14#ifndef LLVM_PROFILEDATA_SAMPLEPROF_H
15#define LLVM_PROFILEDATA_SAMPLEPROF_H
38#include <system_error>
39#include <unordered_map>
87struct is_error_code_enum<
llvm::sampleprof_error> : std::true_type {};
134LLVM_DEPRECATED(
"Use DefaultVersion or LatestVersion instead",
"DefaultVersion")
154 switch (
static_cast<int>(
Type)) {
156 return "InvalidSection";
158 return "ProfileSummarySection";
160 return "NameTableSection";
162 return "ProfileSymbolListSection";
164 return "FuncOffsetTableSection";
166 return "FunctionMetadata";
168 return "CSNameTableSection";
170 return "LBRProfileSection";
172 return "UnknownSection";
245template <
class SecFlagType>
248 if (std::is_same<SecCommonFlags, SecFlagType>())
252 bool IsFlagLegal =
false;
255 IsFlagLegal = std::is_same<SecNameTableFlags, SecFlagType>();
258 IsFlagLegal = std::is_same<SecProfSummaryFlags, SecFlagType>();
261 IsFlagLegal = std::is_same<SecFuncMetadataFlags, SecFlagType>();
265 IsFlagLegal = std::is_same<SecFuncOffsetFlags, SecFlagType>();
272template <
class SecFlagType>
275 auto FVal =
static_cast<uint64_t>(Flag);
276 bool IsCommon = std::is_same<SecCommonFlags, SecFlagType>();
277 Entry.Flags |= IsCommon ? FVal : (FVal << 32);
280template <
class SecFlagType>
283 auto FVal =
static_cast<uint64_t>(Flag);
284 bool IsCommon = std::is_same<SecCommonFlags, SecFlagType>();
285 Entry.Flags &= ~(IsCommon ? FVal : (FVal << 32));
288template <
class SecFlagType>
291 auto FVal =
static_cast<uint64_t>(Flag);
292 bool IsCommon = std::is_same<SecCommonFlags, SecFlagType>();
293 return Entry.Flags & (IsCommon ? FVal : (FVal << 32));
316 std::tie(O.LineOffset, O.Discriminator);
350namespace sampleprof {
381 if (
LHS.second !=
RHS.second)
382 return LHS.second >
RHS.second;
384 return LHS.first <
RHS.first;
420 uint64_t &TargetSamples = CallTargets[
F];
432 auto I = CallTargets.find(
F);
433 if (
I != CallTargets.end()) {
435 CallTargets.erase(
I);
441 bool hasCalls()
const {
return !CallTargets.empty(); }
451 for (
const auto &
I : CallTargets)
460 return SortedTargets;
465 float DistributionFactor) {
467 for (
const auto &[
Target, Frequency] : Targets) {
468 AdjustedTargets[
Target] = Frequency * DistributionFactor;
470 return AdjustedTargets;
486 return NumSamples ==
Other.NumSamples && CallTargets ==
Other.CallTargets;
531 return !(*
this == That);
534 std::string
toString(
bool OutputLineLocation)
const {
535 std::ostringstream OContextStr;
536 OContextStr <<
Func.str();
537 if (OutputLineLocation) {
538 OContextStr <<
":" <<
Location.LineOffset;
540 OContextStr <<
"." <<
Location.Discriminator;
542 return OContextStr.str();
549 if (
Func.isStringRef())
550 NameHash = std::hash<std::string>{}(
Func.str());
552 NameHash =
Func.getHashCode();
554 return NameHash + (LocId << 5) + LocId;
587 assert(!Name.empty() &&
"Name is empty");
596 assert(!Context.empty() &&
"Context is empty");
604 std::list<SampleContextFrameVector> &CSNameTable,
615 CSNameTable.emplace_back();
627 ContextStr = ContextStr.
substr(1, ContextStr.
size() - 2);
631 while (!ContextRemain.
empty()) {
632 auto ContextSplit = ContextRemain.
split(
" @ ");
633 ChildContext = ContextSplit.first;
634 ContextRemain = ContextSplit.second;
637 Context.emplace_back(Callee, CallSiteLoc);
646 auto EntrySplit = ContextStr.
