJeremy Morse // Insert either before or after the designated point... 31434a2cb013SJeremy Morse if (P.MBB) { 31444a2cb013SJeremy Morse MachineBasicBlock &MBB = *P.MBB; 31454a2cb013SJeremy Morse for (const auto &Pair : Insts) 31464a2cb013SJeremy Morse MBB.insert(P.Pos, Pair.second); 31474a2cb013SJeremy Morse } else { 31484a2cb013SJeremy Morse // Terminators, like tail calls, can clobber things. Don't try and place 31494a2cb013SJeremy Morse // transfers after them. 31504a2cb013SJeremy Morse if (P.Pos->isTerminator()) 31514a2cb013SJeremy Morse continue; 31524a2cb013SJeremy Morse 31534a2cb013SJeremy Morse MachineBasicBlock &MBB = *P.Pos->getParent(); 31544a2cb013SJeremy Morse for (const auto &Pair : Insts) 31554a2cb013SJeremy Morse MBB.insertAfterBundle(P.Pos, Pair.second); 31564a2cb013SJeremy Morse } 31574a2cb013SJeremy Morse } 31584a2cb013SJeremy Morse 31594a2cb013SJeremy Morse return TTracker->Transfers.size() != 0; 31604a2cb013SJeremy Morse } 31614a2cb013SJeremy Morse 3162ae6f7882SJeremy Morse /// Calculate the liveness information for the given machine function and 3163ae6f7882SJeremy Morse /// extend ranges across basic blocks. 3164a3936a6cSJeremy Morse bool InstrRefBasedLDV::ExtendRanges(MachineFunction &MF, 3165a3936a6cSJeremy Morse MachineDominatorTree *DomTree, 3166a3936a6cSJeremy Morse TargetPassConfig *TPC, 3167708cbda5SJeremy Morse unsigned InputBBLimit, 3168708cbda5SJeremy Morse unsigned InputDbgValLimit) { 3169ae6f7882SJeremy Morse // No subprogram means this function contains no debuginfo. 3170ae6f7882SJeremy Morse if (!MF.getFunction().getSubprogram()) 3171ae6f7882SJeremy Morse return false; 3172ae6f7882SJeremy Morse 3173ae6f7882SJeremy Morse LLVM_DEBUG(dbgs() << "\nDebug Range Extension\n"); 3174ae6f7882SJeremy Morse this->TPC = TPC; 3175ae6f7882SJeremy Morse 3176a3936a6cSJeremy Morse this->DomTree = DomTree; 3177ae6f7882SJeremy Morse TRI = MF.getSubtarget().getRegisterInfo(); 3178e7084ceaSJeremy Morse MRI = &MF.getRegInfo(); 3179ae6f7882SJeremy Morse TII = MF.getSubtarget().getInstrInfo(); 3180ae6f7882SJeremy Morse TFI = MF.getSubtarget().getFrameLowering(); 3181ae6f7882SJeremy Morse TFI->getCalleeSaves(MF, CalleeSavedRegs); 3182010108bbSJeremy Morse MFI = &MF.getFrameInfo(); 3183ae6f7882SJeremy Morse LS.initialize(MF); 3184ae6f7882SJeremy Morse 3185bfadc5dcSJeremy Morse const auto &STI = MF.getSubtarget(); 3186bfadc5dcSJeremy Morse AdjustsStackInCalls = MFI->adjustsStack() && 3187bfadc5dcSJeremy Morse STI.getFrameLowering()->stackProbeFunctionModifiesSP(); 3188bfadc5dcSJeremy Morse if (AdjustsStackInCalls) 3189bfadc5dcSJeremy Morse StackProbeSymbolName = STI.getTargetLowering()->getStackProbeSymbolName(MF); 3190bfadc5dcSJeremy Morse 3191ae6f7882SJeremy Morse MTracker = 3192ae6f7882SJeremy Morse new MLocTracker(MF, *TII, *TRI, *MF.getSubtarget().getTargetLowering()); 3193ae6f7882SJeremy Morse VTracker = nullptr; 3194ae6f7882SJeremy Morse TTracker = nullptr; 3195ae6f7882SJeremy Morse 3196ae6f7882SJeremy Morse SmallVector<MLocTransferMap, 32> MLocTransfer; 3197ae6f7882SJeremy Morse SmallVector<VLocTracker, 8> vlocs; 3198ae6f7882SJeremy Morse LiveInsT SavedLiveIns; 3199ae6f7882SJeremy Morse 3200ae6f7882SJeremy Morse int MaxNumBlocks = -1; 3201ae6f7882SJeremy Morse for (auto &MBB : MF) 3202ae6f7882SJeremy Morse MaxNumBlocks = std::max(MBB.getNumber(), MaxNumBlocks); 3203ae6f7882SJeremy Morse assert(MaxNumBlocks >= 0); 3204ae6f7882SJeremy Morse ++MaxNumBlocks; 3205ae6f7882SJeremy Morse 3206f0ca0a32SVitaly Buka initialSetup(MF); 3207f0ca0a32SVitaly Buka 3208ae6f7882SJeremy Morse MLocTransfer.resize(MaxNumBlocks); 32090eee8445SJeremy Morse vlocs.resize(MaxNumBlocks, VLocTracker(OverlapFragments, EmptyExpr)); 3210ae6f7882SJeremy Morse SavedLiveIns.resize(MaxNumBlocks); 3211ae6f7882SJeremy Morse 3212ab93e710SJeremy Morse produceMLocTransferFunction(MF, MLocTransfer, MaxNumBlocks); 3213ae6f7882SJeremy Morse 3214ae6f7882SJeremy Morse // Allocate and initialize two array-of-arrays for the live-in and live-out 3215ae6f7882SJeremy Morse // machine values. The outer dimension is the block number; while the inner 3216ae6f7882SJeremy Morse // dimension is a LocIdx from MLocTracker. 