xref: /freebsd/contrib/llvm-project/llvm/lib/CodeGen/MachineOutliner.cpp (revision 38a52bd3b5cac3da6f7f6eef3dd050e6aa08ebb3)
1 //===---- MachineOutliner.cpp - Outline instructions -----------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 ///
9 /// \file
10 /// Replaces repeated sequences of instructions with function calls.
11 ///
12 /// This works by placing every instruction from every basic block in a
13 /// suffix tree, and repeatedly querying that tree for repeated sequences of
14 /// instructions. If a sequence of instructions appears often, then it ought
15 /// to be beneficial to pull out into a function.
16 ///
17 /// The MachineOutliner communicates with a given target using hooks defined in
18 /// TargetInstrInfo.h. The target supplies the outliner with information on how
19 /// a specific sequence of instructions should be outlined. This information
20 /// is used to deduce the number of instructions necessary to
21 ///
22 /// * Create an outlined function
23 /// * Call that outlined function
24 ///
25 /// Targets must implement
26 ///   * getOutliningCandidateInfo
27 ///   * buildOutlinedFrame
28 ///   * insertOutlinedCall
29 ///   * isFunctionSafeToOutlineFrom
30 ///
31 /// in order to make use of the MachineOutliner.
32 ///
33 /// This was originally presented at the 2016 LLVM Developers' Meeting in the
34 /// talk "Reducing Code Size Using Outlining". For a high-level overview of
35 /// how this pass works, the talk is available on YouTube at
36 ///
37 /// https://www.youtube.com/watch?v=yorld-WSOeU
38 ///
39 /// The slides for the talk are available at
40 ///
41 /// http://www.llvm.org/devmtg/2016-11/Slides/Paquette-Outliner.pdf
42 ///
43 /// The talk provides an overview of how the outliner finds candidates and
44 /// ultimately outlines them. It describes how the main data structure for this
45 /// pass, the suffix tree, is queried and purged for candidates. It also gives
46 /// a simplified suffix tree construction algorithm for suffix trees based off
47 /// of the algorithm actually used here, Ukkonen's algorithm.
48 ///
49 /// For the original RFC for this pass, please see
50 ///
51 /// http://lists.llvm.org/pipermail/llvm-dev/2016-August/104170.html
52 ///
53 /// For more information on the suffix tree data structure, please see
54 /// https://www.cs.helsinki.fi/u/ukkonen/SuffixT1withFigs.pdf
55 ///
56 //===----------------------------------------------------------------------===//
57 #include "llvm/CodeGen/MachineOutliner.h"
58 #include "llvm/ADT/DenseMap.h"
59 #include "llvm/ADT/SmallSet.h"
60 #include "llvm/ADT/Statistic.h"
61 #include "llvm/ADT/Twine.h"
62 #include "llvm/CodeGen/MachineModuleInfo.h"
63 #include "llvm/CodeGen/MachineOptimizationRemarkEmitter.h"
64 #include "llvm/CodeGen/Passes.h"
65 #include "llvm/CodeGen/TargetInstrInfo.h"
66 #include "llvm/CodeGen/TargetSubtargetInfo.h"
67 #include "llvm/IR/DIBuilder.h"
68 #include "llvm/IR/IRBuilder.h"
69 #include "llvm/IR/Mangler.h"
70 #include "llvm/InitializePasses.h"
71 #include "llvm/Support/CommandLine.h"
72 #include "llvm/Support/Debug.h"
73 #include "llvm/Support/SuffixTree.h"
74 #include "llvm/Support/raw_ostream.h"
75 #include <functional>
76 #include <tuple>
77 #include <vector>
78 
79 #define DEBUG_TYPE "machine-outliner"
80 
81 using namespace llvm;
82 using namespace ore;
83 using namespace outliner;
84 
85 STATISTIC(NumOutlined, "Number of candidates outlined");
86 STATISTIC(FunctionsCreated, "Number of functions created");
87 
88 // Set to true if the user wants the outliner to run on linkonceodr linkage
89 // functions. This is false by default because the linker can dedupe linkonceodr
90 // functions. Since the outliner is confined to a single module (modulo LTO),
91 // this is off by default. It should, however, be the default behaviour in
92 // LTO.
93 static cl::opt<bool> EnableLinkOnceODROutlining(
94     "enable-linkonceodr-outlining", cl::Hidden,
95     cl::desc("Enable the machine outliner on linkonceodr functions"),
96     cl::init(false));
97 
98 /// Number of times to re-run the outliner. This is not the total number of runs
99 /// as the outliner will run at least one time. The default value is set to 0,
100 /// meaning the outliner will run one time and rerun zero times after that.
101 static cl::opt<unsigned> OutlinerReruns(
102     "machine-outliner-reruns", cl::init(0), cl::Hidden,
103     cl::desc(
104         "Number of times to rerun the outliner after the initial outline"));
105 
106 namespace {
107 
108 /// Maps \p MachineInstrs to unsigned integers and stores the mappings.
109 struct InstructionMapper {
110 
111   /// The next available integer to assign to a \p MachineInstr that
112   /// cannot be outlined.
113   ///
114   /// Set to -3 for compatability with \p DenseMapInfo<unsigned>.
115   unsigned IllegalInstrNumber = -3;
116 
117   /// The next available integer to assign to a \p MachineInstr that can
118   /// be outlined.
119   unsigned LegalInstrNumber = 0;
120 
121   /// Correspondence from \p MachineInstrs to unsigned integers.
122   DenseMap<MachineInstr *, unsigned, MachineInstrExpressionTrait>
123       InstructionIntegerMap;
124 
125   /// Correspondence between \p MachineBasicBlocks and target-defined flags.
126   DenseMap<MachineBasicBlock *, unsigned> MBBFlagsMap;
127 
128   /// The vector of unsigned integers that the module is mapped to.
129   std::vector<unsigned> UnsignedVec;
130 
131   /// Stores the location of the instruction associated with the integer
132   /// at index i in \p UnsignedVec for each index i.
