forked from OSchip/llvm-project
Cleanup: llvm::bsearch -> llvm::partition_point after r364719
llvm-svn: 364720
This commit is contained in:
parent
2d2cb77e45
commit
78ee2fbf98
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@ -35,8 +35,8 @@ float quality(const Symbol &S) {
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}
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SymbolSlab::const_iterator SymbolSlab::find(const SymbolID &ID) const {
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auto It =
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llvm::bsearch(Symbols, [&](const Symbol &S) { return !(S.ID < ID); });
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auto It = llvm::partition_point(Symbols,
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[&](const Symbol &S) { return S.ID < ID; });
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if (It != Symbols.end() && It->ID == ID)
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return It;
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return Symbols.end();
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@ -127,8 +127,8 @@ TokenBuffer::spelledForExpandedToken(const syntax::Token *Expanded) const {
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unsigned ExpandedIndex = Expanded - ExpandedTokens.data();
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// Find the first mapping that produced tokens after \p Expanded.
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auto It = llvm::bsearch(File.Mappings, [&](const Mapping &M) {
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return ExpandedIndex < M.BeginExpanded;
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auto It = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
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return M.BeginExpanded <= ExpandedIndex;
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});
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// Our token could only be produced by the previous mapping.
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if (It == File.Mappings.begin()) {
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@ -212,8 +212,8 @@ TokenBuffer::expansionStartingAt(const syntax::Token *Spelled) const {
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Spelled < (File.SpelledTokens.data() + File.SpelledTokens.size()));
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unsigned SpelledIndex = Spelled - File.SpelledTokens.data();
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auto M = llvm::bsearch(File.Mappings, [&](const Mapping &M) {
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return SpelledIndex <= M.BeginSpelled;
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auto M = llvm::partition_point(File.Mappings, [&](const Mapping &M) {
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return M.BeginSpelled < SpelledIndex;
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});
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if (M == File.Mappings.end() || M->BeginSpelled != SpelledIndex)
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return llvm::None;
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@ -82,7 +82,7 @@ Optional<RelocAddrEntry>
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LLDDwarfObj<ELFT>::findAux(const InputSectionBase &Sec, uint64_t Pos,
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ArrayRef<RelTy> Rels) const {
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auto It =
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llvm::bsearch(Rels, [=](const RelTy &A) { return Pos <= A.r_offset; });
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partition_point(Rels, [=](const RelTy &A) { return A.r_offset < Pos; });
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if (It == Rels.end() || It->r_offset != Pos)
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return None;
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const RelTy &Rel = *It;
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@ -1268,8 +1268,8 @@ SectionPiece *MergeInputSection::getSectionPiece(uint64_t Offset) {
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// If Offset is not at beginning of a section piece, it is not in the map.
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// In that case we need to do a binary search of the original section piece vector.
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auto It = llvm::bsearch(Pieces,
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[=](SectionPiece P) { return Offset < P.InputOff; });
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auto It = partition_point(
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Pieces, [=](SectionPiece P) { return P.InputOff <= Offset; });
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return &It[-1];
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}
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@ -1322,13 +1322,12 @@ void stable_sort(R &&Range, Compare C) {
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std::stable_sort(adl_begin(Range), adl_end(Range), C);
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}
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/// Binary search for the first iterator in a range where a predicate is true.
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/// Requires that C is always false below some limit, and always true above it.
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/// Binary search for the first iterator in a range where a predicate is false.
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/// Requires that C is always true below some limit, and always false above it.