3217ab49dce0SJeremy Morse FuncValueTable MOutLocs = std::make_unique<ValueTable[]>(MaxNumBlocks); 3218ab49dce0SJeremy Morse FuncValueTable MInLocs = std::make_unique<ValueTable[]>(MaxNumBlocks); 3219ae6f7882SJeremy Morse unsigned NumLocs = MTracker->getNumLocs(); 3220ae6f7882SJeremy Morse for (int i = 0; i < MaxNumBlocks; ++i) { 3221a3936a6cSJeremy Morse // These all auto-initialize to ValueIDNum::EmptyValue 3222ab49dce0SJeremy Morse MOutLocs[i] = std::make_unique<ValueIDNum[]>(NumLocs); 3223ab49dce0SJeremy Morse MInLocs[i] = std::make_unique<ValueIDNum[]>(NumLocs); 3224ae6f7882SJeremy Morse } 3225ae6f7882SJeremy Morse 3226ae6f7882SJeremy Morse // Solve the machine value dataflow problem using the MLocTransfer function, 3227ae6f7882SJeremy Morse // storing the computed live-ins / live-outs into the array-of-arrays. We use 3228ae6f7882SJeremy Morse // both live-ins and live-outs for decision making in the variable value 3229ae6f7882SJeremy Morse // dataflow problem. 3230a3936a6cSJeremy Morse buildMLocValueMap(MF, MInLocs, MOutLocs, MLocTransfer); 3231ae6f7882SJeremy Morse 3232010108bbSJeremy Morse // Patch up debug phi numbers, turning unknown block-live-in values into 3233010108bbSJeremy Morse // either live-through machine values, or PHIs. 3234010108bbSJeremy Morse for (auto &DBG_PHI : DebugPHINumToValue) { 3235010108bbSJeremy Morse // Identify unresolved block-live-ins. 3236be5734ddSJeremy Morse if (!DBG_PHI.ValueRead) 3237be5734ddSJeremy Morse continue; 3238be5734ddSJeremy Morse 3239be5734ddSJeremy Morse ValueIDNum &Num = *DBG_PHI.ValueRead; 3240010108bbSJeremy Morse if (!Num.isPHI()) 3241010108bbSJeremy Morse continue; 3242010108bbSJeremy Morse 3243010108bbSJeremy Morse unsigned BlockNo = Num.getBlock(); 3244010108bbSJeremy Morse LocIdx LocNo = Num.getLoc(); 3245010108bbSJeremy Morse Num = MInLocs[BlockNo][LocNo.asU64()]; 3246010108bbSJeremy Morse } 3247010108bbSJeremy Morse // Later, we'll be looking up ranges of instruction numbers. 3248010108bbSJeremy Morse llvm::sort(DebugPHINumToValue); 3249010108bbSJeremy Morse 3250ab93e710SJeremy Morse // Walk back through each block / instruction, collecting DBG_VALUE 3251ab93e710SJeremy Morse // instructions and recording what machine value their operands refer to. 3252ab93e710SJeremy Morse for (auto &OrderPair : OrderToBB) { 3253ab93e710SJeremy Morse MachineBasicBlock &MBB = *OrderPair.second; 3254ab93e710SJeremy Morse CurBB = MBB.getNumber(); 3255ab93e710SJeremy Morse VTracker = &vlocs[CurBB]; 3256ab93e710SJeremy Morse VTracker->MBB = &MBB; 3257ab93e710SJeremy Morse MTracker->loadFromArray(MInLocs[CurBB], CurBB); 3258ab93e710SJeremy Morse CurInst = 1; 3259ab93e710SJeremy Morse for (auto &MI : MBB) { 3260ab49dce0SJeremy Morse process(MI, MOutLocs.get(), MInLocs.get()); 3261ab93e710SJeremy Morse ++CurInst; 3262ab93e710SJeremy Morse } 3263ab93e710SJeremy Morse MTracker->reset(); 3264ab93e710SJeremy Morse } 3265ab93e710SJeremy Morse 3266ae6f7882SJeremy Morse // Number all variables in the order that they appear, to be used as a stable 3267ae6f7882SJeremy Morse // insertion order later. 3268ae6f7882SJeremy Morse DenseMap<DebugVariable, unsigned> AllVarsNumbering; 3269ae6f7882SJeremy Morse 3270ae6f7882SJeremy Morse // Map from one LexicalScope to all the variables in that scope. 32714a2cb013SJeremy Morse ScopeToVarsT ScopeToVars; 3272ae6f7882SJeremy Morse 32734a2cb013SJeremy Morse // Map from One lexical scope to all blocks where assignments happen for 32744a2cb013SJeremy Morse // that scope. 32754a2cb013SJeremy Morse ScopeToAssignBlocksT ScopeToAssignBlocks; 3276ae6f7882SJeremy Morse 32774a2cb013SJeremy Morse // Store map of DILocations that describes scopes. 32784a2cb013SJeremy Morse ScopeToDILocT ScopeToDILocation; 3279ae6f7882SJeremy Morse 3280ae6f7882SJeremy Morse // To mirror old LiveDebugValues, enumerate variables in RPOT order. Otherwise 3281ae6f7882SJeremy Morse // the order is unimportant, it just has to be stable. 3282708cbda5SJeremy Morse unsigned VarAssignCount = 0; 3283ae6f7882SJeremy Morse for (unsigned int I = 0; I < OrderToBB.size(); ++I) { 3284ae6f7882SJeremy Morse auto *MBB = OrderToBB[I]; 3285ae6f7882SJeremy Morse auto *VTracker = &vlocs[MBB->getNumber()]; 3286ae6f7882SJeremy Morse // Collect each variable with a DBG_VALUE in this block. 3287ae6f7882SJeremy Morse for (auto &idx : VTracker->Vars) { 3288ae6f7882SJeremy Morse const auto &Var = idx.first; 3289ae6f7882SJeremy Morse const DILocation *ScopeLoc = VTracker->Scopes[Var]; 3290ae6f7882SJeremy Morse assert(ScopeLoc != nullptr); 3291ae6f7882SJeremy Morse auto *Scope = LS.findLexicalScope(ScopeLoc); 3292ae6f7882SJeremy Morse 3293ae6f7882SJeremy Morse // No insts in scope -> shouldn't have been recorded. 