133   std::vector<MachineBasicBlock::iterator> InstrList;
134 
135   // Set if we added an illegal number in the previous step.
136   // Since each illegal number is unique, we only need one of them between
137   // each range of legal numbers. This lets us make sure we don't add more
138   // than one illegal number per range.
139   bool AddedIllegalLastTime = false;
140 
141   /// Maps \p *It to a legal integer.
142   ///
143   /// Updates \p CanOutlineWithPrevInstr, \p HaveLegalRange, \p InstrListForMBB,
144   /// \p UnsignedVecForMBB, \p InstructionIntegerMap, and \p LegalInstrNumber.
145   ///
146   /// \returns The integer that \p *It was mapped to.
147   unsigned mapToLegalUnsigned(
148       MachineBasicBlock::iterator &It, bool &CanOutlineWithPrevInstr,
149       bool &HaveLegalRange, unsigned &NumLegalInBlock,
150       std::vector<unsigned> &UnsignedVecForMBB,
151       std::vector<MachineBasicBlock::iterator> &InstrListForMBB) {
152     // We added something legal, so we should unset the AddedLegalLastTime
153     // flag.
154     AddedIllegalLastTime = false;
155 
156     // If we have at least two adjacent legal instructions (which may have
157     // invisible instructions in between), remember that.
158     if (CanOutlineWithPrevInstr)
159       HaveLegalRange = true;
160     CanOutlineWithPrevInstr = true;
161 
162     // Keep track of the number of legal instructions we insert.
163     NumLegalInBlock++;
164 
165     // Get the integer for this instruction or give it the current
166     // LegalInstrNumber.
167     InstrListForMBB.push_back(It);
168     MachineInstr &MI = *It;
169     bool WasInserted;
170     DenseMap<MachineInstr *, unsigned, MachineInstrExpressionTrait>::iterator
171         ResultIt;
172     std::tie(ResultIt, WasInserted) =
173         InstructionIntegerMap.insert(std::make_pair(&MI, LegalInstrNumber));
174     unsigned MINumber = ResultIt->second;
175 
176     // There was an insertion.
177     if (WasInserted)
178       LegalInstrNumber++;
179 
180     UnsignedVecForMBB.push_back(MINumber);
181 
182     // Make sure we don't overflow or use any integers reserved by the DenseMap.
183     if (LegalInstrNumber >= IllegalInstrNumber)
184       report_fatal_error("Instruction mapping overflow!");
185 
186     assert(LegalInstrNumber != DenseMapInfo<unsigned>::getEmptyKey() &&
187            "Tried to assign DenseMap tombstone or empty key to instruction.");
188     assert(LegalInstrNumber != DenseMapInfo<unsigned>::getTombstoneKey() &&
189            "Tried to assign DenseMap tombstone or empty key to instruction.");
190 
191     return MINumber;
192   }
193 
194   /// Maps \p *It to an illegal integer.
195   ///
196   /// Updates \p InstrListForMBB, \p UnsignedVecForMBB, and \p
197   /// IllegalInstrNumber.
198   ///
199   /// \returns The integer that \p *It was mapped to.
200   unsigned mapToIllegalUnsigned(
201       MachineBasicBlock::iterator &It, bool &CanOutlineWithPrevInstr,
202       std::vector<unsigned> &UnsignedVecForMBB,
203       std::vector<MachineBasicBlock::iterator> &InstrListForMBB) {
204     // Can't outline an illegal instruction. Set the flag.
205     CanOutlineWithPrevInstr = false;
206 
207     // Only add one illegal number per range of legal numbers.
208     if (AddedIllegalLastTime)
209       return IllegalInstrNumber;
210 
211     // Remember that we added an illegal number last time.
212     AddedIllegalLastTime = true;
213     unsigned MINumber = IllegalInstrNumber;
214 
215     InstrListForMBB.push_back(It);
216     UnsignedVecForMBB.push_back(IllegalInstrNumber);
217     IllegalInstrNumber--;
218 
219     assert(LegalInstrNumber < IllegalInstrNumber &&
220            "Instruction mapping overflow!");
221 
222     assert(IllegalInstrNumber != DenseMapInfo<unsigned>::getEmptyKey() &&
223            "IllegalInstrNumber cannot be DenseMap tombstone or empty key!");
224 
225     assert(IllegalInstrNumber != DenseMapInfo<unsigned>::getTombstoneKey() &&
226            "IllegalInstrNumber cannot be DenseMap tombstone or empty key!");
227 
228     return MINumber;
229   }
230 
231   /// Transforms a \p MachineBasicBlock into a \p vector of \p unsigneds
232   /// and appends it to \p UnsignedVec and \p InstrList.
233   ///
234   /// Two instructions are assigned the same integer if they are identical.
235   /// If an instruction is deemed unsafe to outline, then it will be assigned an
236   /// unique integer. The resulting mapping is placed into a suffix tree and
237   /// queried for candidates.
238   ///
239   /// \param MBB The \p MachineBasicBlock to be translated into integers.
240   /// \param TII \p TargetInstrInfo for the function.
241   void convertToUnsignedVec(MachineBasicBlock &MBB,
242                             const TargetInstrInfo &TII) {
243     unsigned Flags = 0;
244 
245     // Don't even map in this case.
246     if (!TII.isMBBSafeToOutlineFrom(MBB, Flags))
247       return;
248 
249     // Store info for the MBB for later outlining.
250     MBBFlagsMap[&MBB] = Flags;
251 
252     MachineBasicBlock::iterator It = MBB.begin();
253 
254     // The number of instructions in this block that will be considered for
255     // outlining.
256     unsigned NumLegalInBlock = 0;
257 
258     // True if we have at least two legal instructions which aren't separated
259     // by an illegal instruction.
260     bool HaveLegalRange = false;
261 
262     // True if we can perform outlining given the last mapped (non-invisible)
263     // instruction. This lets us know if we have a legal range.
