-------------------------------------------------------------------------------- I1 cache: 65536 B, 64 B, 4-way associative D1 cache: 32768 B, 64 B, 8-way associative LL cache: 67108864 B, 64 B, 64-way associative Command: /usr/home/liquid/.rustup/toolchains/w-profiling/bin/rustc --crate-name nix --edition=2018 src/lib.rs --error-format=json --json=diagnostic-rendered-ansi,artifacts,future-incompat --crate-type lib --emit=dep-info,metadata,link -C opt-level=3 -C embed-bitcode=no -C metadata=df277144fcc51ae0 -C extra-filename=-df277144fcc51ae0 --out-dir /usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps -L dependency=/usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps --extern bitflags=/usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps/libbitflags-923cad7af34a271a.rmeta --extern cfg_if=/usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps/libcfg_if-19e7cc0b6f708960.rmeta --extern libc=/usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps/liblibc-0a7e2b6e6f69d29f.rmeta --extern memoffset=/usr/home/liquid/tmp/.tmpCv6lM8/target/release/deps/libmemoffset-49177b1c5b547b08.rmeta -Adeprecated -Aunknown-lints -Zincremental-verify-ich Data file: results/cgout-w-profiling-nix-0.23.1-Opt-Full Events recorded: Ir Events shown: Ir Event sort order: Ir Thresholds: 0.1 Include dirs: User annotated: Auto-annotation: on -------------------------------------------------------------------------------- Ir -------------------------------------------------------------------------------- 32,149,862,490 (100.0%) PROGRAM TOTALS -------------------------------------------------------------------------------- Ir file:function -------------------------------------------------------------------------------- 1,238,375,784 ( 3.85%) ./malloc/malloc.c:_int_free 988,978,720 ( 3.08%) ./malloc/malloc.c:_int_malloc 745,852,159 ( 2.32%) ./malloc/malloc.c:malloc 676,431,936 ( 2.10%) ???:llvm::FPPassManager::runOnFunction(llvm::Function&) 393,389,448 ( 1.22%) ./malloc/malloc.c:free 348,713,312 ( 1.08%) ???:llvm::SelectionDAG::Combine(llvm::CombineLevel, llvm::AAResults*, llvm::CodeGenOpt::Level) 303,778,952 ( 0.94%) ???:llvm::InstCombinerImpl::run() 277,480,138 ( 0.86%) ???:llvm::AnalysisManager::getResultImpl(llvm::AnalysisKey*, llvm::Function&) 277,362,727 ( 0.86%) ./string/../sysdeps/x86_64/multiarch/memmove-vec-unaligned-erms.S:__memcpy_avx_unaligned_erms 250,181,822 ( 0.78%) ???:llvm::AnalysisManager::invalidate(llvm::Function&, llvm::PreservedAnalyses const&) 222,985,982 ( 0.69%) ???:combineInstructionsOverFunction(llvm::Function&, llvm::InstCombineWorklist&, llvm::AAResults*, llvm::AssumptionCache&, llvm::TargetLibraryInfo&, llvm::TargetTransformInfo&, llvm::DominatorTree&, llvm::OptimizationRemarkEmitter&, llvm::BlockFrequencyInfo*, llvm::ProfileSummaryInfo*, unsigned int, llvm::LoopInfo*) 197,376,748 ( 0.61%) ???:llvm::BitstreamCursor::readRecord(unsigned int, llvm::SmallVectorImpl&, llvm::StringRef*) 176,536,963 ( 0.55%) ???:llvm::TargetLibraryInfoImpl::getLibFunc(llvm::Function const&, llvm::LibFunc&) const 167,899,106 ( 0.52%) ???:llvm::AttributeList::addAttributes(llvm::LLVMContext&, unsigned int, llvm::AttrBuilder const&) const 167,092,958 ( 0.52%) ???:llvm::DomTreeBuilder::SemiNCAInfo >::CalculateFromScratch(llvm::DominatorTreeBase&, llvm::DomTreeBuilder::SemiNCAInfo >::BatchUpdateInfo*) 164,028,238 ( 0.51%) ./string/../sysdeps/x86_64/multiarch/memcmp-avx2-movbe.S:__memcmp_avx2_movbe 