#include <system_error>
#include <vector>
-#define INSTR_PROF_INDEX_VERSION 4
+#define INSTR_PROF_INDEX_VERSION 3
namespace llvm {
class Function;
}
/// Return the name prefix of variables containing instrumented function names.
-inline StringRef getInstrProfNameVarPrefix() { return "__llvm_profile_name_"; }
+inline StringRef getInstrProfNameVarPrefix() { return "__profn_"; }
/// Return the name prefix of variables containing per-function control data.
-inline StringRef getInstrProfDataVarPrefix() { return "__llvm_profile_data_"; }
+inline StringRef getInstrProfDataVarPrefix() { return "__profd_"; }
/// Return the name prefix of profile counter variables.
-inline StringRef getInstrProfCountersVarPrefix() {
- return "__llvm_profile_counters_";
-}
+inline StringRef getInstrProfCountersVarPrefix() { return "__profc_"; }
/// Return the name prefix of the COMDAT group for instrumentation variables
/// associated with a COMDAT function.
-inline StringRef getInstrProfComdatPrefix() { return "__llvm_profile_vars_"; }
+inline StringRef getInstrProfComdatPrefix() { return "__profv_"; }
/// Return the name of a covarage mapping variable (internal linkage)
/// for each instrumented source module. Such variables are allocated
GlobalValue::LinkageTypes Linkage,
StringRef FuncName);
+/// Given a PGO function name, remove the filename prefix and return
+/// the original (static) function name.
+StringRef getFuncNameWithoutPrefix(StringRef PGOFuncName, StringRef FileName);
+
const std::error_category &instrprof_category();
enum class instrprof_error {
return std::error_code(static_cast<int>(E), instrprof_category());
}
+inline instrprof_error MergeResult(instrprof_error &Accumulator,
+ instrprof_error Result) {
+ // Prefer first error encountered as later errors may be secondary effects of
+ // the initial problem.
+ if (Accumulator == instrprof_error::success &&
+ Result != instrprof_error::success)
+ Accumulator = Result;
+ return Accumulator;
+}
+
enum InstrProfValueKind : uint32_t {
#define VALUE_PROF_KIND(Enumerator, Value) Enumerator = Value,
#include "llvm/ProfileData/InstrProfData.inc"
};
+namespace object {
+class SectionRef;
+}
+/// A symbol table used for function PGO name look-up with keys
+/// (such as pointers, md5hash values) to the function. A function's
+/// PGO name or name's md5hash are used in retrieving the profile
+/// data of the function. See \c getPGOFuncName() method for details
+/// on how PGO name is formed.
+class InstrProfSymtab {
+private:
+ StringRef Data;
+ uint64_t Address;
+
+public:
+ InstrProfSymtab() : Data(), Address(0) {}
+
+ /// Create InstrProfSymtab from a object file section which
+ /// contains function PGO names that are uncompressed.
+ std::error_code create(object::SectionRef &Section);
+ std::error_code create(StringRef D, uint64_t BaseAddr) {
+ Data = D;
+ Address = BaseAddr;
+ return std::error_code();
+ }
+
+ /// Return function's PGO name from the function name's symabol
+ /// address in the object file. If an error occurs, Return
+ /// an empty string.
+ StringRef getFuncName(uint64_t FuncNameAddress, size_t NameSize);
+};
+
struct InstrProfStringTable {
// Set of string values in profiling data.
StringSet<> StringValueSet;
}
/// Merge data from another InstrProfValueSiteRecord
- void mergeValueData(InstrProfValueSiteRecord &Input) {
+ /// Optionally scale merged counts by \p Weight.
+ instrprof_error mergeValueData(InstrProfValueSiteRecord &Input,
+ uint64_t Weight = 1) {
this->sortByTargetValues();
Input.sortByTargetValues();
auto I = ValueData.begin();
auto IE = ValueData.end();
+ instrprof_error Result = instrprof_error::success;
for (auto J = Input.ValueData.begin(), JE = Input.ValueData.end(); J != JE;
++J) {
while (I != IE && I->Value < J->Value)
++I;
if (I != IE && I->Value == J->Value) {
- I->Count = SaturatingAdd(I->Count, J->Count);
+ uint64_t JCount = J->Count;
+ bool Overflowed;
+ if (Weight > 1) {
+ JCount = SaturatingMultiply(JCount, Weight, &Overflowed);
+ if (Overflowed)
+ Result = instrprof_error::counter_overflow;
+ }
+ I->Count = SaturatingAdd(I->Count, JCount, &Overflowed);
+ if (Overflowed)
+ Result = instrprof_error::counter_overflow;
++I;
continue;
}
ValueData.insert(I, *J);
}
+ return Result;
}
};
ValueMapType *HashKeys);
/// Merge the counts in \p Other into this one.