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template <typename R, typename Predicate,
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typename Val = decltype(*adl_begin(std::declval<R>()))>
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auto bsearch(R &&Range, Predicate P) -> decltype(adl_begin(Range)) {
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return std::partition_point(adl_begin(Range), adl_end(Range),
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[&](const Val &V) { return !P(V); });
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auto partition_point(R &&Range, Predicate P) -> decltype(adl_begin(Range)) {
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return std::partition_point(adl_begin(Range), adl_end(Range), P);
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}
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/// Wrapper function around std::equal to detect if all elements
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@ -473,9 +473,10 @@ public:
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DWARFDie getDIEForOffset(uint32_t Offset) {
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extractDIEsIfNeeded(false);
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assert(!DieArray.empty());
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auto It = llvm::bsearch(DieArray, [=](const DWARFDebugInfoEntry &LHS) {
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return Offset <= LHS.getOffset();
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});
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auto It =
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llvm::partition_point(DieArray, [=](const DWARFDebugInfoEntry &DIE) {
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return DIE.getOffset() < Offset;
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});
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if (It != DieArray.end() && It->getOffset() == Offset)
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return DWARFDie(this, &*It);
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return DWARFDie();
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@ -60,8 +60,8 @@ static cl::opt<int> ProfileSummaryColdCount(
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// Find the summary entry for a desired percentile of counts.
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static const ProfileSummaryEntry &getEntryForPercentile(SummaryEntryVector &DS,
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uint64_t Percentile) {
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auto It = llvm::bsearch(DS, [=](const ProfileSummaryEntry &Entry) {
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return Percentile <= Entry.Cutoff;
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auto It = partition_point(DS, [=](const ProfileSummaryEntry &Entry) {
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return Entry.Cutoff < Percentile;
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});
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// The required percentile has to be <= one of the percentiles in the
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// detailed summary.
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@ -337,8 +337,8 @@ void ExecutionDomainFix::visitSoftInstr(MachineInstr *mi, unsigned mask) {
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// Sorted insertion.
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// Enables giving priority to the latest domains during merging.
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const int Def = RDA->getReachingDef(mi, RC->getRegister(rx));
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auto I = llvm::bsearch(Regs, [&](int I) {
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return Def < RDA->getReachingDef(mi, RC->getRegister(I));
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auto I = partition_point(Regs, [&](int I) {
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return RDA->getReachingDef(mi, RC->getRegister(I)) <= Def;
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});
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Regs.insert(I, rx);
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}
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@ -544,11 +544,10 @@ LegalizerInfo::findAction(const SizeAndActionsVec &Vec, const uint32_t Size) {
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// Find the last element in Vec that has a bitsize equal to or smaller than
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// the requested bit size.
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// That is the element just before the first element that is bigger than Size.
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auto VecIt = llvm::bsearch(
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Vec, [=](const SizeAndAction &A) { return Size < A.first; });
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assert(VecIt != Vec.begin() && "Does Vec not start with size 1?");
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--VecIt;
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int VecIdx = VecIt - Vec.begin();
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auto It = partition_point(
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Vec, [=](const SizeAndAction &A) { return A.first <= Size; });
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assert(It != Vec.begin() && "Does Vec not start with size 1?");
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int VecIdx = It - Vec.begin() - 1;
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LegalizeAction Action = Vec[VecIdx].second;
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switch (Action) {
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@ -115,7 +115,7 @@ void DWARFDebugAranges::construct() {
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uint32_t DWARFDebugAranges::findAddress(uint64_t Address) const {
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RangeCollIterator It =
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llvm::bsearch(Aranges, [=](Range RHS) { return Address < RHS.HighPC(); });
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partition_point(Aranges, [=](Range R) { return R.HighPC() <= Address; });
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if (It != Aranges.end() && It->LowPC <= Address)
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return It->CUOffset;
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return -1U;
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@ -532,8 +532,8 @@ void DWARFDebugFrame::parse(DWARFDataExtractor Data) {
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}
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FrameEntry *DWARFDebugFrame::getEntryAtOffset(uint64_t Offset) const {
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auto It = llvm::bsearch(Entries, [=](const std::unique_ptr<FrameEntry> &E) {