154,923,667 ( 0.48%) ???:llvm::LiveVariables::runOnBlock(llvm::MachineBasicBlock*, unsigned int) 151,374,548 ( 0.47%) ./malloc/malloc.c:malloc_consolidate 147,887,146 ( 0.46%) ???:runCVP(llvm::Module&) [clone .llvm.11785992503873176614] 143,888,905 ( 0.45%) ???:llvm::MachineInstr::isIdenticalTo(llvm::MachineInstr const&, llvm::MachineInstr::MICheckType) const 121,977,440 ( 0.38%) ???:llvm::removeUnreachableBlocks(llvm::Function&, llvm::DomTreeUpdater*, llvm::MemorySSAUpdater*) 117,328,402 ( 0.36%) ???:llvm::ValueHandleBase::AddToUseList() 110,300,933 ( 0.34%) ???:computeKnownBits(llvm::Value const*, llvm::KnownBits&, unsigned int, (anonymous namespace)::Query const&) [clone .llvm.15619146473165121143] 104,087,703 ( 0.32%) ???:llvm::InstCombinerImpl::visitCallInst(llvm::CallInst&) 103,930,365 ( 0.32%) ???:llvm::AttributeList::get(llvm::LLVMContext&, llvm::ArrayRef) 102,139,898 ( 0.32%) ???:llvm::PMDataManager::verifyPreservedAnalysis(llvm::Pass*) 101,407,780 ( 0.32%) ./malloc/malloc.c:unlink_chunk.constprop.0 99,478,393 ( 0.31%) ???:bool llvm::DenseMapBase*, llvm::DenseMapInfo<(anonymous namespace)::SimpleValue>, llvm::detail::DenseMapPair<(anonymous namespace)::SimpleValue, llvm::ScopedHashTableVal<(anonymous namespace)::SimpleValue, llvm::Value*>*> >, (anonymous namespace)::SimpleValue, llvm::ScopedHashTableVal<(anonymous namespace)::SimpleValue, llvm::Value*>*, llvm::DenseMapInfo<(anonymous namespace)::SimpleValue>, llvm::detail::DenseMapPair<(anonymous namespace)::SimpleValue, llvm::ScopedHashTableVal<(anonymous namespace)::SimpleValue, llvm::Value*>*> >::LookupBucketFor<(anonymous namespace)::SimpleValue>((anonymous namespace)::SimpleValue const&, llvm::detail::DenseMapPair<(anonymous namespace)::SimpleValue, llvm::ScopedHashTableVal<(anonymous namespace)::SimpleValue, llvm::Value*>*> const*&) const 96,377,962 ( 0.30%) ./string/../sysdeps/x86_64/multiarch/memset-vec-unaligned-erms.S:__memset_avx2_erms 95,469,459 ( 0.30%) ???:(anonymous namespace)::MachineCopyPropagation::runOnMachineFunction(llvm::MachineFunction&) 92,858,734 ( 0.29%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_parse/src/parser/mod.rs:::next 91,173,476 ( 0.28%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_expand/src/mbe/macro_parser.rs:rustc_expand::mbe::macro_parser::parse_tt 90,733,174 ( 0.28%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_parse/src/parser/mod.rs:::bump 85,062,866 ( 0.26%) ???:(anonymous namespace)::LazyValueInfoImpl::solve() [clone .llvm.4316243980339171764] 84,383,365 ( 0.26%) /tmp/gcc-build/x86_64-unknown-linux-gnu/libstdc++-v3/libsupc++/../../../../gcc-5.5.0/libstdc++-v3/libsupc++/new_op.cc:operator new(unsigned long) 84,015,596 ( 0.26%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/num/uint_macros.rs:::short_write_process_buffer:: 83,447,446 ( 0.26%) ???:llvm::coro::declaresIntrinsics(llvm::Module const&, std::initializer_list) 82,355,588 ( 0.26%) ???:llvm::DataLayout::getAlignment(llvm::Type*, bool) const 80,968,876 ( 0.25%) ???:llvm::InstCombinerImpl::SimplifyDemandedUseBits(llvm::Value*, llvm::APInt, llvm::KnownBits&, unsigned int, llvm::Instruction*) 80,868,817 ( 0.25%) ???:llvm::DomTreeBuilder::SemiNCAInfo >::runSemiNCA(llvm::DominatorTreeBase&, unsigned int) 80,310,342 ( 0.25%) ???:llvm::LiveVariables::HandleRegMask(llvm::MachineOperand const&) 76,843,544 ( 0.24%) ???:llvm::isNonEscapingLocalObject(llvm::Value const*, llvm::SmallDenseMap, llvm::detail::DenseMapPair >*) 76,304,666 ( 0.24%) ???:computeKnownBitsFromOperator(llvm::Operator const*, llvm::APInt const&, llvm::KnownBits&, unsigned int, (anonymous namespace)::Query const&) 76,277,019 ( 0.24%) ./string/../sysdeps/x86_64/multiarch/strcmp-avx2.S:__strncmp_avx2 75,060,805 ( 0.23%) ???:llvm::FindFunctionBackedges(llvm::Function const&, llvm::SmallVectorImpl >&) 74,459,445 ( 0.23%) ???:llvm::simplifyCFG(llvm::BasicBlock*, llvm::TargetTransformInfo const&, llvm::DomTreeUpdater*, llvm::SimplifyCFGOptions const&, llvm::ArrayRef) 74,217,125 ( 0.23%) ???:llvm::MD5::final(llvm::MD5::MD5Result&) 73,734,389 ( 0.23%) ???:llvm::SelectionDAGISel::SelectCodeCommon(llvm::SDNode*, unsigned char const*, unsigned int) 73,364,168 ( 0.23%) ???:llvm::AttributeSetNode::get(llvm::LLVMContext&, llvm::AttrBuilder const&) 73,239,846 ( 0.23%) ???:llvm::InstCombinerImpl::visitICmpInst(llvm::ICmpInst&) 72,765,229 ( 0.23%) ???:computeKnownBits(llvm::Value const*, llvm::APInt const&, llvm::KnownBits&, unsigned int, (anonymous namespace)::Query const&) 70,183,267 ( 0.22%) ???:llvm::BasicAAResult::alias(llvm::MemoryLocation const&, llvm::MemoryLocation const&, llvm::AAQueryInfo&) 68,844,213 ( 0.21%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/smallvec-1.7.0/src/lib.rs:rustc_expand::mbe::macro_parser::parse_tt 68,394,947 ( 0.21%) ???:llvm::DataLayout::getTypeSizeInBits(llvm::Type*) const 67,901,193 ( 0.21%) ???:llvm::detail::PassModel>, llvm::PreservedAnalyses, llvm::AnalysisManager>::run(llvm::Function&, llvm::AnalysisManager&) 67,121,189 ( 0.21%) ???:SimplifyICmpInst(unsigned int, llvm::Value*, llvm::Value*, llvm::SimplifyQuery const&, unsigned int) [clone .llvm.1619516508949622737] 66,753,797 ( 0.21%) ???:llvm::SimplifyInstruction(llvm::Instruction*, llvm::SimplifyQuery const&, llvm::OptimizationRemarkEmitter*) 66,748,449 ( 0.21%) ???:llvm::BranchFolder::TryTailMergeBlocks(llvm::MachineBasicBlock*, llvm::MachineBasicBlock*, unsigned int) 65,882,595 ( 0.20%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:, (), core::hash::BuildHasherDefault>>::from_hash::>::{closure#0}> 65,453,500 ( 0.20%) ./malloc/malloc.c:realloc 64,966,137 ( 0.20%) ???:llvm::InlineFunction(llvm::CallBase&, llvm::InlineFunctionInfo&, llvm::AAResults*, bool, llvm::Function*) 64,683,245 ( 0.20%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_ast/src/tokenstream.rs:::next_with_spacing 63,203,606 ( 0.20%) ./malloc/malloc.c:calloc 61,987,579 ( 0.19%) ???:(anonymous namespace)::DeadMachineInstructionElim::eliminateDeadMI(llvm::MachineFunction&) 59,969,016 ( 0.19%) ???:(anonymous namespace)::LazyValueInfoImpl::getEdgeValue(llvm::Value*, llvm::BasicBlock*, llvm::BasicBlock*, llvm::Instruction*) [clone .llvm.4316243980339171764] 59,871,920 ( 0.19%) ???:(anonymous namespace)::DAGCombiner::combine(llvm::SDNode*) 59,105,776 ( 0.18%) ???:(anonymous namespace)::EarlyCSE::run() [clone .llvm.7062997131228810369] 58,499,703 ( 0.18%) ???:llvm::LivePhysRegs::stepBackward(llvm::MachineInstr const&) 57,794,938 ( 0.18%) ???:llvm::ScheduleDAGSDNodes::BuildSchedUnits() 56,756,200 ( 0.18%) ???:llvm::TargetLoweringBase::getTypeConversion(llvm::LLVMContext&, llvm::EVT) const 56,358,288 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_data_structures/src/sip128.rs:::short_write_process_buffer:: 55,770,922 ( 0.17%) ???:(anonymous namespace)::SimplifyCFGOpt::simplifyCondBranch(llvm::BranchInst*, llvm::IRBuilder&) 55,471,075 ( 