3294ae6f7882SJeremy Morse assert(Scope != nullptr); 3295ae6f7882SJeremy Morse 3296ae6f7882SJeremy Morse AllVarsNumbering.insert(std::make_pair(Var, AllVarsNumbering.size())); 3297ae6f7882SJeremy Morse ScopeToVars[Scope].insert(Var); 32984a2cb013SJeremy Morse ScopeToAssignBlocks[Scope].insert(VTracker->MBB); 3299ae6f7882SJeremy Morse ScopeToDILocation[Scope] = ScopeLoc; 3300708cbda5SJeremy Morse ++VarAssignCount; 3301ae6f7882SJeremy Morse } 3302ae6f7882SJeremy Morse } 3303ae6f7882SJeremy Morse 3304708cbda5SJeremy Morse bool Changed = false; 3305708cbda5SJeremy Morse 3306708cbda5SJeremy Morse // If we have an extremely large number of variable assignments and blocks, 3307708cbda5SJeremy Morse // bail out at this point. We've burnt some time doing analysis already, 3308708cbda5SJeremy Morse // however we should cut our losses. 3309708cbda5SJeremy Morse if ((unsigned)MaxNumBlocks > InputBBLimit && 3310708cbda5SJeremy Morse VarAssignCount > InputDbgValLimit) { 3311708cbda5SJeremy Morse LLVM_DEBUG(dbgs() << "Disabling InstrRefBasedLDV: " << MF.getName() 3312708cbda5SJeremy Morse << " has " << MaxNumBlocks << " basic blocks and " 3313708cbda5SJeremy Morse << VarAssignCount 3314708cbda5SJeremy Morse << " variable assignments, exceeding limits.\n"); 3315708cbda5SJeremy Morse } else { 33169fd9d56dSJeremy Morse // Optionally, solve the variable value problem and emit to blocks by using 33179fd9d56dSJeremy Morse // a lexical-scope-depth search. It should be functionally identical to 33189fd9d56dSJeremy Morse // the "else" block of this condition. 33199fd9d56dSJeremy Morse Changed = depthFirstVLocAndEmit( 33209fd9d56dSJeremy Morse MaxNumBlocks, ScopeToDILocation, ScopeToVars, ScopeToAssignBlocks, 33219fd9d56dSJeremy Morse SavedLiveIns, MOutLocs, MInLocs, vlocs, MF, AllVarsNumbering, *TPC); 3322708cbda5SJeremy Morse } 3323708cbda5SJeremy Morse 3324ae6f7882SJeremy Morse delete MTracker; 33250caeaff1SJeremy Morse delete TTracker; 33260caeaff1SJeremy Morse MTracker = nullptr; 3327ae6f7882SJeremy Morse VTracker = nullptr; 3328ae6f7882SJeremy Morse TTracker = nullptr; 3329ae6f7882SJeremy Morse 3330ae6f7882SJeremy Morse ArtificialBlocks.clear(); 3331ae6f7882SJeremy Morse OrderToBB.clear(); 3332ae6f7882SJeremy Morse BBToOrder.clear(); 3333ae6f7882SJeremy Morse BBNumToRPO.clear(); 333468f47157SJeremy Morse DebugInstrNumToInstr.clear(); 3335010108bbSJeremy Morse DebugPHINumToValue.clear(); 33360eee8445SJeremy Morse OverlapFragments.clear(); 33370eee8445SJeremy Morse SeenFragments.clear(); 3338d556eb7eSJeremy Morse SeenDbgPHIs.clear(); 3339ae6f7882SJeremy Morse 3340ae6f7882SJeremy Morse return Changed; 3341ae6f7882SJeremy Morse } 3342ae6f7882SJeremy Morse 3343ae6f7882SJeremy Morse LDVImpl *llvm::makeInstrRefBasedLiveDebugValues() { 3344ae6f7882SJeremy Morse return new InstrRefBasedLDV(); 3345ae6f7882SJeremy Morse } 3346010108bbSJeremy Morse 3347010108bbSJeremy Morse namespace { 3348010108bbSJeremy Morse class LDVSSABlock; 3349010108bbSJeremy Morse class LDVSSAUpdater; 3350010108bbSJeremy Morse 3351010108bbSJeremy Morse // Pick a type to identify incoming block values as we construct SSA. We 3352010108bbSJeremy Morse // can't use anything more robust than an integer unfortunately, as SSAUpdater 3353010108bbSJeremy Morse // expects to zero-initialize the type. 3354010108bbSJeremy Morse typedef uint64_t BlockValueNum; 3355010108bbSJeremy Morse 3356010108bbSJeremy Morse /// Represents an SSA PHI node for the SSA updater class. Contains the block 3357010108bbSJeremy Morse /// this PHI is in, the value number it would have, and the expected incoming 3358010108bbSJeremy Morse /// values from parent blocks. 3359010108bbSJeremy Morse class LDVSSAPhi { 3360010108bbSJeremy Morse public: 3361010108bbSJeremy Morse SmallVector<std::pair<LDVSSABlock *, BlockValueNum>, 4> IncomingValues; 3362010108bbSJeremy Morse LDVSSABlock *ParentBlock; 3363010108bbSJeremy Morse BlockValueNum PHIValNum; 3364010108bbSJeremy Morse LDVSSAPhi(BlockValueNum PHIValNum, LDVSSABlock *ParentBlock) 3365010108bbSJeremy Morse : ParentBlock(ParentBlock), PHIValNum(PHIValNum) {} 3366010108bbSJeremy Morse 3367010108bbSJeremy Morse LDVSSABlock *getParent() { return ParentBlock; } 3368010108bbSJeremy Morse }; 3369010108bbSJeremy Morse 3370010108bbSJeremy Morse /// Thin wrapper around a block predecessor iterator. Only difference from a 3371010108bbSJeremy Morse /// normal block iterator is that it dereferences to an LDVSSABlock. 3372010108bbSJeremy Morse class LDVSSABlockIterator { 3373010108bbSJeremy Morse public: 3374010108bbSJeremy Morse MachineBasicBlock::pred_iterator PredIt; 3375010108bbSJeremy Morse LDVSSAUpdater &Updater; 3376010108bbSJeremy Morse 3377010108bbSJeremy Morse LDVSSABlockIterator(MachineBasicBlock::pred_iterator PredIt, 3378010108bbSJeremy Morse LDVSSAUpdater &Updater) 3379010108bbSJeremy Morse : PredIt(PredIt), Updater(Updater) {} 3380010108bbSJeremy Morse 3381010108bbSJeremy Morse bool operator!