split(
':');
650 if (!EntrySplit.second.empty()) {
654 auto LocSplit = EntrySplit.second.split(
'.');
655 LocSplit.first.getAsInteger(10, LineOffset);
659 if (!LocSplit.second.empty())
678 bool IncludeLeafLineLocation =
false) {
679 std::ostringstream OContextStr;
681 if (OContextStr.str().size()) {
682 OContextStr <<
" @ ";
684 OContextStr << Context[
I].toString(
I != Context.size() - 1 ||
685 IncludeLeafLineLocation);
687 return OContextStr.str();
704 Func = NewFunctionID;
712 FullContext = Context;
713 Func = Context.back().Func;
718 return State == That.State && Func == That.Func &&
719 FullContext == That.FullContext;
725 if (State != That.State)
726 return State < That.State;
729 return Func < That.Func;
733 while (
I < std::min(FullContext.size(), That.FullContext.
size())) {
734 auto &Context1 = FullContext[
I];
735 auto &Context2 = That.FullContext[
I];
736 auto V = Context1.Func.compare(Context2.Func);
739 if (Context1.Location != Context2.Location)
740 return Context1.Location < Context2.Location;
744 return FullContext.size() < That.FullContext.
size();
749 return Context.getHashCode();
754 auto ThisContext = FullContext;
755 auto ThatContext = That.FullContext;
756 if (ThatContext.size() < ThisContext.size())
758 ThatContext = ThatContext.
take_front(ThisContext.size());
760 if (ThisContext.back().Func != ThatContext.back().Func)
779 return Context.getHashCode();
783 return OS << Context.toString();
818 if (TotalSamples < Num)
838 return BodySamples[
LineLocation(LineOffset, Discriminator)].addSamples(
846 return BodySamples[
LineLocation(LineOffset, Discriminator)].addCalledTarget(
853 return BodySamples[Location].merge(
SampleRecord, Weight);
862 auto I = BodySamples.find(
LineLocation(LineOffset, Discriminator));
863 if (
I != BodySamples.end()) {
864 Count =
I->second.removeCalledTarget(Func);
866 if (!
I->second.getSamples())
867 BodySamples.erase(
I);
878 for (
auto &
I : BodySamples) {
879 uint64_t TargetSamples =
I.second.getCallTargetSum();
884 if (TargetSamples >
I.second.getSamples())
885 I.second.addSamples(TargetSamples -
I.second.getSamples());
892 for (
const auto &
I : BodySamples)
895 for (
auto &
I : CallsiteSamples) {
896 for (
auto &CS :
I.second) {
897 CS.second.updateTotalSamples();
906 for (
auto &
I : CallsiteSamples) {
907 for (
auto &CS :
I.second) {
908 CS.second.setContextSynthetic();
916 Context.setAttribute(Attr);
917 for (
auto &
I : CallsiteSamples) {
918 for (
auto &CS :
I.second) {
919 CS.second.setContextAttribute(Attr);
928 if (!IRToProfileLocationMap)
930 const auto &ProfileLoc = IRToProfileLocationMap->find(IRLoc);
931 if (ProfileLoc != IRToProfileLocationMap->end())
932 return ProfileLoc->second;
941 const auto &Ret = BodySamples.find(
943 if (Ret == BodySamples.end())
944 return std::error_code();
945 return Ret->second.getSamples();
953 const auto &Ret = BodySamples.find(
955 if (Ret == BodySamples.end())
956 return std::error_code();
957 return Ret->second.getCallTargets();
965 if (Ret == BodySamples.end())
966 return std::error_code();
967 return Ret->second.getCallTargets();
979 if (Iter == CallsiteSamples.end())
981 return &Iter->second;
987 if (Iter == VirtualCallsiteTypeCounts.end())
989 return &Iter->second;
1002 *FuncNameToProfNameMap =
nullptr)
const;
1004 bool empty()
const {
return TotalSamples == 0; }
1031 if (!BodySamples.empty() &&
1032 (CallsiteSamples.empty() ||
1033 BodySamples.begin()->first < CallsiteSamples.begin()->first))
1034 Count = BodySamples.begin()->second.getSamples();
1035 else if (!CallsiteSamples.empty()) {
1038 for (
const auto &FuncSamples : CallsiteSamples.begin()->second)
1039 Count += FuncSamples.second.getHeadSamplesEstimate();
1050 return CallsiteSamples;
1056 return VirtualCallsiteTypeCounts;
1074 bool Overflowed =
false;
1076 TypeCounts[
Type], &Overflowed);
1085 template <
typename T>
1089 static_assert((std::is_same_v<typename T::key_type, StringRef> ||
1090 std::is_same_v<typename T::key_type, FunctionId>) &&
1091 std::is_same_v<typename T::mapped_type, uint64_t>,
1092 "T must be a map with StringRef or FunctionId as key and "
1093 "uint64_t as value");
1095 bool Overflowed =
false;
1099 bool RowOverflow =
false;
1101 Count, Weight, TypeCounts[TypeId], &RowOverflow);
1102 Overflowed |= RowOverflow;
1115 MaxCount = std::max(MaxCount, L.second.getSamples());
1119 for (
const FunctionSamplesMap::value_type &
F :
C.second)
1120 MaxCount = std::max(MaxCount,
F.second.getMaxCountInside());
1130 if (Context.getFunction().empty())
1131 Context =
Other.getContext();
1132 if (FunctionHash == 0) {
1134 FunctionHash =
Other.getFunctionHash();
1135 }
else if (FunctionHash !=
Other.getFunctionHash()) {
1150 for (
const auto &
I :
Other.getBodySamples()) {
1155 for (
const auto &
I :
Other.getCallsiteSamples()) {
1158 for (
const auto &Rec :
I.second)
1160 FSMap[Rec.first].merge(Rec.second, Weight));
1162 for (
const auto &[
Loc, OtherTypeMap] :
Other.getCallsiteTypeCounts())
1177 if (TotalSamples <= Threshold)
1179 auto IsDeclaration = [](
const Function *
F) {
1180 return !