0.17%) ???:llvm::DomTreeBuilder::SemiNCAInfo >::CalculateFromScratch(llvm::DominatorTreeBase&, llvm::DomTreeBuilder::SemiNCAInfo >::BatchUpdateInfo*) 54,495,277 ( 0.17%) ???:isKnownNonZero(llvm::Value const*, llvm::APInt const&, unsigned int, (anonymous namespace)::Query const&) [clone .llvm.15619146473165121143] 53,917,136 ( 0.17%) ???:llvm::DomTreeBuilder::SemiNCAInfo >::FindRoots(llvm::DominatorTreeBase const&, llvm::DomTreeBuilder::SemiNCAInfo >::BatchUpdateInfo*) 53,882,298 ( 0.17%) /usr/home/liquid/rust/worktree-benchmarking/library/std/src/sys/unix/alloc.rs:__rdl_alloc 51,636,634 ( 0.16%) ./string/../sysdeps/x86_64/multiarch/memset-vec-unaligned-erms.S:__memset_avx2_unaligned_erms 49,254,540 ( 0.15%) ???:(anonymous namespace)::BitcodeReader::parseModule(unsigned long, bool, llvm::function_ref, std::allocator > > (llvm::StringRef)>) 48,992,686 ( 0.15%) ???:llvm::MemorySSA::buildMemorySSA(llvm::BatchAAResults&) 48,831,421 ( 0.15%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>>::from_key_hashed_nocheck:: 47,804,535 ( 0.15%) ???:llvm::MachineInstr::addOperand(llvm::MachineFunction&, llvm::MachineOperand const&) 45,404,647 ( 0.14%) ./malloc/malloc.c:_int_realloc 44,569,842 ( 0.14%) ???:computeKnownBitsFromAssume(llvm::Value const*, llvm::KnownBits&, unsigned int, (anonymous namespace)::Query const&) 44,567,515 ( 0.14%) ???:llvm::SmallPtrSetImplBase::insert_imp_big(void const*) 44,258,061 ( 0.14%) ./string/../sysdeps/x86_64/multiarch/strlen-avx2.S:__strlen_avx2 44,042,149 ( 0.14%) ???:llvm::SROA::runOnAlloca(llvm::AllocaInst&) 43,824,954 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/caching_source_map_view.rs:::span_data_to_lines_and_cols 42,629,517 ( 0.13%) ???:llvm::AttributeList::addAttribute(llvm::LLVMContext&, unsigned int, llvm::Attribute::AttrKind) const 41,979,941 ( 0.13%) ???:llvm::PMDataManager::removeNotPreservedAnalysis(llvm::Pass*) 41,620,203 ( 0.13%) ???:??? 41,233,525 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_parse/src/parser/mod.rs:::bump_with 39,935,631 ( 0.12%) ???:llvm::BlockFrequencyInfoImpl::initializeRPOT() 39,432,798 ( 0.12%) ???:(anonymous namespace)::eliminateDeadStores(llvm::Function&, llvm::AAResults&, llvm::MemorySSA&, llvm::DominatorTree&, llvm::PostDominatorTree&, llvm::TargetLibraryInfo const&, llvm::LoopInfo const&) [clone .llvm.5769264623867638418] 39,082,133 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/mod.rs:::attrs 38,037,733 ( 0.12%) ???:(anonymous namespace)::AggressiveDeadCodeElimination::performDeadCodeElimination() 38,010,877 ( 0.12%) ???:llvm::SCCPInstVisitor::visitPHINode(llvm::PHINode&) 38,000,400 ( 0.12%) ???:llvm::DAGTypeLegalizer::run() 37,898,856 ( 0.12%) ???:llvm::PopulateLoopsDFS::traverse(llvm::BasicBlock*) 37,618,624 ( 0.12%) ???:llvm::TryToSimplifyUncondBranchFromEmptyBlock(llvm::BasicBlock*, llvm::DomTreeUpdater*) 37,558,336 ( 0.12%) ???:llvm::SelectionDAG::Legalize() 37,432,021 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::shallow_resolve_ty 36,807,099 ( 0.11%) ???:(anonymous namespace)::SelectionDAGLegalize::LegalizeOp(llvm::SDNode*) [clone .llvm.8386621111310650999] 36,565,726 ( 0.11%) ???:llvm::BlockFrequencyInfoImpl::tryToComputeMassInFunction() 36,550,747 ( 0.11%) ???:(anonymous namespace)::CVPLatticeFunc::ComputeInstructionState(llvm::Instruction&, llvm::DenseMap, llvm::PointerIntPairInfo > >, (anonymous namespace)::CVPLatticeVal, llvm::DenseMapInfo, llvm::PointerIntPairInfo > > >, llvm::detail::DenseMapPair, llvm::PointerIntPairInfo > >, (anonymous namespace)::CVPLatticeVal> >&, llvm::SparseSolver, llvm::PointerIntPairInfo > >, (anonymous namespace)::CVPLatticeVal, llvm::LatticeKeyInfo, llvm::PointerIntPairInfo > > > >&) 36,535,302 ( 0.11%) ???:llvm::LoopInfoBase::analyze(llvm::DominatorTreeBase const&) 35,862,139 ( 0.11%) ???:(anonymous namespace)::Verifier::visitInstruction(llvm::Instruction&) 35,160,629 ( 0.11%) ???:llvm::BlockFrequencyInfoImplBase::finalizeMetrics() 35,042,656 ( 0.11%) ???:llvm::InstrEmitter::EmitMachineNode(llvm::SDNode*, bool, bool, llvm::DenseMap, llvm::detail::DenseMapPair >&) 33,833,739 ( 0.11%) ???:(anonymous namespace)::LazyValueInfoImpl::getValueInBlock(llvm::Value*, llvm::BasicBlock*, llvm::Instruction*) [clone .llvm.4316243980339171764] 33,500,759 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:>::hash_stable 33,430,484 ( 0.10%) ???:llvm::ReassociatePass::run(llvm::Function&, llvm::AnalysisManager&) 33,334,203 ( 0.10%) ???:llvm::JumpThreadingPass::processBlock(llvm::BasicBlock*) 32,859,739 ( 0.10%) ???:llvm::ConstantFoldTerminator(llvm::BasicBlock*, bool, llvm::TargetLibraryInfo const*, llvm::DomTreeUpdater*) 32,787,845 ( 0.10%) ???:llvm::FoldingSetBase::FindNodeOrInsertPos(llvm::FoldingSetNodeID const&, void*&, llvm::FoldingSetBase::FoldingSetInfo const&) 32,676,651 ( 0.10%) ???:llvm::DemandedBits::isInstructionDead(llvm::Instruction*) 32,420,419 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_ast/src/token.rs:::clone 32,275,465 ( 0.10%) ???:llvm::X86TargetMachine::getTargetTransformInfo(llvm::Function const&) 32,215,783 ( 0.10%) ???:llvm::SelectionDAG::MorphNodeTo(llvm::SDNode*, unsigned int, llvm::SDVTList, llvm::ArrayRef) 32,186,634 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs:::eq 32,164,730 ( 0.10%) ???:llvm::Value::~Value() -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs -------------------------------------------------------------------------------- Ir -- line 108 ---------------------------------------- . suppress_errors: bool, . }, . } . . impl RegionckMode { . /// Indicates that the MIR borrowck will repeat these region . /// checks, so we should ignore errors if NLL is (unconditionally) . /// enabled. 6,403 ( 0.00%) pub fn for_item_body(tcx: TyCtxt<'_>) -> Self { . // FIXME(Centril): Once we actually remove `::Migrate` also make . // this always `true` and then proceed to eliminate the dead code. 6,403 ( 0.00%) match tcx.borrowck_mode() { . // If we're on Migrate mode, report AST region errors . BorrowckMode::Migrate => RegionckMode::Erase { suppress_errors: false }, . . // If we're on MIR, don't report AST region errors as they should be reported by NLL . BorrowckMode::Mir => RegionckMode::Erase { suppress_errors: true }, . } 12,806 ( 0.00%) } . } . . /// This type contains all the things within `InferCtxt` that sit within a . /// `RefCell` and are involved with taking/rolling back snapshots. Snapshot . /// operations are hot enough that we want only one call to `borrow_mut` per . /// call to `start_snapshot` and `rollback_to`. . pub struct InferCtxtInner<'tcx> { . /// Cache for projections. This cache is snapshotted along with the infcx. -- line 134 ---------------------------------------- -- line 202 ---------------------------------------- . /// type instantiations (`ty::Infer`) to the actual opaque . /// type (`ty::Opaque`). Used during fallback to map unconstrained . /// opaque type inference