[Alignment][NFC] Convert StoreInst to MaybeAlign
[llvm-complete.git] / include / llvm / ProfileData / SampleProf.h
blob55418d9d0f9cb60a05c4907c72216a4ab0f5e7f0
1 //===- SampleProf.h - Sampling profiling format support ---------*- 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 // This file contains common definitions used in the reading and writing of
10 // sample profile data.
12 //===----------------------------------------------------------------------===//
14 #ifndef LLVM_PROFILEDATA_SAMPLEPROF_H
15 #define LLVM_PROFILEDATA_SAMPLEPROF_H
17 #include "llvm/ADT/DenseSet.h"
18 #include "llvm/ADT/SmallVector.h"
19 #include "llvm/ADT/StringMap.h"
20 #include "llvm/ADT/StringRef.h"
21 #include "llvm/ADT/StringSet.h"
22 #include "llvm/IR/Function.h"
23 #include "llvm/IR/GlobalValue.h"
24 #include "llvm/IR/Module.h"
25 #include "llvm/Support/Debug.h"
26 #include "llvm/Support/ErrorOr.h"
27 #include "llvm/Support/MathExtras.h"
28 #include "llvm/Support/raw_ostream.h"
29 #include <algorithm>
30 #include <cstdint>
31 #include <map>
32 #include <set>
33 #include <string>
34 #include <system_error>
35 #include <utility>
37 namespace llvm {
39 class raw_ostream;
41 const std::error_category &sampleprof_category();
43 enum class sampleprof_error {
44 success = 0,
45 bad_magic,
46 unsupported_version,
47 too_large,
48 truncated,
49 malformed,
50 unrecognized_format,
51 unsupported_writing_format,
52 truncated_name_table,
53 not_implemented,
54 counter_overflow,
55 ostream_seek_unsupported,
56 compress_failed,
57 uncompress_failed,
58 zlib_unavailable
61 inline std::error_code make_error_code(sampleprof_error E) {
62 return std::error_code(static_cast<int>(E), sampleprof_category());
65 inline sampleprof_error MergeResult(sampleprof_error &Accumulator,
66 sampleprof_error Result) {
67 // Prefer first error encountered as later errors may be secondary effects of
68 // the initial problem.
69 if (Accumulator == sampleprof_error::success &&
70 Result != sampleprof_error::success)
71 Accumulator = Result;
72 return Accumulator;
75 } // end namespace llvm
77 namespace std {
79 template <>
80 struct is_error_code_enum<llvm::sampleprof_error> : std::true_type {};
82 } // end namespace std
84 namespace llvm {
85 namespace sampleprof {
87 enum SampleProfileFormat {
88 SPF_None = 0,
89 SPF_Text = 0x1,
90 SPF_Compact_Binary = 0x2,
91 SPF_GCC = 0x3,
92 SPF_Ext_Binary = 0x4,
93 SPF_Binary = 0xff
96 static inline uint64_t SPMagic(SampleProfileFormat Format = SPF_Binary) {
97 return uint64_t('S') << (64 - 8) | uint64_t('P') << (64 - 16) |
98 uint64_t('R') << (64 - 24) | uint64_t('O') << (64 - 32) |
99 uint64_t('F') << (64 - 40) | uint64_t('4') << (64 - 48) |
100 uint64_t('2') << (64 - 56) | uint64_t(Format);
103 // Get the proper representation of a string in the input Format.
104 static inline StringRef getRepInFormat(StringRef Name,
105 SampleProfileFormat Format,
106 std::string &GUIDBuf) {
107 if (Name.empty())
108 return Name;
109 GUIDBuf = std::to_string(Function::getGUID(Name));
110 return (Format == SPF_Compact_Binary) ? StringRef(GUIDBuf) : Name;
113 static inline uint64_t SPVersion() { return 103; }
115 // Section Type used by SampleProfileExtBinaryBaseReader and
116 // SampleProfileExtBinaryBaseWriter. Never change the existing
117 // value of enum. Only append new ones.
118 enum SecType {
119 SecInValid = 0,
120 SecProfSummary = 1,
121 SecNameTable = 2,
122 SecProfileSymbolList = 3,
123 SecFuncOffsetTable = 4,
124 // marker for the first type of profile.