264     bool CanOutlineWithPrevInstr = false;
265 
266     // FIXME: Should this all just be handled in the target, rather than using
267     // repeated calls to getOutliningType?
268     std::vector<unsigned> UnsignedVecForMBB;
269     std::vector<MachineBasicBlock::iterator> InstrListForMBB;
270 
271     for (MachineBasicBlock::iterator Et = MBB.end(); It != Et; ++It) {
272       // Keep track of where this instruction is in the module.
273       switch (TII.getOutliningType(It, Flags)) {
274       case InstrType::Illegal:
275         mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB,
276                              InstrListForMBB);
277         break;
278 
279       case InstrType::Legal:
280         mapToLegalUnsigned(It, CanOutlineWithPrevInstr, HaveLegalRange,
281                            NumLegalInBlock, UnsignedVecForMBB, InstrListForMBB);
282         break;
283 
284       case InstrType::LegalTerminator:
285         mapToLegalUnsigned(It, CanOutlineWithPrevInstr, HaveLegalRange,
286                            NumLegalInBlock, UnsignedVecForMBB, InstrListForMBB);
287         // The instruction also acts as a terminator, so we have to record that
288         // in the string.
289         mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB,
290                              InstrListForMBB);
291         break;
292 
293       case InstrType::Invisible:
294         // Normally this is set by mapTo(Blah)Unsigned, but we just want to
295         // skip this instruction. So, unset the flag here.
296         AddedIllegalLastTime = false;
297         break;
298       }
299     }
300 
301     // Are there enough legal instructions in the block for outlining to be
302     // possible?
303     if (HaveLegalRange) {
304       // After we're done every insertion, uniquely terminate this part of the
305       // "string". This makes sure we won't match across basic block or function
306       // boundaries since the "end" is encoded uniquely and thus appears in no
307       // repeated substring.
308       mapToIllegalUnsigned(It, CanOutlineWithPrevInstr, UnsignedVecForMBB,
309                            InstrListForMBB);
310       llvm::append_range(InstrList, InstrListForMBB);
311       llvm::append_range(UnsignedVec, UnsignedVecForMBB);
312     }
313   }
314 
315   InstructionMapper() {
316     // Make sure that the implementation of DenseMapInfo<unsigned> hasn't
317     // changed.
318     assert(DenseMapInfo<unsigned>::getEmptyKey() == (unsigned)-1 &&
319            "DenseMapInfo<unsigned>'s empty key isn't -1!");
320     assert(DenseMapInfo<unsigned>::getTombstoneKey() == (unsigned)-2 &&
321            "DenseMapInfo<unsigned>'s tombstone key isn't -2!");
322   }
323 };
324 
325 /// An interprocedural pass which finds repeated sequences of
326 /// instructions and replaces them with calls to functions.
327 ///
328 /// Each instruction is mapped to an unsigned integer and placed in a string.
329 /// The resulting mapping is then placed in a \p SuffixTree. The \p SuffixTree
330 /// is then repeatedly queried for repeated sequences of instructions. Each
331 /// non-overlapping repeated sequence is then placed in its own
332 /// \p MachineFunction and each instance is then replaced with a call to that
333 /// function.
334 struct MachineOutliner : public ModulePass {
335 
336   static char ID;
337 
338   /// Set to true if the outliner should consider functions with
339   /// linkonceodr linkage.
340   bool OutlineFromLinkOnceODRs = false;
341 
342   /// The current repeat number of machine outlining.
343   unsigned OutlineRepeatedNum = 0;
344 
345   /// Set to true if the outliner should run on all functions in the module
346   /// considered safe for outlining.
347   /// Set to true by default for compatibility with llc's -run-pass option.
348   /// Set when the pass is constructed in TargetPassConfig.
349   bool RunOnAllFunctions = true;
350 
351   StringRef getPassName() const override { return "Machine Outliner"; }
352 
353   void getAnalysisUsage(AnalysisUsage &AU) const override {
354     AU.addRequired<MachineModuleInfoWrapperPass>();
355     AU.addPreserved<MachineModuleInfoWrapperPass>();
356     AU.setPreservesAll();
357     ModulePass::getAnalysisUsage(AU);
358   }
359 
360   MachineOutliner() : ModulePass(ID) {
361     initializeMachineOutlinerPass(*PassRegistry::getPassRegistry());
362   }
363 
364   /// Remark output explaining that not outlining a set of candidates would be
365   /// better than outlining that set.
366   void emitNotOutliningCheaperRemark(
367       unsigned StringLen, std::vector<Candidate> &CandidatesForRepeatedSeq,
368       OutlinedFunction &OF);
369 
370   /// Remark output explaining that a function was outlined.
371   void emitOutlinedFunctionRemark(OutlinedFunction &OF);
372 
373   /// Find all repeated substrings that satisfy the outlining cost model by
374   /// constructing a suffix tree.
375   ///
376   /// If a substring appears at least twice, then it must be represented by
377   /// an internal node which appears in at least two suffixes. Each suffix
378   /// is represented by a leaf node. To do this, we visit each internal node
379   /// in the tree, using the leaf children of each internal node. If an
380   /// internal node represents a beneficial substring, then we use each of
381   /// its leaf children to find the locations of its substring.
382   ///
383   /// \param Mapper Contains outlining mapping information.
384   /// \param[out] FunctionList Filled with a list of \p OutlinedFunctions
385   /// each type of candidate.
386   void findCandidates(InstructionMapper &Mapper,
387                       std::vector<OutlinedFunction> &FunctionList);
388 
389   /// Replace the sequences of instructions represented by \p OutlinedFunctions
390   /// with calls to functions.
391   ///
392   /// \param M The module we are outlining from.
393   /// \param FunctionList A list of functions to be inserted into the module.
394   /// \param Mapper Contains the instruction mappings for the module.
395   bool outline(Module &M, std::vector<OutlinedFunction> &FunctionList,
396                InstructionMapper &Mapper, unsigned &OutlinedFunctionNum);
397 
398   /// Creates a function for \p OF and inserts it into the module.