variables to their corresponding . /// opaque type. . pub opaque_types_vars: FxHashMap, Ty<'tcx>>, . } . . impl<'tcx> InferCtxtInner<'tcx> { 528,680 ( 0.00%) fn new() -> InferCtxtInner<'tcx> { 3,595,024 ( 0.01%) InferCtxtInner { . projection_cache: Default::default(), . type_variable_storage: type_variable::TypeVariableStorage::new(), . undo_log: InferCtxtUndoLogs::default(), . const_unification_storage: ut::UnificationTableStorage::new(), . int_unification_storage: ut::UnificationTableStorage::new(), . float_unification_storage: ut::UnificationTableStorage::new(), 317,208 ( 0.00%) region_constraint_storage: Some(RegionConstraintStorage::new()), . region_obligations: vec![], . opaque_types: Default::default(), . opaque_types_vars: Default::default(), . } 634,416 ( 0.00%) } . . #[inline] . pub fn region_obligations(&self) -> &[(hir::HirId, RegionObligation<'tcx>)] { . &self.region_obligations . } . . #[inline] . pub fn projection_cache(&mut self) -> traits::ProjectionCache<'_, 'tcx> { 33,633 ( 0.00%) self.projection_cache.with_log(&mut self.undo_log) . } . . #[inline] . fn type_variables(&mut self) -> type_variable::TypeVariableTable<'_, 'tcx> { 3,231,149 ( 0.01%) self.type_variable_storage.with_log(&mut self.undo_log) . } . . #[inline] . fn int_unification_table( . &mut self, . ) -> ut::UnificationTable< . ut::InPlace< . ty::IntVid, . &mut ut::UnificationStorage, . &mut InferCtxtUndoLogs<'tcx>, . >, . > { 17,593 ( 0.00%) self.int_unification_storage.with_log(&mut self.undo_log) . } . . #[inline] . fn float_unification_table( . &mut self, . ) -> ut::UnificationTable< . ut::InPlace< . ty::FloatVid, -- line 258 ---------------------------------------- -- line 268 ---------------------------------------- . &mut self, . ) -> ut::UnificationTable< . ut::InPlace< . ty::ConstVid<'tcx>, . &mut ut::UnificationStorage>, . &mut InferCtxtUndoLogs<'tcx>, . >, . > { 13,512 ( 0.00%) self.const_unification_storage.with_log(&mut self.undo_log) . } . . #[inline] . pub fn unwrap_region_constraints(&mut self) -> RegionConstraintCollector<'_, 'tcx> { 330,340 ( 0.00%) self.region_constraint_storage . .as_mut() . .expect("region constraints already solved") 374,289 ( 0.00%) .with_log(&mut self.undo_log) . } . } . . pub struct InferCtxt<'a, 'tcx> { . pub tcx: TyCtxt<'tcx>, . . /// The `DefId` of the item in whose context we are performing inference or typeck. . /// It is used to check whether an opaque type use is a defining use. -- line 292 ---------------------------------------- -- line 361 ---------------------------------------- . /// item we are type-checking, and just consider those names as . /// part of the root universe. So this would only get incremented . /// when we enter into a higher-ranked (`for<..>`) type or trait . /// bound. . universe: Cell, . } . . /// See the `error_reporting` module for more details. 566,952 ( 0.00%) #[derive(Clone, Copy, Debug, PartialEq, Eq, TypeFoldable)] . pub enum ValuePairs<'tcx> { . Types(ExpectedFound>), . Regions(ExpectedFound>), . Consts(ExpectedFound<&'tcx ty::Const<'tcx>>), . TraitRefs(ExpectedFound>), . PolyTraitRefs(ExpectedFound>), . } . -- line 377 ---------------------------------------- -- line 383 ---------------------------------------- . pub struct TypeTrace<'tcx> { . cause: ObligationCause<'tcx>, . values: ValuePairs<'tcx>, . } . . /// The origin of a `r1 <= r2` constraint. . /// . /// See `error_reporting` module for more details 467,745 ( 0.00%) #[derive(Clone, Debug)] . pub enum SubregionOrigin<'tcx> { . /// Arose from a subtyping relation 25,270 ( 0.00%) Subtype(Box>), . . /// When casting `&'a T` to an `&'b Trait` object, . /// relating `'a` to `'b` . RelateObjectBound(Span), . . /// Some type parameter was instantiated with the given type, . /// and that type must outlive some region. 