125 SecFuncProfileFirst = 32,
126 SecLBRProfile = SecFuncProfileFirst
129 static inline std::string getSecName(SecType Type) {
130 switch (Type) {
131 case SecInValid:
132 return "InvalidSection";
133 case SecProfSummary:
134 return "ProfileSummarySection";
135 case SecNameTable:
136 return "NameTableSection";
137 case SecProfileSymbolList:
138 return "ProfileSymbolListSection";
139 case SecFuncOffsetTable:
140 return "FuncOffsetTableSection";
141 case SecLBRProfile:
142 return "LBRProfileSection";
144 llvm_unreachable("A SecType has no name for output");
147 // Entry type of section header table used by SampleProfileExtBinaryBaseReader
148 // and SampleProfileExtBinaryBaseWriter.
149 struct SecHdrTableEntry {
150 SecType Type;
151 uint64_t Flags;
152 uint64_t Offset;
153 uint64_t Size;
156 enum SecFlags { SecFlagInValid = 0, SecFlagCompress = (1 << 0) };
158 static inline void addSecFlags(SecHdrTableEntry &Entry, uint64_t Flags) {
159 Entry.Flags |= Flags;
162 static inline void removeSecFlags(SecHdrTableEntry &Entry, uint64_t Flags) {
163 Entry.Flags &= ~Flags;
166 static inline bool hasSecFlag(SecHdrTableEntry &Entry, SecFlags Flag) {
167 return Entry.Flags & Flag;
170 /// Represents the relative location of an instruction.
172 /// Instruction locations are specified by the line offset from the
173 /// beginning of the function (marked by the line where the function
174 /// header is) and the discriminator value within that line.
176 /// The discriminator value is useful to distinguish instructions
177 /// that are on the same line but belong to different basic blocks
178 /// (e.g., the two post-increment instructions in "if (p) x++; else y++;").
179 struct LineLocation {
180 LineLocation(uint32_t L, uint32_t D) : LineOffset(L), Discriminator(D) {}
182 void print(raw_ostream &OS) const;
183 void dump() const;
185 bool operator<(const LineLocation &O) const {
186 return LineOffset < O.LineOffset ||
187 (LineOffset == O.LineOffset && Discriminator < O.Discriminator);
190 uint32_t LineOffset;
191 uint32_t Discriminator;
194 raw_ostream &operator<<(raw_ostream &OS, const LineLocation &Loc);
196 /// Representation of a single sample record.
198 /// A sample record is represented by a positive integer value, which
199 /// indicates how frequently was the associated line location executed.
201 /// Additionally, if the associated location contains a function call,
202 /// the record will hold a list of all the possible called targets. For
203 /// direct calls, this will be the exact function being invoked. For
204 /// indirect calls (function pointers, virtual table dispatch), this
205 /// will be a list of one or more functions.
206 class SampleRecord {
207 public:
208 using CallTarget = std::pair<StringRef, uint64_t>;
209 struct CallTargetComparator {
210 bool operator()(const CallTarget &LHS, const CallTarget &RHS) const {
211 if (LHS.second != RHS.second)
212 return LHS.second > RHS.second;
214 return LHS.first < RHS.first;
218 using SortedCallTargetSet = std::set<CallTarget, CallTargetComparator>;
219 using CallTargetMap = StringMap<uint64_t>;
220 SampleRecord() = default;
222 /// Increment the number of samples for this record by \p S.
223 /// Optionally scale sample count \p S by \p Weight.
225 /// Sample counts accumulate using saturating arithmetic, to avoid wrapping
226 /// around unsigned integers.
227 sampleprof_error addSamples(uint64_t S, uint64_t Weight = 1) {
228 bool Overflowed;
229 NumSamples = SaturatingMultiplyAdd(S, Weight, NumSamples, &Overflowed);
230 return Overflowed ? sampleprof_error::counter_overflow
231 : sampleprof_error::success;
234 /// Add called function \p F with samples \p S.
235 /// Optionally scale sample count \p S by \p Weight.
237 /// Sample counts accumulate using saturating arithmetic, to avoid wrapping
238 /// around unsigned integers.
239 sampleprof_error addCalledTarget(StringRef F, uint64_t S,
240 uint64_t Weight = 1) {
241 uint64_t &TargetSamples = CallTargets[F];
242 bool Overflowed;
243 TargetSamples =
244 SaturatingMultiplyAdd(S, Weight, TargetSamples, &Overflowed);
245 return Overflowed ? sampleprof_error::counter_overflow
246 : sampleprof_error::success;
249 /// Return true if this sample record contains function calls.