399   MachineFunction *createOutlinedFunction(Module &M, OutlinedFunction &OF,
400                                           InstructionMapper &Mapper,
401                                           unsigned Name);
402 
403   /// Calls 'doOutline()' 1 + OutlinerReruns times.
404   bool runOnModule(Module &M) override;
405 
406   /// Construct a suffix tree on the instructions in \p M and outline repeated
407   /// strings from that tree.
408   bool doOutline(Module &M, unsigned &OutlinedFunctionNum);
409 
410   /// Return a DISubprogram for OF if one exists, and null otherwise. Helper
411   /// function for remark emission.
412   DISubprogram *getSubprogramOrNull(const OutlinedFunction &OF) {
413     for (const Candidate &C : OF.Candidates)
414       if (MachineFunction *MF = C.getMF())
415         if (DISubprogram *SP = MF->getFunction().getSubprogram())
416           return SP;
417     return nullptr;
418   }
419 
420   /// Populate and \p InstructionMapper with instruction-to-integer mappings.
421   /// These are used to construct a suffix tree.
422   void populateMapper(InstructionMapper &Mapper, Module &M,
423                       MachineModuleInfo &MMI);
424 
425   /// Initialize information necessary to output a size remark.
426   /// FIXME: This should be handled by the pass manager, not the outliner.
427   /// FIXME: This is nearly identical to the initSizeRemarkInfo in the legacy
428   /// pass manager.
429   void initSizeRemarkInfo(const Module &M, const MachineModuleInfo &MMI,
430                           StringMap<unsigned> &FunctionToInstrCount);
431 
432   /// Emit the remark.
433   // FIXME: This should be handled by the pass manager, not the outliner.
434   void
435   emitInstrCountChangedRemark(const Module &M, const MachineModuleInfo &MMI,
436                               const StringMap<unsigned> &FunctionToInstrCount);
437 };
438 } // Anonymous namespace.
439 
440 char MachineOutliner::ID = 0;
441 
442 namespace llvm {
443 ModulePass *createMachineOutlinerPass(bool RunOnAllFunctions) {
444   MachineOutliner *OL = new MachineOutliner();
445   OL->RunOnAllFunctions = RunOnAllFunctions;
446   return OL;
447 }
448 
449 } // namespace llvm
450 
451 INITIALIZE_PASS(MachineOutliner, DEBUG_TYPE, "Machine Function Outliner", false,
452                 false)
453 
454 void MachineOutliner::emitNotOutliningCheaperRemark(
455     unsigned StringLen, std::vector<Candidate> &CandidatesForRepeatedSeq,
456     OutlinedFunction &OF) {
457   // FIXME: Right now, we arbitrarily choose some Candidate from the
458   // OutlinedFunction. This isn't necessarily fixed, nor does it have to be.
459   // We should probably sort these by function name or something to make sure
460   // the remarks are stable.
461   Candidate &C = CandidatesForRepeatedSeq.front();
462   MachineOptimizationRemarkEmitter MORE(*(C.getMF()), nullptr);
463   MORE.emit([&]() {
464     MachineOptimizationRemarkMissed R(DEBUG_TYPE, "NotOutliningCheaper",
465                                       C.front()->getDebugLoc(), C.getMBB());
466     R << "Did not outline " << NV("Length", StringLen) << " instructions"
467       << " from " << NV("NumOccurrences", CandidatesForRepeatedSeq.size())
468       << " locations."
469       << " Bytes from outlining all occurrences ("
470       << NV("OutliningCost", OF.getOutliningCost()) << ")"
471       << " >= Unoutlined instruction bytes ("
472       << NV("NotOutliningCost", OF.getNotOutlinedCost()) << ")"
473       << " (Also found at: ";
474 
475     // Tell the user the other places the candidate was found.
476     for (unsigned i = 1, e = CandidatesForRepeatedSeq.size(); i < e; i++) {
477       R << NV((Twine("OtherStartLoc") + Twine(i)).str(),
478               CandidatesForRepeatedSeq[i].front()->getDebugLoc());
479       if (i != e - 1)
480         R << ", ";
481     }
482 
483     R << ")";
484     return R;
485   });
486 }
487 
488 void MachineOutliner::emitOutlinedFunctionRemark(OutlinedFunction &OF) {
489   MachineBasicBlock *MBB = &*OF.MF->begin();
490   MachineOptimizationRemarkEmitter MORE(*OF.MF, nullptr);
491   MachineOptimizationRemark R(DEBUG_TYPE, "OutlinedFunction",
492                               MBB->findDebugLoc(MBB->begin()), MBB);
493   R << "Saved " << NV("OutliningBenefit", OF.getBenefit()) << " bytes by "
494     << "outlining " << NV("Length", OF.getNumInstrs()) << " instructions "
495     << "from " << NV("NumOccurrences", OF.getOccurrenceCount())
496     << " locations. "
497     << "(Found at: ";
498 
499   // Tell the user the other places the candidate was found.
500   for (size_t i = 0, e = OF.Candidates.size(); i < e; i++) {
501 
502     R << NV((Twine("StartLoc") + Twine(i)).str(),
503             OF.Candidates[i].front()->getDebugLoc());
504     if (i != e - 1)
505       R << ", ";
506   }
507 
508   R << ")";
509 
510   MORE.emit(R);
511 }
512 
513 void MachineOutliner::findCandidates(
514     InstructionMapper &Mapper, std::vector<OutlinedFunction> &FunctionList) {
515   FunctionList.clear();
516   SuffixTree ST(Mapper.UnsignedVec);
517 
518   // First, find all of the repeated substrings in the tree of minimum length
519   // 2.