=(const LDVSSABlockIterator &OtherIt) const { 3382010108bbSJeremy Morse return OtherIt.PredIt != PredIt; 3383010108bbSJeremy Morse } 3384010108bbSJeremy Morse 3385010108bbSJeremy Morse LDVSSABlockIterator &operator++() { 3386010108bbSJeremy Morse ++PredIt; 3387010108bbSJeremy Morse return *this; 3388010108bbSJeremy Morse } 3389010108bbSJeremy Morse 3390010108bbSJeremy Morse LDVSSABlock *operator*(); 3391010108bbSJeremy Morse }; 3392010108bbSJeremy Morse 3393010108bbSJeremy Morse /// Thin wrapper around a block for SSA Updater interface. Necessary because 3394010108bbSJeremy Morse /// we need to track the PHI value(s) that we may have observed as necessary 3395010108bbSJeremy Morse /// in this block. 3396010108bbSJeremy Morse class LDVSSABlock { 3397010108bbSJeremy Morse public: 3398010108bbSJeremy Morse MachineBasicBlock &BB; 3399010108bbSJeremy Morse LDVSSAUpdater &Updater; 3400010108bbSJeremy Morse using PHIListT = SmallVector<LDVSSAPhi, 1>; 3401010108bbSJeremy Morse /// List of PHIs in this block. There should only ever be one. 3402010108bbSJeremy Morse PHIListT PHIList; 3403010108bbSJeremy Morse 3404010108bbSJeremy Morse LDVSSABlock(MachineBasicBlock &BB, LDVSSAUpdater &Updater) 3405010108bbSJeremy Morse : BB(BB), Updater(Updater) {} 3406010108bbSJeremy Morse 3407010108bbSJeremy Morse LDVSSABlockIterator succ_begin() { 3408010108bbSJeremy Morse return LDVSSABlockIterator(BB.succ_begin(), Updater); 3409010108bbSJeremy Morse } 3410010108bbSJeremy Morse 3411010108bbSJeremy Morse LDVSSABlockIterator succ_end() { 3412010108bbSJeremy Morse return LDVSSABlockIterator(BB.succ_end(), Updater); 3413010108bbSJeremy Morse } 3414010108bbSJeremy Morse 3415010108bbSJeremy Morse /// SSAUpdater has requested a PHI: create that within this block record. 3416010108bbSJeremy Morse LDVSSAPhi *newPHI(BlockValueNum Value) { 3417010108bbSJeremy Morse PHIList.emplace_back(Value, this); 3418010108bbSJeremy Morse return &PHIList.back(); 3419010108bbSJeremy Morse } 3420010108bbSJeremy Morse 3421010108bbSJeremy Morse /// SSAUpdater wishes to know what PHIs already exist in this block. 3422010108bbSJeremy Morse PHIListT &phis() { return PHIList; } 3423010108bbSJeremy Morse }; 3424010108bbSJeremy Morse 3425010108bbSJeremy Morse /// Utility class for the SSAUpdater interface: tracks blocks, PHIs and values 3426010108bbSJeremy Morse /// while SSAUpdater is exploring the CFG. It's passed as a handle / baton to 3427010108bbSJeremy Morse // SSAUpdaterTraits<LDVSSAUpdater>. 3428010108bbSJeremy Morse class LDVSSAUpdater { 3429010108bbSJeremy Morse public: 3430010108bbSJeremy Morse /// Map of value numbers to PHI records. 3431010108bbSJeremy Morse DenseMap<BlockValueNum, LDVSSAPhi *> PHIs; 3432010108bbSJeremy Morse /// Map of which blocks generate Undef values -- blocks that are not 3433010108bbSJeremy Morse /// dominated by any Def. 3434010108bbSJeremy Morse DenseMap<MachineBasicBlock *, BlockValueNum> UndefMap; 3435010108bbSJeremy Morse /// Map of machine blocks to our own records of them. 3436010108bbSJeremy Morse DenseMap<MachineBasicBlock *, LDVSSABlock *> BlockMap; 3437010108bbSJeremy Morse /// Machine location where any PHI must occur. 3438010108bbSJeremy Morse LocIdx Loc; 3439010108bbSJeremy Morse /// Table of live-in machine value numbers for blocks / locations. 3440ab49dce0SJeremy Morse const ValueTable *MLiveIns; 3441010108bbSJeremy Morse 3442ab49dce0SJeremy Morse LDVSSAUpdater(LocIdx L, const ValueTable *MLiveIns) 3443ab49dce0SJeremy Morse : Loc(L), MLiveIns(MLiveIns) {} 3444010108bbSJeremy Morse 3445010108bbSJeremy Morse void reset() { 3446e63b18bcSJeremy Morse for (auto &Block : BlockMap) 3447e63b18bcSJeremy Morse delete Block.second; 3448e63b18bcSJeremy Morse 3449010108bbSJeremy Morse PHIs.clear(); 3450010108bbSJeremy Morse UndefMap.clear(); 3451010108bbSJeremy Morse BlockMap.clear(); 3452010108bbSJeremy Morse } 3453010108bbSJeremy Morse 3454010108bbSJeremy Morse ~LDVSSAUpdater() { reset(); } 3455010108bbSJeremy Morse 3456010108bbSJeremy Morse /// For a given MBB, create a wrapper block for it. Stores it in the 3457010108bbSJeremy Morse /// LDVSSAUpdater block map. 3458010108bbSJeremy Morse LDVSSABlock *getSSALDVBlock(MachineBasicBlock *BB) { 3459010108bbSJeremy Morse auto it = BlockMap.find(BB); 3460010108bbSJeremy Morse if (it == BlockMap.end()) { 3461010108bbSJeremy Morse BlockMap[BB] = new LDVSSABlock(*BB, *this); 3462010108bbSJeremy Morse it = BlockMap.find(BB); 3463010108bbSJeremy Morse } 3464010108bbSJeremy Morse return it->second; 3465010108bbSJeremy Morse } 3466010108bbSJeremy Morse 3467010108bbSJeremy Morse /// Find the live-in value number for the given block. Looks up the value at 3468010108bbSJeremy Morse /// the PHI location on entry. 