250 bool hasCalls() const { return !CallTargets.empty(); }
252 uint64_t getSamples() const { return NumSamples; }
253 const CallTargetMap &getCallTargets() const { return CallTargets; }
254 const SortedCallTargetSet getSortedCallTargets() const {
255 return SortCallTargets(CallTargets);
258 /// Sort call targets in descending order of call frequency.
259 static const SortedCallTargetSet SortCallTargets(const CallTargetMap &Targets) {
260 SortedCallTargetSet SortedTargets;
261 for (const auto &I : Targets) {
262 SortedTargets.emplace(I.first(), I.second);
264 return SortedTargets;
267 /// Merge the samples in \p Other into this record.
268 /// Optionally scale sample counts by \p Weight.
269 sampleprof_error merge(const SampleRecord &Other, uint64_t Weight = 1) {
270 sampleprof_error Result = addSamples(Other.getSamples(), Weight);
271 for (const auto &I : Other.getCallTargets()) {
272 MergeResult(Result, addCalledTarget(I.first(), I.second, Weight));
274 return Result;
277 void print(raw_ostream &OS, unsigned Indent) const;
278 void dump() const;
280 private:
281 uint64_t NumSamples = 0;
282 CallTargetMap CallTargets;
285 raw_ostream &operator<<(raw_ostream &OS, const SampleRecord &Sample);
287 class FunctionSamples;
289 using BodySampleMap = std::map<LineLocation, SampleRecord>;
290 // NOTE: Using a StringMap here makes parsed profiles consume around 17% more
291 // memory, which is *very* significant for large profiles.
292 using FunctionSamplesMap = std::map<std::string, FunctionSamples, std::less<>>;
293 using CallsiteSampleMap = std::map<LineLocation, FunctionSamplesMap>;
295 /// Representation of the samples collected for a function.
297 /// This data structure contains all the collected samples for the body
298 /// of a function. Each sample corresponds to a LineLocation instance
299 /// within the body of the function.
300 class FunctionSamples {
301 public:
302 FunctionSamples() = default;
304 void print(raw_ostream &OS = dbgs(), unsigned Indent = 0) const;
305 void dump() const;
307 sampleprof_error addTotalSamples(uint64_t Num, uint64_t Weight = 1) {
308 bool Overflowed;
309 TotalSamples =
310 SaturatingMultiplyAdd(Num, Weight, TotalSamples, &Overflowed);
311 return Overflowed ? sampleprof_error::counter_overflow
312 : sampleprof_error::success;
315 sampleprof_error addHeadSamples(uint64_t Num, uint64_t Weight = 1) {
316 bool Overflowed;
317 TotalHeadSamples =
318 SaturatingMultiplyAdd(Num, Weight, TotalHeadSamples, &Overflowed);
319 return Overflowed ? sampleprof_error::counter_overflow
320 : sampleprof_error::success;
323 sampleprof_error addBodySamples(uint32_t LineOffset, uint32_t Discriminator,
324 uint64_t Num, uint64_t Weight = 1) {
325 return BodySamples[LineLocation(LineOffset, Discriminator)].addSamples(
326 Num, Weight);
329 sampleprof_error addCalledTargetSamples(uint32_t LineOffset,
330 uint32_t Discriminator,
331 StringRef FName, uint64_t Num,
332 uint64_t Weight = 1) {
333 return BodySamples[LineLocation(LineOffset, Discriminator)].addCalledTarget(
334 FName, Num, Weight);
337 /// Return the number of samples collected at the given location.
338 /// Each location is specified by \p LineOffset and \p Discriminator.
339 /// If the location is not found in profile, return error.
340 ErrorOr<uint64_t> findSamplesAt(uint32_t LineOffset,
341 uint32_t Discriminator) const {
342 const auto &ret = BodySamples.find(LineLocation(LineOffset, Discriminator));
343 if (ret == BodySamples.end())
344 return std::error_code();
345 else
346 return ret->second.getSamples();
349 /// Returns the call target map collected at a given location.
350 /// Each location is specified by \p LineOffset and \p Discriminator.
351 /// If the location is not found in profile, return error.