520   std::vector<Candidate> CandidatesForRepeatedSeq;
521   for (const SuffixTree::RepeatedSubstring &RS : ST) {
522     CandidatesForRepeatedSeq.clear();
523     unsigned StringLen = RS.Length;
524     for (const unsigned &StartIdx : RS.StartIndices) {
525       unsigned EndIdx = StartIdx + StringLen - 1;
526       // Trick: Discard some candidates that would be incompatible with the
527       // ones we've already found for this sequence. This will save us some
528       // work in candidate selection.
529       //
530       // If two candidates overlap, then we can't outline them both. This
531       // happens when we have candidates that look like, say
532       //
533       // AA (where each "A" is an instruction).
534       //
535       // We might have some portion of the module that looks like this:
536       // AAAAAA (6 A's)
537       //
538       // In this case, there are 5 different copies of "AA" in this range, but
539       // at most 3 can be outlined. If only outlining 3 of these is going to
540       // be unbeneficial, then we ought to not bother.
541       //
542       // Note that two things DON'T overlap when they look like this:
543       // start1...end1 .... start2...end2
544       // That is, one must either
545       // * End before the other starts
546       // * Start after the other ends
547       if (llvm::all_of(CandidatesForRepeatedSeq, [&StartIdx,
548                                                   &EndIdx](const Candidate &C) {
549             return (EndIdx < C.getStartIdx() || StartIdx > C.getEndIdx());
550           })) {
551         // It doesn't overlap with anything, so we can outline it.
552         // Each sequence is over [StartIt, EndIt].
553         // Save the candidate and its location.
554 
555         MachineBasicBlock::iterator StartIt = Mapper.InstrList[StartIdx];
556         MachineBasicBlock::iterator EndIt = Mapper.InstrList[EndIdx];
557         MachineBasicBlock *MBB = StartIt->getParent();
558 
559         CandidatesForRepeatedSeq.emplace_back(StartIdx, StringLen, StartIt,
560                                               EndIt, MBB, FunctionList.size(),
561                                               Mapper.MBBFlagsMap[MBB]);
562       }
563     }
564 
565     // We've found something we might want to outline.
566     // Create an OutlinedFunction to store it and check if it'd be beneficial
567     // to outline.
568     if (CandidatesForRepeatedSeq.size() < 2)
569       continue;
570 
571     // Arbitrarily choose a TII from the first candidate.
572     // FIXME: Should getOutliningCandidateInfo move to TargetMachine?
573     const TargetInstrInfo *TII =
574         CandidatesForRepeatedSeq[0].getMF()->getSubtarget().getInstrInfo();
575 
576     OutlinedFunction OF =
577         TII->getOutliningCandidateInfo(CandidatesForRepeatedSeq);
578 
579     // If we deleted too many candidates, then there's nothing worth outlining.
580     // FIXME: This should take target-specified instruction sizes into account.
581     if (OF.Candidates.size() < 2)
582       continue;
583 
584     // Is it better to outline this candidate than not?
585     if (OF.getBenefit() < 1) {
586       emitNotOutliningCheaperRemark(StringLen, CandidatesForRepeatedSeq, OF);
587       continue;
588     }
589 
590     FunctionList.push_back(OF);
591   }
592 }
593 
594 MachineFunction *MachineOutliner::createOutlinedFunction(
595     Module &M, OutlinedFunction &OF, InstructionMapper &Mapper, unsigned Name) {
596 
597   // Create the function name. This should be unique.
598   // FIXME: We should have a better naming scheme. This should be stable,
599   // regardless of changes to the outliner's cost model/traversal order.
600   std::string FunctionName = "OUTLINED_FUNCTION_";
601   if (OutlineRepeatedNum > 0)
602     FunctionName += std::to_string(OutlineRepeatedNum + 1) + "_";
603   FunctionName += std::to_string(Name);
604 
605   // Create the function using an IR-level function.
606   LLVMContext &C = M.getContext();
607   Function *F = Function::Create(FunctionType::get(Type::getVoidTy(C), false),
608                                  Function::ExternalLinkage, FunctionName, M);
609 
610   // NOTE: If this is linkonceodr, then we can take advantage of linker deduping
611   // which gives us better results when we outline from linkonceodr functions.
612   F->setLinkage(GlobalValue::InternalLinkage);
613   F->setUnnamedAddr(GlobalValue::UnnamedAddr::Global);
614 
615   // Set optsize/minsize, so we don't insert padding between outlined
616   // functions.
617   F->addFnAttr(Attribute::OptimizeForSize);
618   F->addFnAttr(Attribute::MinSize);
619 
620   Candidate &FirstCand = OF.Candidates.front();
621   const TargetInstrInfo &TII =
622       *FirstCand.getMF()->getSubtarget().getInstrInfo();
623 
624   TII.mergeOutliningCandidateAttributes(*F, OF.Candidates);
625 
626   BasicBlock *EntryBB = BasicBlock::Create(C, "entry", F);
627   IRBuilder<> Builder(EntryBB);
628   Builder.CreateRetVoid();
629 
630   MachineModuleInfo &MMI = getAnalysis<MachineModuleInfoWrapperPass>().getMMI();
631   MachineFunction &MF = MMI.getOrCreateMachineFunction(*F);
632   MachineBasicBlock &MBB = *MF.CreateMachineBasicBlock();
633 
634   // Insert the new function into the module.
635   MF.insert(MF.begin(), &MBB);
636 
637   MachineFunction *OriginalMF = FirstCand.front()->getMF();
638   const std::vector<MCCFIInstruction> &Instrs =
639       OriginalMF->getFrameInstructions();
640   for (auto I = FirstCand.front(), E = std::next(FirstCand.back()); I != E;
641        ++I) {
642     if (I->isDebugInstr())
643       continue;
644     MachineInstr *NewMI = MF.CloneMachineInstr(&*I);
645     if (I->isCFIInstruction()) {
646       unsigned CFIIndex = NewMI->getOperand(0).getCFIIndex();
647       MCCFIInstruction CFI = Instrs[CFIIndex];
648       (void)MF.addFrameInst(CFI);
649     }
650     NewMI->dropMemRefs(MF);
651 
652     // Don't keep debug information for outlined instructions.