F ||
F->isDeclaration();
1188 for (
const auto &BS : BodySamples)
1189 for (
const auto &TS : BS.second.getCallTargets())
1190 if (TS.second > Threshold) {
1192 if (IsDeclaration(Callee))
1193 S.
insert(TS.first.getHashCode());
1195 for (
const auto &CS : CallsiteSamples)
1196 for (
const auto &NameFS : CS.second)
1197 NameFS.second.findInlinedFunctions(S, SymbolMap, Threshold);
1202 Context.setFunction(NewFunctionID);
1216 assert(IRToProfileLocationMap ==
nullptr &&
"this should be set only once");
1217 IRToProfileLocationMap = LTLM;
1223 const char *AttrName =
"sample-profile-suffix-elision-policy";
1224 auto Attr =
F.getFnAttribute(AttrName).getValueAsString();
1258 if (Attr ==
"" || Attr ==
"all")
1259 return FnName.
split(
'.').first;
1260 if (Attr ==
"selected") {
1262 for (
const auto Suffix : Suffixes) {
1267 auto It = Cand.
rfind(Suffix);
1270 auto Dit = Cand.
rfind(
'.');
1271 if (Dit == It || Dit == It + Suffix.size() - 1)
1272 Cand = Cand.
substr(0, It);
1278 assert(
false &&
"internal error: unknown suffix elision policy");
1291 return Func.stringRef();
1294 "GUIDToFuncNameMap needs to be populated first");
1334 *FuncNameToProfNameMap =
nullptr)
const;
1371 FunctionHash ==
Other.FunctionHash && Context ==
Other.Context &&
1372 TotalSamples ==
Other.TotalSamples &&
1373 TotalHeadSamples ==
Other.TotalHeadSamples &&
1374 BodySamples ==
Other.BodySamples &&
1375 CallsiteSamples ==
Other.CallsiteSamples;
1379 return !(*
this ==
Other);
1459 const LocToLocMap *IRToProfileLocationMap =
nullptr;
1478 :
public HashKeyMap<std::unordered_map, SampleContext, FunctionSamples> {
1485 Ret.first->second.setContext(Ctx);
1486 return Ret.first->second;
1513 std::vector<NameFunctionSamples> &SortedProfiles);
1525 for (
const auto &
I : Samples)
1528 return A->first <
B->first;
1552 bool TrimColdContext,
1553 bool MergeColdContext,
1555 bool TrimBaseProfileOnly);
1591 bool ProfileIsCS =
false) {
1594 ProfileMap = std::move(TmpProfiles);
1599 bool ProfileIsCS =
false) {
1601 for (
const auto &
I : InputProfiles) {
1608 for (
const auto &
I : InputProfiles)
1609 flattenNestedProfile(OutputProfiles,
I.second);
1619 auto Ret = OutputProfiles.