352 ErrorOr<SampleRecord::CallTargetMap>
353 findCallTargetMapAt(uint32_t LineOffset, uint32_t Discriminator) const {
354 const auto &ret = BodySamples.find(LineLocation(LineOffset, Discriminator));
355 if (ret == BodySamples.end())
356 return std::error_code();
357 return ret->second.getCallTargets();
360 /// Return the function samples at the given callsite location.
361 FunctionSamplesMap &functionSamplesAt(const LineLocation &Loc) {
362 return CallsiteSamples[Loc];
365 /// Returns the FunctionSamplesMap at the given \p Loc.
366 const FunctionSamplesMap *
367 findFunctionSamplesMapAt(const LineLocation &Loc) const {
368 auto iter = CallsiteSamples.find(Loc);
369 if (iter == CallsiteSamples.end())
370 return nullptr;
371 return &iter->second;
374 /// Returns a pointer to FunctionSamples at the given callsite location \p Loc
375 /// with callee \p CalleeName. If no callsite can be found, relax the
376 /// restriction to return the FunctionSamples at callsite location \p Loc
377 /// with the maximum total sample count.
378 const FunctionSamples *findFunctionSamplesAt(const LineLocation &Loc,
379 StringRef CalleeName) const {
380 std::string CalleeGUID;
381 CalleeName = getRepInFormat(CalleeName, Format, CalleeGUID);
383 auto iter = CallsiteSamples.find(Loc);
384 if (iter == CallsiteSamples.end())
385 return nullptr;
386 auto FS = iter->second.find(CalleeName);
387 if (FS != iter->second.end())
388 return &FS->second;
389 // If we cannot find exact match of the callee name, return the FS with
390 // the max total count.
391 uint64_t MaxTotalSamples = 0;
392 const FunctionSamples *R = nullptr;
393 for (const auto &NameFS : iter->second)
394 if (NameFS.second.getTotalSamples() >= MaxTotalSamples) {
395 MaxTotalSamples = NameFS.second.getTotalSamples();
396 R = &NameFS.second;
398 return R;
401 bool empty() const { return TotalSamples == 0; }
403 /// Return the total number of samples collected inside the function.
404 uint64_t getTotalSamples() const { return TotalSamples; }
406 /// Return the total number of branch samples that have the function as the
407 /// branch target. This should be equivalent to the sample of the first
408 /// instruction of the symbol. But as we directly get this info for raw
409 /// profile without referring to potentially inaccurate debug info, this
410 /// gives more accurate profile data and is preferred for standalone symbols.
411 uint64_t getHeadSamples() const { return TotalHeadSamples; }
413 /// Return the sample count of the first instruction of the function.
414 /// The function can be either a standalone symbol or an inlined function.
415 uint64_t getEntrySamples() const {
416 // Use either BodySamples or CallsiteSamples which ever has the smaller
417 // lineno.
418 if (!BodySamples.empty() &&
419 (CallsiteSamples.empty() ||
420 BodySamples.begin()->first < CallsiteSamples.begin()->first))
421 return BodySamples.begin()->second.getSamples();
422 if (!CallsiteSamples.empty()) {
423 uint64_t T = 0;
424 // An indirect callsite may be promoted to several inlined direct calls.
425 // We need to get the sum of them.
426 for (const auto &N_FS : CallsiteSamples.begin()->second)
427 T += N_FS.second.getEntrySamples();
428 return T;
430 return 0;
433 /// Return all the samples collected in the body of the function.
434 const BodySampleMap &getBodySamples() const { return BodySamples; }
436 /// Return all the callsite samples collected in the body of the function.
437 const CallsiteSampleMap &getCallsiteSamples() const {
438 return CallsiteSamples;
441 /// Merge the samples in \p Other into this one.
442 /// Optionally scale samples by \p Weight.
443 sampleprof_error merge(const FunctionSamples &Other, uint64_t Weight = 1) {
444 sampleprof_error Result = sampleprof_error::success;
445 Name = Other.getName();
446 MergeResult(Result, addTotalSamples(Other.getTotalSamples(), Weight));
447 MergeResult(Result, addHeadSamples(Other.getHeadSamples(), Weight));
448 for (const auto &I : Other.getBodySamples()) {
449 const LineLocation &Loc = I.first;
450 const SampleRecord &Rec = I.second;
451 MergeResult(Result, BodySamples[Loc].merge(Rec, Weight));
453 for (const auto &I : Other.getCallsiteSamples()) {
454 const LineLocation &Loc = I.first;
455 FunctionSamplesMap &FSMap = functionSamplesAt(Loc);
456 for (const auto &Rec : I.second)
457 MergeResult(Result, FSMap[Rec.first].merge(Rec.second, Weight));
459 return Result;
462 /// Recursively traverses all children, if the total sample count of the
463 /// corresponding function is no less than \p Threshold, add its corresponding
464 /// GUID to \p S. Also traverse the BodySamples to add hot CallTarget's GUID
465 /// to \p S.