653     NewMI->setDebugLoc(DebugLoc());
654     MBB.insert(MBB.end(), NewMI);
655   }
656 
657   // Set normal properties for a late MachineFunction.
658   MF.getProperties().reset(MachineFunctionProperties::Property::IsSSA);
659   MF.getProperties().set(MachineFunctionProperties::Property::NoPHIs);
660   MF.getProperties().set(MachineFunctionProperties::Property::NoVRegs);
661   MF.getProperties().set(MachineFunctionProperties::Property::TracksLiveness);
662   MF.getRegInfo().freezeReservedRegs(MF);
663 
664   // Compute live-in set for outlined fn
665   const MachineRegisterInfo &MRI = MF.getRegInfo();
666   const TargetRegisterInfo &TRI = *MRI.getTargetRegisterInfo();
667   LivePhysRegs LiveIns(TRI);
668   for (auto &Cand : OF.Candidates) {
669     // Figure out live-ins at the first instruction.
670     MachineBasicBlock &OutlineBB = *Cand.front()->getParent();
671     LivePhysRegs CandLiveIns(TRI);
672     CandLiveIns.addLiveOuts(OutlineBB);
673     for (const MachineInstr &MI :
674          reverse(make_range(Cand.front(), OutlineBB.end())))
675       CandLiveIns.stepBackward(MI);
676 
677     // The live-in set for the outlined function is the union of the live-ins
678     // from all the outlining points.
679     for (MCPhysReg Reg : CandLiveIns)
680       LiveIns.addReg(Reg);
681   }
682   addLiveIns(MBB, LiveIns);
683 
684   TII.buildOutlinedFrame(MBB, MF, OF);
685 
686   // If there's a DISubprogram associated with this outlined function, then
687   // emit debug info for the outlined function.
688   if (DISubprogram *SP = getSubprogramOrNull(OF)) {
689     // We have a DISubprogram. Get its DICompileUnit.
690     DICompileUnit *CU = SP->getUnit();
691     DIBuilder DB(M, true, CU);
692     DIFile *Unit = SP->getFile();
693     Mangler Mg;
694     // Get the mangled name of the function for the linkage name.
695     std::string Dummy;
696     llvm::raw_string_ostream MangledNameStream(Dummy);
697     Mg.getNameWithPrefix(MangledNameStream, F, false);
698 
699     DISubprogram *OutlinedSP = DB.createFunction(
700         Unit /* Context */, F->getName(), StringRef(MangledNameStream.str()),
701         Unit /* File */,
702         0 /* Line 0 is reserved for compiler-generated code. */,
703         DB.createSubroutineType(DB.getOrCreateTypeArray(None)), /* void type */
704         0, /* Line 0 is reserved for compiler-generated code. */
705         DINode::DIFlags::FlagArtificial /* Compiler-generated code. */,
706         /* Outlined code is optimized code by definition. */
707         DISubprogram::SPFlagDefinition | DISubprogram::SPFlagOptimized);
708 
709     // Don't add any new variables to the subprogram.
710     DB.finalizeSubprogram(OutlinedSP);
711 
712     // Attach subprogram to the function.
713     F->setSubprogram(OutlinedSP);
714     // We're done with the DIBuilder.
715     DB.finalize();
716   }
717 
718   return &MF;
719 }
720 
721 bool MachineOutliner::outline(Module &M,
722                               std::vector<OutlinedFunction> &FunctionList,
723                               InstructionMapper &Mapper,
724                               unsigned &OutlinedFunctionNum) {
725 
726   bool OutlinedSomething = false;
727 
728   // Sort by benefit. The most beneficial functions should be outlined first.
729   llvm::stable_sort(FunctionList, [](const OutlinedFunction &LHS,
730                                      const OutlinedFunction &RHS) {
731     return LHS.getBenefit() > RHS.getBenefit();
732   });
733 
734   // Walk over each function, outlining them as we go along. Functions are
735   // outlined greedily, based off the sort above.
736   for (OutlinedFunction &OF : FunctionList) {
737     // If we outlined something that overlapped with a candidate in a previous
738     // step, then we can't outline from it.
739     erase_if(OF.Candidates, [&Mapper](Candidate &C) {
740       return std::any_of(
741           Mapper.UnsignedVec.begin() + C.getStartIdx(),
742           Mapper.UnsignedVec.begin() + C.getEndIdx() + 1,
743           [](unsigned I) { return (I == static_cast<unsigned>(-1)); });
744     });
745 
746     // If we made it unbeneficial to outline this function, skip it.
747     if (OF.getBenefit() < 1)
748       continue;
749 
750     // It's beneficial. Create the function and outline its sequence's
751     // occurrences.
752     OF.MF = createOutlinedFunction(M, OF, Mapper, OutlinedFunctionNum);
753     emitOutlinedFunctionRemark(OF);
754     FunctionsCreated++;
755     OutlinedFunctionNum++; // Created a function, move to the next name.
756     MachineFunction *MF = OF.MF;
757     const TargetSubtargetInfo &STI = MF->getSubtarget();
758     const TargetInstrInfo &TII = *STI.getInstrInfo();
759 
760     // Replace occurrences of the sequence with calls to the new function.
761     for (Candidate &C : OF.Candidates) {
762       MachineBasicBlock &MBB = *C.getMBB();
763       MachineBasicBlock::iterator StartIt = C.front();
764       MachineBasicBlock::iterator EndIt = C.back();
765 
766       // Insert the call.
767       auto CallInst = TII.insertOutlinedCall(M, MBB, StartIt, *MF, C);
768 
769       // If the caller tracks liveness, then we need to make sure that
770       // anything we outline doesn't break liveness assumptions. The outlined
771       // functions themselves currently don't track liveness, but we should
772       // make sure that the ranges we yank things out of aren't wrong.