try_emplace(Context, FS);
1624 Profile.removeAllCallsiteSamples();
1634 "There should be no inlinees' profiles after flattening.");
1640 uint64_t TotalSamples =
FS.getTotalSamples();
1642 for (
const auto &
I :
FS.getCallsiteSamples()) {
1643 for (
const auto &Callee :
I.second) {
1644 const auto &CalleeProfile =
Callee.second;
1646 Profile.addBodySamples(
I.first.LineOffset,
I.first.Discriminator,
1647 CalleeProfile.getHeadSamplesEstimate());
1649 Profile.addCalledTargetSamples(
I.first.LineOffset,
1650 I.first.Discriminator,
1651 CalleeProfile.getFunction(),
1652 CalleeProfile.getHeadSamplesEstimate());
1654 TotalSamples = TotalSamples >= CalleeProfile.getTotalSamples()
1655 ? TotalSamples - CalleeProfile.getTotalSamples()
1657 TotalSamples += CalleeProfile.getHeadSamplesEstimate();
1659 flattenNestedProfile(OutputProfiles, CalleeProfile);
1662 Profile.addTotalSamples(TotalSamples);
1671 SampleProfileMap &ProfileMap;
1688 Syms.insert(Name.copy(Allocator));
1694 for (
auto Sym :
List.Syms)
1698 unsigned size() {
return Syms.size(); }
1712 bool ToCompress =
false;
1719using namespace sampleprof;
1746 return toString(IntHash, 10,
false)
assert(UImm &&(UImm !=~static_cast< T >(0)) &&"Invalid immediate!")
This file defines the BumpPtrAllocator interface.
static GCRegistry::Add< ErlangGC > A("erlang", "erlang-compatible garbage collector")
static GCRegistry::Add< StatepointGC > D("statepoint-example", "an example strategy for statepoint")
static GCRegistry::Add< CoreCLRGC > E("coreclr", "CoreCLR-compatible GC")
static GCRegistry::Add< OcamlGC > B("ocaml", "ocaml 3.10-compatible GC")
#define LLVM_DEPRECATED(MSG, FIX)
This file defines the DenseMap class.
This file defines the DenseSet and SmallDenseSet classes.
Provides ErrorOr<T> smart pointer.
Defines HashKeyMap template.
static cl::opt< unsigned > ColdCountThreshold("mfs-count-threshold", cl::desc("Minimum number of times a block must be executed to be retained."), cl::init(1), cl::Hidden)
This file implements a map that provides insertion order iteration.
Defines FunctionId class.
This file defines the SmallVector class.
Class for arbitrary precision integers.
Represent a constant reference to an array (0 or more elements consecutively in memory),...
ArrayRef< T > take_front(size_t N=1) const
Return a copy of *this with only the first N elements.
size_t size() const
Get the array size.
ArrayRef< T > drop_back(size_t N=1) const
Drop the last N elements of the array.
ValueT lookup(const_arg_type_t< KeyT > Val) const
Return the entry for the specified key, or a default constructed value if no such entry exists.
Implements a dense probed hash-table based set.
Represents either an error or a value T.
static LLVM_ABI GUID getGUIDAssumingExternalLinkage(StringRef GlobalName)
Return a 64-bit global unique ID constructed from the name of a global symbol.
LLVM_ABI void update(ArrayRef< uint8_t > Data)
Updates the hash for the byte stream provided.
static LLVM_ABI void stringifyResult(MD5Result &Result, SmallVectorImpl< char > &Str)
Translates the bytes in Res to a hex string that is deposited into Str.
LLVM_ABI void final(MD5Result &Result)
Finishes off the hash and puts the result in result.
This class implements a map that also provides access to all stored values in a deterministic order.
SmallString - A SmallString is just a SmallVector with methods and accessors that make it work better...
This is a 'vector' (really, a variable-sized array), optimized for the case when the array is small.
Represent a constant reference to a string, i.e.
std::pair< StringRef, StringRef > split(char Separator) const
Split into two substrings around the first occurrence of a separator character.
static constexpr size_t npos
constexpr StringRef substr(size_t Start, size_t N=npos) const
Return a reference to the substring from [Start, Start + N).
bool starts_with(StringRef Prefix) const
Check if this string starts with the given Prefix.
constexpr bool empty() const
Check if the string is empty.
constexpr size_t size() const
Get the string size.
size_t rfind(char C, size_t From=npos) const
Search for the last character C in the string.
Target - Wrapper for Target specific information.
The instances of the Type class are immutable: once they are created, they are never changed.
std::pair< iterator, bool > insert(const ValueT &V)
An opaque object representing a hash code.
This class implements an extremely fast bulk output stream that can only output to a stream.
This class represents a function that is read from a sample profile.
uint64_t getHashCode() const
Get hash code of this object.