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return Offset <= E->getOffset();
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auto It = partition_point(Entries, [=](const std::unique_ptr<FrameEntry> &E) {
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return E->getOffset() < Offset;
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});
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if (It != Entries.end() && (*It)->getOffset() == Offset)
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return It->get();
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@ -57,8 +57,8 @@ void DWARFDebugLoc::LocationList::dump(raw_ostream &OS, bool IsLittleEndian,
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DWARFDebugLoc::LocationList const *
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DWARFDebugLoc::getLocationListAtOffset(uint64_t Offset) const {
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auto It = llvm::bsearch(
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Locations, [=](const LocationList &L) { return Offset <= L.Offset; });
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auto It = partition_point(
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Locations, [=](const LocationList &L) { return L.Offset < Offset; });
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if (It != Locations.end() && It->Offset == Offset)
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return &(*It);
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return nullptr;
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@ -212,8 +212,8 @@ void DWARFDebugLoclists::parse(DataExtractor data, unsigned Version) {
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DWARFDebugLoclists::LocationList const *
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DWARFDebugLoclists::getLocationListAtOffset(uint64_t Offset) const {
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auto It = llvm::bsearch(
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Locations, [=](const LocationList &L) { return Offset <= L.Offset; });
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auto It = partition_point(
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Locations, [=](const LocationList &L) { return L.Offset < Offset; });
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if (It != Locations.end() && It->Offset == Offset)
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return &(*It);
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return nullptr;
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@ -172,8 +172,8 @@ DWARFUnitIndex::getFromOffset(uint32_t Offset) const {
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E2->Contributions[InfoColumn].Offset;
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});
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}
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auto I = llvm::bsearch(OffsetLookup, [&](Entry *E2) {
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return Offset < E2->Contributions[InfoColumn].Offset;
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auto I = partition_point(OffsetLookup, [&](Entry *E2) {
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return E2->Contributions[InfoColumn].Offset <= Offset;
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});
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if (I == OffsetLookup.begin())
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return nullptr;
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@ -463,8 +463,8 @@ DataLayout::AlignmentsTy::iterator
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DataLayout::findAlignmentLowerBound(AlignTypeEnum AlignType,
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uint32_t BitWidth) {
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auto Pair = std::make_pair((unsigned)AlignType, BitWidth);
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return llvm::bsearch(Alignments, [=](const LayoutAlignElem &E) {
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return Pair <= std::make_pair(E.AlignType, E.TypeBitWidth);
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return partition_point(Alignments, [=](const LayoutAlignElem &E) {
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return std::make_pair(E.AlignType, E.TypeBitWidth) < Pair;
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});
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}
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@ -533,9 +533,8 @@ static ArrayRef<const char *> findTargetSubtable(StringRef Name) {
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// Drop "llvm." and take the first dotted component. That will be the target
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// if this is target specific.
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StringRef Target = Name.drop_front(5).split('.').first;
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auto It = llvm::bsearch(Targets, [=](const IntrinsicTargetInfo &TI) {
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return Target <= TI.Name;
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});
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auto It = partition_point(
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Targets, [=](const IntrinsicTargetInfo &TI) { return TI.Name < Target; });
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// We've either found the target or just fall back to the generic set, which
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// is always first.
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const auto &TI = It != Targets.end() && It->Name == Target ? *It : Targets[0];
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@ -363,16 +363,15 @@ Error InstrProfSymtab::create(Module &M, bool InLTO) {
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uint64_t InstrProfSymtab::getFunctionHashFromAddress(uint64_t Address) {
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finalizeSymtab();
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auto Result =
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llvm::bsearch(AddrToMD5Map, [=](std::pair<uint64_t, uint64_t> A) {
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return Address <= A.first;
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});
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auto It = partition_point(AddrToMD5Map, [=](std::pair<uint64_t, uint64_t> A) {
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return A.first < Address;
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});
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// Raw function pointer collected by value profiler may be from
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// external functions that are not instrumented. They won't have
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// mapping data to be used by the deserializer. Force the value to
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// be 0 in this case.