3469010108bbSJeremy Morse BlockValueNum getValue(LDVSSABlock *LDVBB) { 3470010108bbSJeremy Morse return MLiveIns[LDVBB->BB.getNumber()][Loc.asU64()].asU64(); 3471010108bbSJeremy Morse } 3472010108bbSJeremy Morse }; 3473010108bbSJeremy Morse 3474010108bbSJeremy Morse LDVSSABlock *LDVSSABlockIterator::operator*() { 3475010108bbSJeremy Morse return Updater.getSSALDVBlock(*PredIt); 3476010108bbSJeremy Morse } 3477010108bbSJeremy Morse 3478632e15e7SDavid Blaikie #ifndef NDEBUG 3479010108bbSJeremy Morse 3480010108bbSJeremy Morse raw_ostream &operator<<(raw_ostream &out, const LDVSSAPhi &PHI) { 3481010108bbSJeremy Morse out << "SSALDVPHI " << PHI.PHIValNum; 3482010108bbSJeremy Morse return out; 3483010108bbSJeremy Morse } 3484010108bbSJeremy Morse 3485632e15e7SDavid Blaikie #endif 3486632e15e7SDavid Blaikie 3487632e15e7SDavid Blaikie } // namespace 3488632e15e7SDavid Blaikie 3489632e15e7SDavid Blaikie namespace llvm { 3490632e15e7SDavid Blaikie 3491010108bbSJeremy Morse /// Template specialization to give SSAUpdater access to CFG and value 3492010108bbSJeremy Morse /// information. SSAUpdater calls methods in these traits, passing in the 3493010108bbSJeremy Morse /// LDVSSAUpdater object, to learn about blocks and the values they define. 3494010108bbSJeremy Morse /// It also provides methods to create PHI nodes and track them. 3495010108bbSJeremy Morse template <> class SSAUpdaterTraits<LDVSSAUpdater> { 3496010108bbSJeremy Morse public: 3497010108bbSJeremy Morse using BlkT = LDVSSABlock; 3498010108bbSJeremy Morse using ValT = BlockValueNum; 3499010108bbSJeremy Morse using PhiT = LDVSSAPhi; 3500010108bbSJeremy Morse using BlkSucc_iterator = LDVSSABlockIterator; 3501010108bbSJeremy Morse 3502010108bbSJeremy Morse // Methods to access block successors -- dereferencing to our wrapper class. 3503010108bbSJeremy Morse static BlkSucc_iterator BlkSucc_begin(BlkT *BB) { return BB->succ_begin(); } 3504010108bbSJeremy Morse static BlkSucc_iterator BlkSucc_end(BlkT *BB) { return BB->succ_end(); } 3505010108bbSJeremy Morse 3506010108bbSJeremy Morse /// Iterator for PHI operands. 3507010108bbSJeremy Morse class PHI_iterator { 3508010108bbSJeremy Morse private: 3509010108bbSJeremy Morse LDVSSAPhi *PHI; 3510010108bbSJeremy Morse unsigned Idx; 3511010108bbSJeremy Morse 3512010108bbSJeremy Morse public: 3513010108bbSJeremy Morse explicit PHI_iterator(LDVSSAPhi *P) // begin iterator 3514010108bbSJeremy Morse : PHI(P), Idx(0) {} 3515010108bbSJeremy Morse PHI_iterator(LDVSSAPhi *P, bool) // end iterator 3516010108bbSJeremy Morse : PHI(P), Idx(PHI->IncomingValues.size()) {} 3517010108bbSJeremy Morse 3518010108bbSJeremy Morse PHI_iterator &operator++() { 3519010108bbSJeremy Morse Idx++; 3520010108bbSJeremy Morse return *this; 3521010108bbSJeremy Morse } 3522010108bbSJeremy Morse bool operator==(const PHI_iterator &X) const { return Idx == X.Idx; } 3523010108bbSJeremy Morse bool operator!=(const PHI_iterator &X) const { return !operator==(X); } 3524010108bbSJeremy Morse 3525010108bbSJeremy Morse BlockValueNum getIncomingValue() { return PHI->IncomingValues[Idx].second; } 3526010108bbSJeremy Morse 3527010108bbSJeremy Morse LDVSSABlock *getIncomingBlock() { return PHI->IncomingValues[Idx].first; } 3528010108bbSJeremy Morse }; 3529010108bbSJeremy Morse 3530010108bbSJeremy Morse static inline PHI_iterator PHI_begin(PhiT *PHI) { return PHI_iterator(PHI); } 3531010108bbSJeremy Morse 3532010108bbSJeremy Morse static inline PHI_iterator PHI_end(PhiT *PHI) { 3533010108bbSJeremy Morse return PHI_iterator(PHI, true); 3534010108bbSJeremy Morse } 3535010108bbSJeremy Morse 3536010108bbSJeremy Morse /// FindPredecessorBlocks - Put the predecessors of BB into the Preds 3537010108bbSJeremy Morse /// vector. 3538010108bbSJeremy Morse static void FindPredecessorBlocks(LDVSSABlock *BB, 3539010108bbSJeremy Morse SmallVectorImpl<LDVSSABlock *> *Preds) { 3540ef2d0e0fSKazu Hirata for (MachineBasicBlock *Pred : BB->BB.predecessors()) 3541ef2d0e0fSKazu Hirata Preds->push_back(BB->Updater.getSSALDVBlock(Pred)); 3542010108bbSJeremy Morse } 3543010108bbSJeremy Morse 3544010108bbSJeremy Morse /// GetUndefVal - Normally creates an IMPLICIT_DEF instruction with a new 3545010108bbSJeremy Morse /// register. For LiveDebugValues, represents a block identified as not having 3546010108bbSJeremy Morse /// any DBG_PHI predecessors. 