Representation of the samples collected for a function.
void setTotalSamples(uint64_t Num)
static LLVM_ABI bool ProfileIsPreInlined
void setContextAttribute(ContextAttributeMask Attr)
LLVM_ABI const FunctionSamples * findFunctionSamples(const DILocation *DIL, SampleProfileReaderItaniumRemapper *Remapper=nullptr, const HashKeyMap< DenseMap, FunctionId, FunctionId > *FuncNameToProfNameMap=nullptr) const
Get the FunctionSamples of the inline instance where DIL originates from.
bool operator!=(const FunctionSamples &Other) const
void updateTotalSamples()
void setHeadSamples(uint64_t Num)
sampleprof_error addTotalSamples(uint64_t Num, uint64_t Weight=1)
static constexpr const char * UniqSuffix
void updateCallsiteSamples()
static StringRef getCanonicalFnName(StringRef FnName, StringRef Attr="selected")
sampleprof_error addTypeSamplesAt(const LineLocation &Loc, FunctionId Type, uint64_t Count)
At location Loc, add a type sample for the given Type with Count.
LLVM_ABI const FunctionSamples * findFunctionSamplesAt(const LineLocation &Loc, StringRef CalleeName, SampleProfileReaderItaniumRemapper *Remapper, const HashKeyMap< DenseMap, FunctionId, FunctionId > *FuncNameToProfNameMap=nullptr) const
Returns a pointer to FunctionSamples at the given callsite location Loc with callee CalleeName.
bool operator==(const FunctionSamples &Other) const
static constexpr const char * PartSuffix
static uint64_t getCallSiteHash(FunctionId Callee, const LineLocation &Callsite)
Returns a unique hash code for a combination of a callsite location and the callee function name.
static StringRef getCanonicalCoroFnName(StringRef FnName, StringRef Attr="selected")
const FunctionSamplesMap * findFunctionSamplesMapAt(const LineLocation &Loc) const
Returns the FunctionSamplesMap at the given Loc.
void removeAllCallsiteSamples()
uint64_t getMaxCountInside(bool SkipCallSite=false) const
Return the maximum of sample counts in a function body.
void removeTotalSamples(uint64_t Num)
uint64_t getHeadSamples() const
For top-level functions, return the total number of branch samples that have the function as the bran...
void setFunction(FunctionId NewFunctionID)
Set the name of the function.
ErrorOr< uint64_t > findSamplesAt(uint32_t LineOffset, uint32_t Discriminator) const
Return the number of samples collected at the given location.
static LLVM_ABI bool ProfileIsCS
ErrorOr< const SampleRecord::CallTargetMap & > findCallTargetMapAt(const LineLocation &CallSite) const
Returns the call target map collected at a given location specified by CallSite.
const LineLocation & mapIRLocToProfileLoc(const LineLocation &IRLoc) const
static StringRef getCanonicalFnName(StringRef FnName, ArrayRef< StringRef > Suffixes, StringRef Attr="selected")
FunctionId getFunction() const
Return the function name.
uint64_t getFunctionHash() const
const CallsiteTypeMap & getCallsiteTypeCounts() const
Returns vtable access samples for the C++ types collected in this function.
sampleprof_error addCallsiteVTableTypeProfAt(const LineLocation &Loc, const T &Other, uint64_t Weight=1)
Scale Other sample counts by Weight and add the scaled result to the type samples for Loc.
static constexpr const char * LLVMSuffix
Name suffixes which canonicalization should handle to avoid profile mismatch.
StringRef getFuncName(FunctionId Func) const
Translate Func into its original name.
const TypeCountMap * findCallsiteTypeSamplesAt(const LineLocation &Loc) const
Returns the TypeCountMap for inlined callsites at the given Loc.
sampleprof_error addHeadSamples(uint64_t Num, uint64_t Weight=1)
sampleprof_error addSampleRecord(LineLocation Location, const SampleRecord &SampleRecord, uint64_t Weight=1)
uint64_t removeCalledTargetAndBodySample(uint32_t LineOffset, uint32_t Discriminator, FunctionId Func)
DenseMap< uint64_t, StringRef > * GUIDToFuncNameMap
GUIDToFuncNameMap saves the mapping from GUID to the symbol name, for all the function symbols define...
sampleprof_error addCalledTargetSamples(uint32_t LineOffset, uint32_t Discriminator, FunctionId Func, uint64_t Num, uint64_t Weight=1)
FunctionSamplesMap & functionSamplesAt(const LineLocation &Loc)
Return the function samples at the given callsite location.
static LLVM_ABI bool ProfileIsProbeBased
void setIRToProfileLocationMap(const LocToLocMap *LTLM)
static StringRef getCanonicalFnName(const Function &F)
Return the canonical name for a function, taking into account suffix elision policy attributes.
StringRef getFuncName() const
Return the original function name.
LLVM_ABI void findAllNames(DenseSet< FunctionId > &NameSet) const
sampleprof_error addBodySamples(uint32_t LineOffset, uint32_t Discriminator, uint64_t Num, uint64_t Weight=1)
static LLVM_ABI unsigned getOffset(const DILocation *DIL)
Returns the line offset to the start line of the subprogram.
void setContextSynthetic()
void setFunctionHash(uint64_t Hash)
static LLVM_ABI bool ProfileIsFS
If this profile uses flow sensitive discriminators.