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if (Result != AddrToMD5Map.end() && Result->first == Address)
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return (uint64_t)Result->second;
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if (It != AddrToMD5Map.end() && It->first == Address)
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return (uint64_t)It->second;
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return 0;
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}
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@ -158,8 +158,8 @@ const X86InstrFMA3Group *llvm::getFMA3Group(unsigned Opcode, uint64_t TSFlags) {
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// FMA 231 instructions have an opcode of 0xB6-0xBF
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unsigned FormIndex = ((BaseOpcode - 0x90) >> 4) & 0x3;
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auto I = llvm::bsearch(Table, [=](const X86InstrFMA3Group &Group) {
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return Opcode <= Group.Opcodes[FormIndex];
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auto I = partition_point(Table, [=](const X86InstrFMA3Group &Group) {
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return Group.Opcodes[FormIndex] < Opcode;
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});
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assert(I != Table.end() && I->Opcodes[FormIndex] == Opcode &&
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"Couldn't find FMA3 opcode!");
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@ -14,17 +14,15 @@
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#include <iomanip>
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#include <sstream>
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using namespace llvm::MachO;
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namespace llvm {
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namespace MachO {
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namespace detail {
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template <typename C>
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typename C::iterator addEntry(C &Container, StringRef InstallName) {
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auto I = llvm::bsearch(Container, [=](const InterfaceFileRef &O) {
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return InstallName <= O.getInstallName();
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auto I = partition_point(Container, [=](const InterfaceFileRef &O) {
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return O.getInstallName() < InstallName;
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});
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if ((I != std::end(Container)) && !(InstallName < I->getInstallName()))
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if (I != Container.end() && I->getInstallName() == InstallName)
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return I;
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return Container.emplace(I, InstallName);
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@ -44,10 +42,10 @@ void InterfaceFile::addReexportedLibrary(StringRef InstallName,
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}
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void InterfaceFile::addUUID(Architecture Arch, StringRef UUID) {
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auto I =
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llvm::bsearch(UUIDs, [=](const std::pair<Architecture, std::string> &O) {
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return Arch <= O.first;
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});
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auto I = partition_point(UUIDs,
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[=](const std::pair<Architecture, std::string> &O) {
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return O.first < Arch;
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});
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if (I != UUIDs.end() && Arch == I->first) {
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I->second = UUID;
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@ -278,8 +278,8 @@ void MemsetRanges::addRange(int64_t Start, int64_t Size, Value *Ptr,
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unsigned Alignment, Instruction *Inst) {
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int64_t End = Start+Size;
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range_iterator I = llvm::bsearch(
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Ranges, [=](const MemsetRange &O) { return Start <= O.End; });
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range_iterator I = partition_point(
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Ranges, [=](const MemsetRange &O) { return O.End < Start; });
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// We now know that I == E, in which case we didn't find anything to merge
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// with, or that Start <= I->End. If End < I->Start or I == E, then we need
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@ -1767,8 +1767,8 @@ static void insertLineSequence(std::vector<DWARFDebugLine::Row> &Seq,
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}
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object::SectionedAddress Front = Seq.front().Address;
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auto InsertPoint = llvm::bsearch(
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Rows, [=](const DWARFDebugLine::Row &O) { return !(O.Address < Front); });
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auto InsertPoint = partition_point(
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Rows, [=](const DWARFDebugLine::Row &O) { return O.Address < Front; });
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// FIXME: this only removes the unneeded end_sequence if the
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// sequences have been inserted in order. Using a global sort like
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@ -973,14 +973,15 @@ static bool shouldAdjustVA(const SectionRef &Section) {
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typedef std::pair<uint64_t, char> MappingSymbolPair;
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static char getMappingSymbolKind(ArrayRef<MappingSymbolPair> MappingSymbols,
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uint64_t Address) {
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auto Sym = bsearch(MappingSymbols, [Address](const MappingSymbolPair &Val) {
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return Val.first > Address;
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});
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auto It =
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partition_point(MappingSymbols, [Address](const MappingSymbolPair &Val) {
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return Val.first <= Address;
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});
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// Return zero for any address before the first mapping symbol; this means
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// we should use the default disassembly mode, depending on the target.