3547010108bbSJeremy Morse static BlockValueNum GetUndefVal(LDVSSABlock *BB, LDVSSAUpdater *Updater) { 3548010108bbSJeremy Morse // Create a value number for this block -- it needs to be unique and in the 3549010108bbSJeremy Morse // "undef" collection, so that we know it's not real. Use a number 3550010108bbSJeremy Morse // representing a PHI into this block. 3551010108bbSJeremy Morse BlockValueNum Num = ValueIDNum(BB->BB.getNumber(), 0, Updater->Loc).asU64(); 3552010108bbSJeremy Morse Updater->UndefMap[&BB->BB] = Num; 3553010108bbSJeremy Morse return Num; 3554010108bbSJeremy Morse } 3555010108bbSJeremy Morse 3556010108bbSJeremy Morse /// CreateEmptyPHI - Create a (representation of a) PHI in the given block. 3557010108bbSJeremy Morse /// SSAUpdater will populate it with information about incoming values. The 3558010108bbSJeremy Morse /// value number of this PHI is whatever the machine value number problem 3559010108bbSJeremy Morse /// solution determined it to be. This includes non-phi values if SSAUpdater 3560010108bbSJeremy Morse /// tries to create a PHI where the incoming values are identical. 3561010108bbSJeremy Morse static BlockValueNum CreateEmptyPHI(LDVSSABlock *BB, unsigned NumPreds, 3562010108bbSJeremy Morse LDVSSAUpdater *Updater) { 3563010108bbSJeremy Morse BlockValueNum PHIValNum = Updater->getValue(BB); 3564010108bbSJeremy Morse LDVSSAPhi *PHI = BB->newPHI(PHIValNum); 3565010108bbSJeremy Morse Updater->PHIs[PHIValNum] = PHI; 3566010108bbSJeremy Morse return PHIValNum; 3567010108bbSJeremy Morse } 3568010108bbSJeremy Morse 3569010108bbSJeremy Morse /// AddPHIOperand - Add the specified value as an operand of the PHI for 3570010108bbSJeremy Morse /// the specified predecessor block. 3571010108bbSJeremy Morse static void AddPHIOperand(LDVSSAPhi *PHI, BlockValueNum Val, LDVSSABlock *Pred) { 3572010108bbSJeremy Morse PHI->IncomingValues.push_back(std::make_pair(Pred, Val)); 3573010108bbSJeremy Morse } 3574010108bbSJeremy Morse 3575010108bbSJeremy Morse /// ValueIsPHI - Check if the instruction that defines the specified value 3576010108bbSJeremy Morse /// is a PHI instruction. 3577010108bbSJeremy Morse static LDVSSAPhi *ValueIsPHI(BlockValueNum Val, LDVSSAUpdater *Updater) { 3578010108bbSJeremy Morse auto PHIIt = Updater->PHIs.find(Val); 3579010108bbSJeremy Morse if (PHIIt == Updater->PHIs.end()) 3580010108bbSJeremy Morse return nullptr; 3581010108bbSJeremy Morse return PHIIt->second; 3582010108bbSJeremy Morse } 3583010108bbSJeremy Morse 3584010108bbSJeremy Morse /// ValueIsNewPHI - Like ValueIsPHI but also check if the PHI has no source 3585010108bbSJeremy Morse /// operands, i.e., it was just added. 3586010108bbSJeremy Morse static LDVSSAPhi *ValueIsNewPHI(BlockValueNum Val, LDVSSAUpdater *Updater) { 3587010108bbSJeremy Morse LDVSSAPhi *PHI = ValueIsPHI(Val, Updater); 3588010108bbSJeremy Morse if (PHI && PHI->IncomingValues.size() == 0) 3589010108bbSJeremy Morse return PHI; 3590010108bbSJeremy Morse return nullptr; 3591010108bbSJeremy Morse } 3592010108bbSJeremy Morse 3593010108bbSJeremy Morse /// GetPHIValue - For the specified PHI instruction, return the value 3594010108bbSJeremy Morse /// that it defines. 3595010108bbSJeremy Morse static BlockValueNum GetPHIValue(LDVSSAPhi *PHI) { return PHI->PHIValNum; } 3596010108bbSJeremy Morse }; 3597010108bbSJeremy Morse 3598010108bbSJeremy Morse } // end namespace llvm 3599010108bbSJeremy Morse 3600ab49dce0SJeremy Morse Optional<ValueIDNum> InstrRefBasedLDV::resolveDbgPHIs( 3601ab49dce0SJeremy Morse MachineFunction &MF, const ValueTable *MLiveOuts, 3602ab49dce0SJeremy Morse const ValueTable *MLiveIns, MachineInstr &Here, uint64_t InstrNum) { 3603ab49dce0SJeremy Morse assert(MLiveOuts && MLiveIns && 3604ab49dce0SJeremy Morse "Tried to resolve DBG_PHI before location " 3605ab49dce0SJeremy Morse "tables allocated?"); 3606ab49dce0SJeremy Morse 3607d556eb7eSJeremy Morse // This function will be called twice per DBG_INSTR_REF, and might end up 3608d556eb7eSJeremy Morse // computing lots of SSA information: memoize it. 3609d556eb7eSJeremy Morse auto SeenDbgPHIIt = SeenDbgPHIs.find(&Here); 3610d556eb7eSJeremy Morse if (SeenDbgPHIIt != SeenDbgPHIs.end()) 3611d556eb7eSJeremy Morse return SeenDbgPHIIt->second; 3612d556eb7eSJeremy Morse 3613d556eb7eSJeremy Morse Optional<ValueIDNum> Result = 3614d556eb7eSJeremy Morse resolveDbgPHIsImpl(MF, MLiveOuts, MLiveIns, Here, InstrNum); 3615d556eb7eSJeremy Morse SeenDbgPHIs.insert({&Here, Result}); 3616d556eb7eSJeremy Morse return Result; 3617d556eb7eSJeremy Morse } 3618d556eb7eSJeremy Morse 3619d556eb7eSJeremy Morse Optional<ValueIDNum> InstrRefBasedLDV::resolveDbgPHIsImpl( 3620ab49dce0SJeremy Morse MachineFunction &MF, const ValueTable *MLiveOuts, 3621ab49dce0SJeremy Morse const ValueTable *MLiveIns, MachineInstr &Here, uint64_t InstrNum) { 3622010108bbSJeremy Morse // Pick out records of DBG_PHI instructions that have been observed. If there 3623010108bbSJeremy Morse // are none, then we cannot compute a value number. 