ErrorOr< const SampleRecord::CallTargetMap & > findCallTargetMapAt(uint32_t LineOffset, uint32_t Discriminator) const
Returns the call target map collected at a given location.
SampleContext & getContext() const
static LLVM_ABI bool HasUniqSuffix
Whether the profile contains any ".__uniq." suffix in a name.
uint64_t getTotalSamples() const
Return the total number of samples collected inside the function.
LLVM_ABI void print(raw_ostream &OS=dbgs(), unsigned Indent=0) const
Print the samples collected for a function on stream OS.
sampleprof_error merge(const FunctionSamples &Other, uint64_t Weight=1)
Merge the samples in Other into this one.
FunctionSamples()=default
const CallsiteSampleMap & getCallsiteSamples() const
Return all the callsite samples collected in the body of the function.
LLVM_ABI void dump() const
void setContext(const SampleContext &FContext)
static LLVM_ABI LineLocation getCallSiteIdentifier(const DILocation *DIL, bool ProfileIsFS=false)
Returns a unique call site identifier for a given debug location of a call instruction.
void findInlinedFunctions(DenseSet< GlobalValue::GUID > &S, const HashKeyMap< DenseMap, FunctionId, Function * > &SymbolMap, uint64_t Threshold) const
Recursively traverses all children, if the total sample count of the corresponding function is no les...
uint64_t getHeadSamplesEstimate() const
Return an estimate of the sample count of the function entry basic block.
uint64_t getGUID() const
Return the GUID of the context's name.
TypeCountMap & getTypeSamplesAt(const LineLocation &Loc)
Returns the vtable access samples for the C++ types for Loc.
const BodySampleMap & getBodySamples() const
Return all the samples collected in the body of the function.
static LLVM_ABI bool UseMD5
Whether the profile uses MD5 to represent string.
This class is a wrapper to associative container MapT<KeyT, ValueT> using the hash value of the origi...
FunctionSamples mapped_type
std::pair< iterator, bool > try_emplace(const key_type &Hash, const original_key_type &Key, Ts &&...Args)
typename base_type::iterator iterator
decltype(hash_value(SampleContext())) key_type
iterator find(const original_key_type &Key)
typename base_type::const_iterator const_iterator
LLVM_ABI ProfileConverter(SampleProfileMap &Profiles)
LLVM_ABI void convertCSProfiles()
static void flattenProfile(SampleProfileMap &ProfileMap, bool ProfileIsCS=false)
static void flattenProfile(const SampleProfileMap &InputProfiles, SampleProfileMap &OutputProfiles, bool ProfileIsCS=false)
ProfileSymbolList records the list of function symbols shown up in the binary used to generate the pr...
void setToCompress(bool TC)
void add(StringRef Name, bool Copy=false)
copy indicates whether we need to copy the underlying memory for the input Name.
LLVM_ABI std::error_code write(raw_ostream &OS)
void reserve(size_t Size)
LLVM_ABI void dump(raw_ostream &OS=dbgs()) const
void merge(const ProfileSymbolList &List)
bool contains(StringRef Name)
LLVM_ABI std::error_code read(const uint8_t *Data, uint64_t ListSize)
SampleContextTrimmer(SampleProfileMap &Profiles)
LLVM_ABI void trimAndMergeColdContextProfiles(uint64_t ColdCountThreshold, bool TrimColdContext, bool MergeColdContext, uint32_t ColdContextFrameLength, bool TrimBaseProfileOnly)
static void createCtxVectorFromStr(StringRef ContextStr, SampleContextFrameVector &Context)
Create a context vector from a given context string and save it in Context.
bool operator==(const SampleContext &That) const
void setFunction(FunctionId NewFunctionID)
Set the name of the function and clear the current context.