466 void findInlinedFunctions(DenseSet<GlobalValue::GUID> &S, const Module *M,
467 uint64_t Threshold) const {
468 if (TotalSamples <= Threshold)
469 return;
470 S.insert(getGUID(Name));
471 // Import hot CallTargets, which may not be available in IR because full
472 // profile annotation cannot be done until backend compilation in ThinLTO.
473 for (const auto &BS : BodySamples)
474 for (const auto &TS : BS.second.getCallTargets())
475 if (TS.getValue() > Threshold) {
476 const Function *Callee =
477 M->getFunction(getNameInModule(TS.getKey(), M));
478 if (!Callee || !Callee->getSubprogram())
479 S.insert(getGUID(TS.getKey()));
481 for (const auto &CS : CallsiteSamples)
482 for (const auto &NameFS : CS.second)
483 NameFS.second.findInlinedFunctions(S, M, Threshold);
486 /// Set the name of the function.
487 void setName(StringRef FunctionName) { Name = FunctionName; }
489 /// Return the function name.
490 StringRef getName() const { return Name; }
492 /// Return the original function name if it exists in Module \p M.
493 StringRef getFuncNameInModule(const Module *M) const {
494 return getNameInModule(Name, M);
497 /// Return the canonical name for a function, taking into account
498 /// suffix elision policy attributes.
499 static StringRef getCanonicalFnName(const Function &F) {
500 static const char *knownSuffixes[] = { ".llvm.", ".part." };
501 auto AttrName = "sample-profile-suffix-elision-policy";
502 auto Attr = F.getFnAttribute(AttrName).getValueAsString();
503 if (Attr == "" || Attr == "all") {
504 return F.getName().split('.').first;
505 } else if (Attr == "selected") {
506 StringRef Cand(F.getName());
507 for (const auto &Suf : knownSuffixes) {
508 StringRef Suffix(Suf);
509 auto It = Cand.rfind(Suffix);
510 if (It == StringRef::npos)
511 return Cand;
512 auto Dit = Cand.rfind('.');
513 if (Dit == It + Suffix.size() - 1)
514 Cand = Cand.substr(0, It);
516 return Cand;
517 } else if (Attr == "none") {
518 return F.getName();
519 } else {
520 assert(false && "internal error: unknown suffix elision policy");
522 return F.getName();
525 /// Translate \p Name into its original name in Module.
526 /// When the Format is not SPF_Compact_Binary, \p Name needs no translation.
527 /// When the Format is SPF_Compact_Binary, \p Name in current FunctionSamples
528 /// is actually GUID of the original function name. getNameInModule will
529 /// translate \p Name in current FunctionSamples into its original name.
530 /// If the original name doesn't exist in \p M, return empty StringRef.
531 StringRef getNameInModule(StringRef Name, const Module *M) const {
532 if (Format != SPF_Compact_Binary)
533 return Name;
535 assert(GUIDToFuncNameMap && "GUIDToFuncNameMap needs to be popluated first");
536 auto iter = GUIDToFuncNameMap->find(std::stoull(Name.data()));
537 if (iter == GUIDToFuncNameMap->end())
538 return StringRef();
539 return iter->second;
542 /// Returns the line offset to the start line of the subprogram.
543 /// We assume that a single function will not exceed 65535 LOC.
544 static unsigned getOffset(const DILocation *DIL);
546 /// Get the FunctionSamples of the inline instance where DIL originates
547 /// from.
549 /// The FunctionSamples of the instruction (Machine or IR) associated to
550 /// \p DIL is the inlined instance in which that instruction is coming from.
551 /// We traverse the inline stack of that instruction, and match it with the
552 /// tree nodes in the profile.
554 /// \returns the FunctionSamples pointer to the inlined instance.