3624010108bbSJeremy Morse auto RangePair = std::equal_range(DebugPHINumToValue.begin(), 3625010108bbSJeremy Morse DebugPHINumToValue.end(), InstrNum); 3626010108bbSJeremy Morse auto LowerIt = RangePair.first; 3627010108bbSJeremy Morse auto UpperIt = RangePair.second; 3628010108bbSJeremy Morse 3629010108bbSJeremy Morse // No DBG_PHI means there can be no location. 3630010108bbSJeremy Morse if (LowerIt == UpperIt) 3631010108bbSJeremy Morse return None; 3632010108bbSJeremy Morse 3633be5734ddSJeremy Morse // If any DBG_PHIs referred to a location we didn't understand, don't try to 3634be5734ddSJeremy Morse // compute a value. There might be scenarios where we could recover a value 3635be5734ddSJeremy Morse // for some range of DBG_INSTR_REFs, but at this point we can have high 3636be5734ddSJeremy Morse // confidence that we've seen a bug. 3637be5734ddSJeremy Morse auto DBGPHIRange = make_range(LowerIt, UpperIt); 3638be5734ddSJeremy Morse for (const DebugPHIRecord &DBG_PHI : DBGPHIRange) 3639be5734ddSJeremy Morse if (!DBG_PHI.ValueRead) 3640be5734ddSJeremy Morse return None; 3641be5734ddSJeremy Morse 3642010108bbSJeremy Morse // If there's only one DBG_PHI, then that is our value number. 3643010108bbSJeremy Morse if (std::distance(LowerIt, UpperIt) == 1) 3644be5734ddSJeremy Morse return *LowerIt->ValueRead; 3645010108bbSJeremy Morse 3646010108bbSJeremy Morse // Pick out the location (physreg, slot) where any PHIs must occur. It's 3647010108bbSJeremy Morse // technically possible for us to merge values in different registers in each 3648010108bbSJeremy Morse // block, but highly unlikely that LLVM will generate such code after register 3649010108bbSJeremy Morse // allocation. 3650be5734ddSJeremy Morse LocIdx Loc = *LowerIt->ReadLoc; 3651010108bbSJeremy Morse 3652010108bbSJeremy Morse // We have several DBG_PHIs, and a use position (the Here inst). All each 3653010108bbSJeremy Morse // DBG_PHI does is identify a value at a program position. We can treat each 3654010108bbSJeremy Morse // DBG_PHI like it's a Def of a value, and the use position is a Use of a 3655010108bbSJeremy Morse // value, just like SSA. We use the bulk-standard LLVM SSA updater class to 3656010108bbSJeremy Morse // determine which Def is used at the Use, and any PHIs that happen along 3657010108bbSJeremy Morse // the way. 3658010108bbSJeremy Morse // Adapted LLVM SSA Updater: 3659010108bbSJeremy Morse LDVSSAUpdater Updater(Loc, MLiveIns); 3660010108bbSJeremy Morse // Map of which Def or PHI is the current value in each block. 3661010108bbSJeremy Morse DenseMap<LDVSSABlock *, BlockValueNum> AvailableValues; 3662010108bbSJeremy Morse // Set of PHIs that we have created along the way. 3663010108bbSJeremy Morse SmallVector<LDVSSAPhi *, 8> CreatedPHIs; 3664010108bbSJeremy Morse 3665010108bbSJeremy Morse // Each existing DBG_PHI is a Def'd value under this model. Record these Defs 3666010108bbSJeremy Morse // for the SSAUpdater. 3667010108bbSJeremy Morse for (const auto &DBG_PHI : DBGPHIRange) { 3668010108bbSJeremy Morse LDVSSABlock *Block = Updater.getSSALDVBlock(DBG_PHI.MBB); 3669be5734ddSJeremy Morse const ValueIDNum &Num = *DBG_PHI.ValueRead; 3670010108bbSJeremy Morse AvailableValues.insert(std::make_pair(Block, Num.asU64())); 3671010108bbSJeremy Morse } 3672010108bbSJeremy Morse 3673010108bbSJeremy Morse LDVSSABlock *HereBlock = Updater.getSSALDVBlock(Here.getParent()); 3674010108bbSJeremy Morse const auto &AvailIt = AvailableValues.find(HereBlock); 3675010108bbSJeremy Morse if (AvailIt != AvailableValues.end()) { 3676010108bbSJeremy Morse // Actually, we already know what the value is -- the Use is in the same 3677010108bbSJeremy Morse // block as the Def. 3678010108bbSJeremy Morse return ValueIDNum::fromU64(AvailIt->second); 3679010108bbSJeremy Morse } 3680010108bbSJeremy Morse 3681010108bbSJeremy Morse // Otherwise, we must use the SSA Updater. It will identify the value number 3682010108bbSJeremy Morse // that we are to use, and the PHIs that must happen along the way. 3683010108bbSJeremy Morse SSAUpdaterImpl<LDVSSAUpdater> Impl(&Updater, &AvailableValues, &CreatedPHIs); 3684010108bbSJeremy Morse BlockValueNum ResultInt = Impl.GetValue(Updater.getSSALDVBlock(Here.getParent())); 3685010108bbSJeremy Morse ValueIDNum Result = ValueIDNum::fromU64(ResultInt); 3686010108bbSJeremy Morse 3687010108bbSJeremy Morse // We have the number for a PHI, or possibly live-through value, to be used 3688010108bbSJeremy Morse // at this Use. There are a number of things we have to check about it though: 3689010108bbSJeremy Morse // * Does any PHI use an 'Undef' (like an IMPLICIT_DEF) value? If so, this 3690010108bbSJeremy Morse // Use was not completely dominated by DBG_PHIs and we should abort. 