SampleContext(SampleContextFrames Context, ContextStateMask CState=RawContext)
bool operator<(const SampleContext &That) const
SampleContext(StringRef ContextStr, std::list< SampleContextFrameVector > &CSNameTable, ContextStateMask CState=RawContext)
bool hasState(ContextStateMask S)
void clearState(ContextStateMask S)
SampleContextFrames getContextFrames() const
SampleContext(FunctionId Func)
bool isBaseContext() const
static void decodeContextString(StringRef ContextStr, FunctionId &Func, LineLocation &LineLoc)
static std::string getContextString(SampleContextFrames Context, bool IncludeLeafLineLocation=false)
bool operator!=(const SampleContext &That) const
void setState(ContextStateMask S)
void setAllAttributes(uint32_t A)
uint64_t getHashCode() const
void setContext(SampleContextFrames Context, ContextStateMask CState=RawContext)
FunctionId getFunction() const
uint32_t getAllAttributes()
void setAttribute(ContextAttributeMask A)
bool hasAttribute(ContextAttributeMask A)
std::string toString() const
SampleContext(StringRef Name)
bool isPrefixOf(const SampleContext &That) const
This class provides operator overloads to the map container using MD5 as the key type,...
iterator find(const SampleContext &Ctx)
mapped_type & create(const SampleContext &Ctx)
iterator erase(iterator It)
size_t erase(const key_type &Key)
const_iterator find(const SampleContext &Ctx) const
size_t erase(const SampleContext &Ctx)
SampleProfileReaderItaniumRemapper remaps the profile data from a sample profile data reader,...
Representation of a single sample record.
DenseMap< FunctionId, uint64_t > CallTargetMap
static SortedCallTargetSet sortCallTargets(const CallTargetMap &Targets)
Sort call targets in descending order of call frequency.
LLVM_ABI std::error_code serialize(raw_ostream &OS, const MapVector< FunctionId, uint32_t > &NameTable) const
Serialize the sample record to the output stream using ULEB128 encoding.
LLVM_ABI void dump() const
bool hasCalls() const
Return true if this sample record contains function calls.
LLVM_ABI sampleprof_error merge(const SampleRecord &Other, uint64_t Weight=1)
Merge the samples in Other into this record.
const CallTargetMap & getCallTargets() const
SortedCallTargetSet getSortedCallTargets() const
uint64_t getSamples() const
uint64_t getCallTargetSum() const
uint64_t removeSamples(uint64_t S)
Decrease the number of samples for this record by S.
sampleprof_error addSamples(uint64_t S, uint64_t Weight=1)
Increment the number of samples for this record by S.
uint64_t removeCalledTarget(FunctionId F)
Remove called function from the call target map.
static const CallTargetMap adjustCallTargets(const CallTargetMap &Targets, float DistributionFactor)
Prorate call targets by a distribution factor.
std::pair< FunctionId, uint64_t > CallTarget
bool operator!=(const SampleRecord &Other) const
SmallVector< CallTarget > SortedCallTargetSet
bool operator==(const SampleRecord &Other) const
LLVM_ABI void print(raw_ostream &OS, unsigned Indent) const
Print the sample record to the stream OS indented by Indent.
sampleprof_error addCalledTarget(FunctionId F, uint64_t S, uint64_t Weight=1)
Add called function F with samples S.
std::pair< const LocationT, SampleT > SamplesWithLoc
SampleSorter(const std::map< LocationT, SampleT > &Samples)
const SamplesWithLocList & get() const
SmallVector< const SamplesWithLoc *, 20 > SamplesWithLocList
#define llvm_unreachable(msg)
Marks that the current location is not supposed to be reachable.
@ C
The default llvm calling convention, compatible with C.
static FunctionId getRepInFormat(StringRef Name)
Get the proper representation of a string according to whether the current Format uses MD5 to represe...
static void verifySecFlag(SecType Type, SecFlagType Flag)
LLVM_ABI void sortFuncProfiles(const SampleProfileMap &ProfileMap, std::vector< NameFunctionSamples > &SortedProfiles)
static uint64_t SPMagic(SampleProfileFormat Format=SPF_Binary)
static bool formatVersionIsSupported(uint64_t Version)
static void addSecFlag(SecHdrTableEntry &Entry, SecFlagType Flag)
std::map< LineLocation, FunctionSamplesMap > CallsiteSampleMap
static bool hasSecFlag(const SecHdrTableEntry &Entry, SecFlagType Flag)
static constexpr uint64_t LatestVersion
ArrayRef< SampleContextFrame > SampleContextFrames
std::pair< hash_code, const FunctionSamples * > NameFunctionSamples
@ ContextDuplicatedIntoBase
@ SecFlagIsPreInlined
SecFlagIsPreInlined means this profile contains ShouldBeInlined contexts thus this is CS preinliner c...
@ SecFlagHasVTableTypeProf
SecFlagHasVTableTypeProf means this profile contains vtable type profiles.
@ SecFlagPartial
SecFlagPartial means the profile is for common/shared code.
@ SecFlagFSDiscriminator
SecFlagFSDiscriminator means this profile uses flow-sensitive discriminators.