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if (Sym == MappingSymbols.begin())
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if (It == MappingSymbols.begin())
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return '\x00';
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return (Sym - 1)->second;
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return (It - 1)->second;
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}
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static uint64_t
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@ -1119,9 +1120,9 @@ static void disassembleObject(const Target *TheTarget, const ObjectFile *Obj,
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error(ExportEntry.getExportRVA(RVA));
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uint64_t VA = COFFObj->getImageBase() + RVA;
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auto Sec = llvm::bsearch(
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SectionAddresses, [VA](const std::pair<uint64_t, SectionRef> &RHS) {
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return VA < RHS.first;
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auto Sec = partition_point(
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SectionAddresses, [VA](const std::pair<uint64_t, SectionRef> &O) {
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return O.first <= VA;
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});
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if (Sec != SectionAddresses.begin()) {
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--Sec;
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@ -1378,10 +1379,10 @@ static void disassembleObject(const Target *TheTarget, const ObjectFile *Obj,
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// N.B. We don't walk the relocations in the relocatable case yet.
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auto *TargetSectionSymbols = &Symbols;
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if (!Obj->isRelocatableObject()) {
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auto It = llvm::bsearch(
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auto It = partition_point(
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SectionAddresses,
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[=](const std::pair<uint64_t, SectionRef> &RHS) {
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return Target < RHS.first;
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[=](const std::pair<uint64_t, SectionRef> &O) {
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return O.first <= Target;
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});
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if (It != SectionAddresses.begin()) {
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--It;
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@ -1394,17 +1395,17 @@ static void disassembleObject(const Target *TheTarget, const ObjectFile *Obj,
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// Find the last symbol in the section whose offset is less than
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// or equal to the target. If there isn't a section that contains
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// the target, find the nearest preceding absolute symbol.
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auto TargetSym = llvm::bsearch(
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auto TargetSym = partition_point(
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*TargetSectionSymbols,
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[=](const std::tuple<uint64_t, StringRef, uint8_t> &RHS) {
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return Target < std::get<0>(RHS);
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[=](const std::tuple<uint64_t, StringRef, uint8_t> &O) {
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return std::get<0>(O) <= Target;
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});
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if (TargetSym == TargetSectionSymbols->begin()) {
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TargetSectionSymbols = &AbsoluteSymbols;
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TargetSym = llvm::bsearch(
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TargetSym = partition_point(
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AbsoluteSymbols,
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[=](const std::tuple<uint64_t, StringRef, uint8_t> &RHS) {
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return Target < std::get<0>(RHS);
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[=](const std::tuple<uint64_t, StringRef, uint8_t> &O) {
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return std::get<0>(O) <= Target;
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});
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}
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if (TargetSym != TargetSectionSymbols->begin()) {
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@ -469,13 +469,14 @@ TEST(STLExtrasTest, to_address) {
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EXPECT_EQ(V1, to_address(V3));
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}
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TEST(STLExtrasTest, bsearch) {
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TEST(STLExtrasTest, partition_point) {
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std::vector<int> V = {1, 3, 5, 7, 9};
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// Range version.
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EXPECT_EQ(V.begin() + 3, bsearch(V, [](unsigned X) { return X >= 7; }));
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EXPECT_EQ(V.begin(), bsearch(V, [](unsigned X) { return X >= 1; }));
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EXPECT_EQ(V.end(), bsearch(V, [](unsigned X) { return X >= 50; }));
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EXPECT_EQ(V.begin() + 3,
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partition_point(V, [](unsigned X) { return X < 7; }));
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EXPECT_EQ(V.begin(), partition_point(V, [](unsigned X) { return X < 1; }));
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EXPECT_EQ(V.end(), partition_point(V, [](unsigned X) { return X < 50; }));
|
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}
|
||||
|
||||
} // namespace
|
||||
|
|
Loading…
Reference in New Issue