773       if (MBB.getParent()->getProperties().hasProperty(
774               MachineFunctionProperties::Property::TracksLiveness)) {
775         // The following code is to add implicit def operands to the call
776         // instruction. It also updates call site information for moved
777         // code.
778         SmallSet<Register, 2> UseRegs, DefRegs;
779         // Copy over the defs in the outlined range.
780         // First inst in outlined range <-- Anything that's defined in this
781         // ...                           .. range has to be added as an
782         // implicit Last inst in outlined range  <-- def to the call
783         // instruction. Also remove call site information for outlined block
784         // of code. The exposed uses need to be copied in the outlined range.
785         for (MachineBasicBlock::reverse_iterator
786                  Iter = EndIt.getReverse(),
787                  Last = std::next(CallInst.getReverse());
788              Iter != Last; Iter++) {
789           MachineInstr *MI = &*Iter;
790           SmallSet<Register, 2> InstrUseRegs;
791           for (MachineOperand &MOP : MI->operands()) {
792             // Skip over anything that isn't a register.
793             if (!MOP.isReg())
794               continue;
795 
796             if (MOP.isDef()) {
797               // Introduce DefRegs set to skip the redundant register.
798               DefRegs.insert(MOP.getReg());
799               if (UseRegs.count(MOP.getReg()) &&
800                   !InstrUseRegs.count(MOP.getReg()))
801                 // Since the regiester is modeled as defined,
802                 // it is not necessary to be put in use register set.
803                 UseRegs.erase(MOP.getReg());
804             } else if (!MOP.isUndef()) {
805               // Any register which is not undefined should
806               // be put in the use register set.
807               UseRegs.insert(MOP.getReg());
808               InstrUseRegs.insert(MOP.getReg());
809             }
810           }
811           if (MI->isCandidateForCallSiteEntry())
812             MI->getMF()->eraseCallSiteInfo(MI);
813         }
814 
815         for (const Register &I : DefRegs)
816           // If it's a def, add it to the call instruction.
817           CallInst->addOperand(
818               MachineOperand::CreateReg(I, true, /* isDef = true */
819                                         true /* isImp = true */));
820 
821         for (const Register &I : UseRegs)
822           // If it's a exposed use, add it to the call instruction.
823           CallInst->addOperand(
824               MachineOperand::CreateReg(I, false, /* isDef = false */
825                                         true /* isImp = true */));
826       }
827 
828       // Erase from the point after where the call was inserted up to, and
829       // including, the final instruction in the sequence.
830       // Erase needs one past the end, so we need std::next there too.
831       MBB.erase(std::next(StartIt), std::next(EndIt));
832 
833       // Keep track of what we removed by marking them all as -1.
834       std::for_each(Mapper.UnsignedVec.begin() + C.getStartIdx(),
835                     Mapper.UnsignedVec.begin() + C.getEndIdx() + 1,
836                     [](unsigned &I) { I = static_cast<unsigned>(-1); });
837       OutlinedSomething = true;
838 
839       // Statistics.
840       NumOutlined++;
841     }
842   }
843 
844   LLVM_DEBUG(dbgs() << "OutlinedSomething = " << OutlinedSomething << "\n";);
845   return OutlinedSomething;
846 }
847 
848 void MachineOutliner::populateMapper(InstructionMapper &Mapper, Module &M,
849                                      MachineModuleInfo &MMI) {
850   // Build instruction mappings for each function in the module. Start by
851   // iterating over each Function in M.
852   for (Function &F : M) {
853 
854     // If there's nothing in F, then there's no reason to try and outline from
855     // it.
856     if (F.empty())
857       continue;
858 
859     // There's something in F. Check if it has a MachineFunction associated with
860     // it.
861     MachineFunction *MF = MMI.getMachineFunction(F);
862 
863     // If it doesn't, then there's nothing to outline from. Move to the next
864     // Function.
865     if (!MF)
866       continue;
867 
868     const TargetInstrInfo *TII = MF->getSubtarget().getInstrInfo();
869 
870     if (!RunOnAllFunctions && !TII->shouldOutlineFromFunctionByDefault(*MF))
871       continue;
872 
873     // We have a MachineFunction. Ask the target if it's suitable for outlining.
874     // If it isn't, then move on to the next Function in the module.
875     if (!TII->isFunctionSafeToOutlineFrom(*MF, OutlineFromLinkOnceODRs))
876       continue;
877 
878     // We have a function suitable for outlining. Iterate over every
879     // MachineBasicBlock in MF and try to map its instructions to a list of
880     // unsigned integers.
881     for (MachineBasicBlock &MBB : *MF) {
882       // If there isn't anything in MBB, then there's no point in outlining from
883       // it.
884       // If there are fewer than 2 instructions in the MBB, then it can't ever
885       // contain something worth outlining.
886       // FIXME: This should be based off of the maximum size in B of an outlined
887       // call versus the size in B of the MBB.
888       if (MBB.empty() || MBB.size() < 2)
889         continue;
890 
891       // Check if MBB could be the target of an indirect branch. If it is, then
892       // we don't want to outline from it.
893       if (MBB.hasAddressTaken())
894         continue;
895 
896       // MBB is suitable for outlining. Map it to a list of unsigneds.
897       Mapper.convertToUnsignedVec(MBB, *TII);
898     }
899   }
900 }
901 
902 void MachineOutliner::initSizeRemarkInfo(
903     const Module &M, const MachineModuleInfo &MMI,
904     StringMap<unsigned> &FunctionToInstrCount) {
905   // Collect instruction counts for every function. We'll use this to emit
906   // per-function size remarks later.
907   for (const Function &F : M) {
908     MachineFunction *MF = MMI.getMachineFunction(F);
909 
910     // We only care about MI counts here. If there's no MachineFunction at this
911     // point, then there won't be after the outliner runs, so let's move on.
912     if (!MF)
913       continue;
914     FunctionToInstrCount[F.getName().str()] = MF->getInstructionCount();
915   }
916 }
917 
918 void MachineOutliner::emitInstrCountChangedRemark(
919     const Module &M, const MachineModuleInfo &MMI,
920     const StringMap<unsigned> &FunctionToInstrCount) {
921   // Iterate over each function in the module and emit remarks.