@ SecFlagFullContext
SecFlagContext means this is context-sensitive flat profile for CSSPGO.
static void removeSecFlag(SecHdrTableEntry &Entry, SecFlagType Flag)
DenseMap< LineLocation, LineLocation > LocToLocMap
SmallVector< SampleContextFrame, 1 > SampleContextFrameVector
std::map< FunctionId, FunctionSamples > FunctionSamplesMap
static constexpr uint64_t MinSupportedVersion
raw_ostream & operator<<(raw_ostream &OS, const FunctionId &Obj)
static constexpr uint64_t DefaultVersion
std::map< FunctionId, uint64_t > TypeCountMap
Key represents type of a C++ polymorphic class type by its vtable and value represents its counter.
static std::string getSecName(SecType Type)
constexpr char kVTableProfPrefix[]
uint64_t hash_value(const FunctionId &Obj)
LLVM_ABI std::error_code serializeTypeMap(const TypeCountMap &Map, const MapVector< FunctionId, uint32_t > &NameTable, raw_ostream &OS)
Write Map to the output stream.
static uint64_t SPVersion()
std::map< LineLocation, TypeCountMap > CallsiteTypeMap
std::map< LineLocation, SampleRecord > BodySampleMap
This is an optimization pass for GlobalISel generic memory operations.
void stable_sort(R &&Range)
std::error_code make_error_code(BitcodeError E)
sampleprof_error mergeSampleProfErrors(sampleprof_error &Accumulator, sampleprof_error Result)
@ unsupported_writing_format
@ ostream_seek_unsupported
void sort(IteratorTy Start, IteratorTy End)
LLVM_ABI raw_ostream & dbgs()
dbgs() - This returns a reference to a raw_ostream for debugging messages.
std::enable_if_t< std::is_unsigned_v< T >, T > SaturatingMultiplyAdd(T X, T Y, T A, bool *ResultOverflowed=nullptr)
Multiply two unsigned integers, X and Y, and add the unsigned integer, A to the product.
LLVM_ATTRIBUTE_VISIBILITY_DEFAULT AnalysisKey InnerAnalysisManagerProxy< AnalysisManagerT, IRUnitT, ExtraArgTs... >::Key
LLVM_ABI const std::error_category & sampleprof_category()
std::string getUniqueInternalLinkagePostfix(const StringRef &FName)
RelativeUniformCounterPtr ValuesPtrExpr VTableAddr Count
std::string toString(const APInt &I, unsigned Radix, bool Signed, bool formatAsCLiteral=false, bool UpperCase=true, bool InsertSeparators=false)
BumpPtrAllocatorImpl<> BumpPtrAllocator
The standard BumpPtrAllocator which just uses the default template parameters.
LogicalResult success(bool IsSuccess=true)
Utility function to generate a LogicalResult.
SmallVector< Out, Size > to_vector_of(R &&Range)
hash_code hash_combine_range(InputIteratorT first, InputIteratorT last)
Compute a hash_code for a sequence of values.
Implement std::hash so that hash_code can be used in STL containers.
static unsigned getHashValue(const SampleContext &Val)
static bool isEqual(const SampleContext &LHS, const SampleContext &RHS)
static unsigned getHashValue(const sampleprof::LineLocation &Val)
static bool isEqual(const sampleprof::LineLocation &LHS, const sampleprof::LineLocation &RHS)
An information struct used to provide DenseMap with the various necessary components for a given valu...
Represents the relative location of an instruction.
LLVM_ABI void serialize(raw_ostream &OS) const
LLVM_ABI void print(raw_ostream &OS) const
LineLocation(uint32_t L, uint32_t D)
bool operator!=(const LineLocation &O) const
bool operator<(const LineLocation &O) const
uint64_t getHashCode() const
bool operator==(const LineLocation &O) const
LLVM_ABI void dump() const
FunctionSamples * FuncSamples
FrameNode(FunctionId FName=FunctionId(), FunctionSamples *FSamples=nullptr, LineLocation CallLoc={0, 0})
LLVM_ABI FrameNode * getOrCreateChildFrame(const LineLocation &CallSite, FunctionId CalleeName)
std::map< uint64_t, FrameNode > AllChildFrames
uint64_t operator()(const SampleContextFrameVector &S) const
bool operator==(const SampleContextFrame &That) const
SampleContextFrame(FunctionId Func, LineLocation Location)
bool operator!=(const SampleContextFrame &That) const
std::string toString(bool OutputLineLocation) const
uint64_t getHashCode() const
uint64_t operator()(const SampleContext &Context) const
bool operator()(const CallTarget &LHS, const CallTarget &RHS) const