3691010108bbSJeremy Morse // * Are the Defs or PHIs clobbered in a block? SSAUpdater isn't aware that 3692010108bbSJeremy Morse // we've left SSA form. Validate that the inputs to each PHI are the 3693010108bbSJeremy Morse // expected values. 3694010108bbSJeremy Morse // * Is a PHI we've created actually a merging of values, or are all the 3695010108bbSJeremy Morse // predecessor values the same, leading to a non-PHI machine value number? 3696010108bbSJeremy Morse // (SSAUpdater doesn't know that either). Remap validated PHIs into the 3697010108bbSJeremy Morse // the ValidatedValues collection below to sort this out. 3698010108bbSJeremy Morse DenseMap<LDVSSABlock *, ValueIDNum> ValidatedValues; 3699010108bbSJeremy Morse 3700010108bbSJeremy Morse // Define all the input DBG_PHI values in ValidatedValues. 3701010108bbSJeremy Morse for (const auto &DBG_PHI : DBGPHIRange) { 3702010108bbSJeremy Morse LDVSSABlock *Block = Updater.getSSALDVBlock(DBG_PHI.MBB); 3703be5734ddSJeremy Morse const ValueIDNum &Num = *DBG_PHI.ValueRead; 3704010108bbSJeremy Morse ValidatedValues.insert(std::make_pair(Block, Num)); 3705010108bbSJeremy Morse } 3706010108bbSJeremy Morse 3707010108bbSJeremy Morse // Sort PHIs to validate into RPO-order. 3708010108bbSJeremy Morse SmallVector<LDVSSAPhi *, 8> SortedPHIs; 3709010108bbSJeremy Morse for (auto &PHI : CreatedPHIs) 3710010108bbSJeremy Morse SortedPHIs.push_back(PHI); 3711010108bbSJeremy Morse 3712*aba43035SDmitri Gribenko llvm::sort(SortedPHIs, [&](LDVSSAPhi *A, LDVSSAPhi *B) { 3713010108bbSJeremy Morse return BBToOrder[&A->getParent()->BB] < BBToOrder[&B->getParent()->BB]; 3714010108bbSJeremy Morse }); 3715010108bbSJeremy Morse 3716010108bbSJeremy Morse for (auto &PHI : SortedPHIs) { 3717010108bbSJeremy Morse ValueIDNum ThisBlockValueNum = 3718010108bbSJeremy Morse MLiveIns[PHI->ParentBlock->BB.getNumber()][Loc.asU64()]; 3719010108bbSJeremy Morse 3720010108bbSJeremy Morse // Are all these things actually defined? 3721010108bbSJeremy Morse for (auto &PHIIt : PHI->IncomingValues) { 3722010108bbSJeremy Morse // Any undef input means DBG_PHIs didn't dominate the use point. 3723010108bbSJeremy Morse if (Updater.UndefMap.find(&PHIIt.first->BB) != Updater.UndefMap.end()) 3724010108bbSJeremy Morse return None; 3725010108bbSJeremy Morse 3726010108bbSJeremy Morse ValueIDNum ValueToCheck; 3727ab49dce0SJeremy Morse const ValueTable &BlockLiveOuts = MLiveOuts[PHIIt.first->BB.getNumber()]; 3728010108bbSJeremy Morse 3729010108bbSJeremy Morse auto VVal = ValidatedValues.find(PHIIt.first); 3730010108bbSJeremy Morse if (VVal == ValidatedValues.end()) { 3731010108bbSJeremy Morse // We cross a loop, and this is a backedge. LLVMs tail duplication 3732010108bbSJeremy Morse // happens so late that DBG_PHI instructions should not be able to 3733010108bbSJeremy Morse // migrate into loops -- meaning we can only be live-through this 3734010108bbSJeremy Morse // loop. 3735010108bbSJeremy Morse ValueToCheck = ThisBlockValueNum; 3736010108bbSJeremy Morse } else { 3737010108bbSJeremy Morse // Does the block have as a live-out, in the location we're examining, 3738010108bbSJeremy Morse // the value that we expect? If not, it's been moved or clobbered. 3739010108bbSJeremy Morse ValueToCheck = VVal->second; 3740010108bbSJeremy Morse } 3741010108bbSJeremy Morse 3742010108bbSJeremy Morse if (BlockLiveOuts[Loc.asU64()] != ValueToCheck) 3743010108bbSJeremy Morse return None; 3744010108bbSJeremy Morse } 3745010108bbSJeremy Morse 3746010108bbSJeremy Morse // Record this value as validated. 3747010108bbSJeremy Morse ValidatedValues.insert({PHI->ParentBlock, ThisBlockValueNum}); 3748010108bbSJeremy Morse } 3749010108bbSJeremy Morse 3750010108bbSJeremy Morse // All the PHIs are valid: we can return what the SSAUpdater said our value 3751010108bbSJeremy Morse // number was. 3752010108bbSJeremy Morse return Result; 3753010108bbSJeremy Morse } 3754