- inline instrprof_error merge(InstrProfRecord &Other);
+ /// Optionally scale merged counts by \p Weight.
+ inline instrprof_error merge(InstrProfRecord &Other, uint64_t Weight = 1);
/// Used by InstrProfWriter: update the value strings to commoned strings in
/// the writer instance.
}
// Merge Value Profile data from Src record to this record for ValueKind.
- instrprof_error mergeValueProfData(uint32_t ValueKind, InstrProfRecord &Src) {
+ // Scale merged value counts by \p Weight.
+ instrprof_error mergeValueProfData(uint32_t ValueKind, InstrProfRecord &Src,
+ uint64_t Weight) {
uint32_t ThisNumValueSites = getNumValueSites(ValueKind);
uint32_t OtherNumValueSites = Src.getNumValueSites(ValueKind);
if (ThisNumValueSites != OtherNumValueSites)
getValueSitesForKind(ValueKind);
std::vector<InstrProfValueSiteRecord> &OtherSiteRecords =
Src.getValueSitesForKind(ValueKind);
+ instrprof_error Result = instrprof_error::success;
for (uint32_t I = 0; I < ThisNumValueSites; I++)
- ThisSiteRecords[I].mergeValueData(OtherSiteRecords[I]);
- return instrprof_error::success;
+ MergeResult(Result, ThisSiteRecords[I].mergeValueData(OtherSiteRecords[I],
+ Weight));
+ return Result;
}
};
VData.Value = (uint64_t)StrTab->insertString((const char *)VData.Value);
}
-instrprof_error InstrProfRecord::merge(InstrProfRecord &Other) {
+instrprof_error InstrProfRecord::merge(InstrProfRecord &Other,
+ uint64_t Weight) {
// If the number of counters doesn't match we either have bad data
// or a hash collision.
if (Counts.size() != Other.Counts.size())
instrprof_error Result = instrprof_error::success;
for (size_t I = 0, E = Other.Counts.size(); I < E; ++I) {
- bool ResultOverflowed;
- Counts[I] = SaturatingAdd(Counts[I], Other.Counts[I], &ResultOverflowed);
- if (ResultOverflowed)
+ bool Overflowed;
+ uint64_t OtherCount = Other.Counts[I];
+ if (Weight > 1) {
+ OtherCount = SaturatingMultiply(OtherCount, Weight, &Overflowed);
+ if (Overflowed)
+ Result = instrprof_error::counter_overflow;
+ }
+ Counts[I] = SaturatingAdd(Counts[I], OtherCount, &Overflowed);
+ if (Overflowed)
Result = instrprof_error::counter_overflow;
}
- for (uint32_t Kind = IPVK_First; Kind <= IPVK_Last; ++Kind) {
- instrprof_error MergeValueResult = mergeValueProfData(Kind, Other);
- if (MergeValueResult != instrprof_error::success)
- Result = MergeValueResult;
- }
+ for (uint32_t Kind = IPVK_First; Kind <= IPVK_Last; ++Kind)
+ MergeResult(Result, mergeValueProfData(Kind, Other, Weight));
return Result;
}
#include "llvm/ProfileData/InstrProfData.inc"
/*
- * Initialize the record for runtime value profile data.
+ * Initialize the record for runtime value profile data.
* Return 0 if the initialization is successful, otherwise
* return 1.
*/
const uint64_t Version = INSTR_PROF_INDEX_VERSION;
const HashT HashType = HashT::MD5;
+static inline uint64_t ComputeHash(StringRef K) {
+ return ComputeHash(HashType, K);
+}
+
// This structure defines the file header of the LLVM profile
// data file in indexed-format.
struct Header {