922   // Note that we won't miss anything by doing this, because the outliner never
923   // deletes functions.
924   for (const Function &F : M) {
925     MachineFunction *MF = MMI.getMachineFunction(F);
926 
927     // The outliner never deletes functions. If we don't have a MF here, then we
928     // didn't have one prior to outlining either.
929     if (!MF)
930       continue;
931 
932     std::string Fname = std::string(F.getName());
933     unsigned FnCountAfter = MF->getInstructionCount();
934     unsigned FnCountBefore = 0;
935 
936     // Check if the function was recorded before.
937     auto It = FunctionToInstrCount.find(Fname);
938 
939     // Did we have a previously-recorded size? If yes, then set FnCountBefore
940     // to that.
941     if (It != FunctionToInstrCount.end())
942       FnCountBefore = It->second;
943 
944     // Compute the delta and emit a remark if there was a change.
945     int64_t FnDelta = static_cast<int64_t>(FnCountAfter) -
946                       static_cast<int64_t>(FnCountBefore);
947     if (FnDelta == 0)
948       continue;
949 
950     MachineOptimizationRemarkEmitter MORE(*MF, nullptr);
951     MORE.emit([&]() {
952       MachineOptimizationRemarkAnalysis R("size-info", "FunctionMISizeChange",
953                                           DiagnosticLocation(), &MF->front());
954       R << DiagnosticInfoOptimizationBase::Argument("Pass", "Machine Outliner")
955         << ": Function: "
956         << DiagnosticInfoOptimizationBase::Argument("Function", F.getName())
957         << ": MI instruction count changed from "
958         << DiagnosticInfoOptimizationBase::Argument("MIInstrsBefore",
959                                                     FnCountBefore)
960         << " to "
961         << DiagnosticInfoOptimizationBase::Argument("MIInstrsAfter",
962                                                     FnCountAfter)
963         << "; Delta: "
964         << DiagnosticInfoOptimizationBase::Argument("Delta", FnDelta);
965       return R;
966     });
967   }
968 }
969 
970 bool MachineOutliner::runOnModule(Module &M) {
971   // Check if there's anything in the module. If it's empty, then there's
972   // nothing to outline.
973   if (M.empty())
974     return false;
975 
976   // Number to append to the current outlined function.
977   unsigned OutlinedFunctionNum = 0;
978 
979   OutlineRepeatedNum = 0;
980   if (!doOutline(M, OutlinedFunctionNum))
981     return false;
982 
983   for (unsigned I = 0; I < OutlinerReruns; ++I) {
984     OutlinedFunctionNum = 0;
985     OutlineRepeatedNum++;
986     if (!doOutline(M, OutlinedFunctionNum)) {
987       LLVM_DEBUG({
988         dbgs() << "Did not outline on iteration " << I + 2 << " out of "
989                << OutlinerReruns + 1 << "\n";
990       });
991       break;
992     }
993   }
994 
995   return true;
996 }
997 
998 bool MachineOutliner::doOutline(Module &M, unsigned &OutlinedFunctionNum) {
999   MachineModuleInfo &MMI = getAnalysis<MachineModuleInfoWrapperPass>().getMMI();
1000 
1001   // If the user passed -enable-machine-outliner=always or
1002   // -enable-machine-outliner, the pass will run on all functions in the module.
1003   // Otherwise, if the target supports default outlining, it will run on all
1004   // functions deemed by the target to be worth outlining from by default. Tell
1005   // the user how the outliner is running.
1006   LLVM_DEBUG({
1007     dbgs() << "Machine Outliner: Running on ";
1008     if (RunOnAllFunctions)
1009       dbgs() << "all functions";
1010     else
1011       dbgs() << "target-default functions";
1012     dbgs() << "\n";
1013   });
1014 
1015   // If the user specifies that they want to outline from linkonceodrs, set
1016   // it here.
1017   OutlineFromLinkOnceODRs = EnableLinkOnceODROutlining;
1018   InstructionMapper Mapper;
1019 
1020   // Prepare instruction mappings for the suffix tree.
1021   populateMapper(Mapper, M, MMI);
1022   std::vector<OutlinedFunction> FunctionList;
1023 
1024   // Find all of the outlining candidates.
1025   findCandidates(Mapper, FunctionList);
1026 
1027   // If we've requested size remarks, then collect the MI counts of every
1028   // function before outlining, and the MI counts after outlining.
1029   // FIXME: This shouldn't be in the outliner at all; it should ultimately be
1030   // the pass manager's responsibility.
1031   // This could pretty easily be placed in outline instead, but because we
1032   // really ultimately *don't* want this here, it's done like this for now
1033   // instead.
1034 
1035   // Check if we want size remarks.
1036   bool ShouldEmitSizeRemarks = M.shouldEmitInstrCountChangedRemark();
1037   StringMap<unsigned> FunctionToInstrCount;
1038   if (ShouldEmitSizeRemarks)
1039     initSizeRemarkInfo(M, MMI, FunctionToInstrCount);
1040 
1041   // Outline each of the candidates and return true if something was outlined.
1042   bool OutlinedSomething =
1043       outline(M, FunctionList, Mapper, OutlinedFunctionNum);
1044 
1045   // If we outlined something, we definitely changed the MI count of the
1046   // module. If we've asked for size remarks, then output them.
1047   // FIXME: This should be in the pass manager.
1048   if (ShouldEmitSizeRemarks && OutlinedSomething)
1049     emitInstrCountChangedRemark(M, MMI, FunctionToInstrCount);
1050 
1051   LLVM_DEBUG({
1052     if (!OutlinedSomething)
1053       dbgs() << "Stopped outlining at iteration " << OutlineRepeatedNum
1054              << " because no changes were found.\n";
1055   });
1056 
1057   return OutlinedSomething;
1058 }
1059