555 const FunctionSamples *findFunctionSamples(const DILocation *DIL) const;
557 static SampleProfileFormat Format;
559 /// GUIDToFuncNameMap saves the mapping from GUID to the symbol name, for
560 /// all the function symbols defined or declared in current module.
561 DenseMap<uint64_t, StringRef> *GUIDToFuncNameMap = nullptr;
563 // Assume the input \p Name is a name coming from FunctionSamples itself.
564 // If the format is SPF_Compact_Binary, the name is already a GUID and we
565 // don't want to return the GUID of GUID.
566 static uint64_t getGUID(StringRef Name) {
567 return (Format == SPF_Compact_Binary) ? std::stoull(Name.data())
568 : Function::getGUID(Name);
571 private:
572 /// Mangled name of the function.
573 StringRef Name;
575 /// Total number of samples collected inside this function.
577 /// Samples are cumulative, they include all the samples collected
578 /// inside this function and all its inlined callees.
579 uint64_t TotalSamples = 0;
581 /// Total number of samples collected at the head of the function.
582 /// This is an approximation of the number of calls made to this function
583 /// at runtime.
584 uint64_t TotalHeadSamples = 0;
586 /// Map instruction locations to collected samples.
588 /// Each entry in this map contains the number of samples
589 /// collected at the corresponding line offset. All line locations
590 /// are an offset from the start of the function.
591 BodySampleMap BodySamples;
593 /// Map call sites to collected samples for the called function.
595 /// Each entry in this map corresponds to all the samples
596 /// collected for the inlined function call at the given
597 /// location. For example, given:
599 /// void foo() {
600 /// 1 bar();
601 /// ...
602 /// 8 baz();
603 /// }
605 /// If the bar() and baz() calls were inlined inside foo(), this
606 /// map will contain two entries. One for all the samples collected
607 /// in the call to bar() at line offset 1, the other for all the samples
608 /// collected in the call to baz() at line offset 8.
609 CallsiteSampleMap CallsiteSamples;
612 raw_ostream &operator<<(raw_ostream &OS, const FunctionSamples &FS);
614 /// Sort a LocationT->SampleT map by LocationT.
616 /// It produces a sorted list of <LocationT, SampleT> records by ascending
617 /// order of LocationT.
618 template <class LocationT, class SampleT> class SampleSorter {
619 public:
620 using SamplesWithLoc = std::pair<const LocationT, SampleT>;
621 using SamplesWithLocList = SmallVector<const SamplesWithLoc *, 20>;
623 SampleSorter(const std::map<LocationT, SampleT> &Samples) {
624 for (const auto &I : Samples)
625 V.push_back(&I);
626 llvm::stable_sort(V, [](const SamplesWithLoc *A, const SamplesWithLoc *B) {
627 return A->first < B->first;
631 const SamplesWithLocList &get() const { return V; }
633 private:
634 SamplesWithLocList V;
637 /// ProfileSymbolList records the list of function symbols shown up
638 /// in the binary used to generate the profile. It is useful to
639 /// to discriminate a function being so cold as not to shown up
640 /// in the profile and a function newly added.
641 class ProfileSymbolList {
642 public:
643 /// copy indicates whether we need to copy the underlying memory
644 /// for the input Name.
645 void add(StringRef Name, bool copy = false) {
646 if (!copy) {
647 Syms.insert(Name);
648 return;
650 Syms.insert(Name.copy(Allocator));
653 bool contains(StringRef Name) { return Syms.count(Name); }
655 void merge(const ProfileSymbolList &List) {
656 for (auto Sym : List.Syms)
657 add(Sym, true);
660 unsigned size() { return Syms.size(); }
662 void setToCompress(bool TC) { ToCompress = TC; }
663 bool toCompress() { return ToCompress; }
665 std::error_code read(const uint8_t *Data, uint64_t ListSize);
666 std::error_code write(raw_ostream &OS);
667 void dump(raw_ostream &OS = dbgs()) const;
669 private:
670 // Determine whether or not to compress the symbol list when
671 // writing it into profile. The variable is unused when the symbol
672 // list is read from an existing profile.
673 bool ToCompress = false;
674 DenseSet<StringRef> Syms;
675 BumpPtrAllocator Allocator;
678 } // end namespace sampleprof
679 } // end namespace llvm
681 #endif // LLVM_PROFILEDATA_SAMPLEPROF_H