4,725 ( 0.00%) RelateParamBound(Span, Ty<'tcx>, Option), . . /// The given region parameter was instantiated with a region . /// that must outlive some other region. . RelateRegionParamBound(Span), . . /// Creating a pointer `b` to contents of another reference . Reborrow(Span), . . /// Creating a pointer `b` to contents of an upvar . ReborrowUpvar(Span, ty::UpvarId), . . /// Data with type `Ty<'tcx>` was borrowed 4,441 ( 0.00%) DataBorrowed(Ty<'tcx>, Span), . . /// (&'a &'b T) where a >= b 5,068 ( 0.00%) ReferenceOutlivesReferent(Ty<'tcx>, Span), . . /// Comparing the signature and requirements of an impl method against . /// the containing trait. . CompareImplMethodObligation { span: Span, impl_item_def_id: DefId, trait_item_def_id: DefId }, . . /// Comparing the signature and requirements of an impl associated type . /// against the containing trait . CompareImplTypeObligation { span: Span, impl_item_def_id: DefId, trait_item_def_id: DefId }, -- line 426 ---------------------------------------- -- line 554 ---------------------------------------- . defining_use_anchor: Option, . } . . pub trait TyCtxtInferExt<'tcx> { . fn infer_ctxt(self) -> InferCtxtBuilder<'tcx>; . } . . impl<'tcx> TyCtxtInferExt<'tcx> for TyCtxt<'tcx> { 105,736 ( 0.00%) fn infer_ctxt(self) -> InferCtxtBuilder<'tcx> { 317,208 ( 0.00%) InferCtxtBuilder { tcx: self, defining_use_anchor: None, fresh_typeck_results: None } 105,736 ( 0.00%) } . } . . impl<'tcx> InferCtxtBuilder<'tcx> { . /// Used only by `rustc_typeck` during body type-checking/inference, . /// will initialize `in_progress_typeck_results` with fresh `TypeckResults`. . /// Will also change the scope for opaque type defining use checks to the given owner. 140,895 ( 0.00%) pub fn with_fresh_in_progress_typeck_results(mut self, table_owner: LocalDefId) -> Self { 172,205 ( 0.00%) self.fresh_typeck_results = Some(RefCell::new(ty::TypeckResults::new(table_owner))); 78,275 ( 0.00%) self.with_opaque_type_inference(table_owner) 109,585 ( 0.00%) } . . /// Whenever the `InferCtxt` should be able to handle defining uses of opaque types, . /// you need to call this function. Otherwise the opaque type will be treated opaquely. . /// . /// It is only meant to be called in two places, for typeck . /// (via `with_fresh_in_progress_typeck_results`) and for the inference context used . /// in mir borrowck. 13,110 ( 0.00%) pub fn with_opaque_type_inference(mut self, defining_use_anchor: LocalDefId) -> Self { 6,555 ( 0.00%) self.defining_use_anchor = Some(defining_use_anchor); 44,420 ( 0.00%) self 19,665 ( 0.00%) } . . /// Given a canonical value `C` as a starting point, create an . /// inference context that contains each of the bound values . /// within instantiated as a fresh variable. The `f` closure is . /// invoked with the new infcx, along with the instantiated value . /// `V` and a substitution `S`. This substitution `S` maps from . /// the bound values in `C` to their instantiated values in `V` . /// (in other words, `S(C) = V`). 104,394 ( 0.00%) pub fn enter_with_canonical( . &mut self, . span: Span, . canonical: &Canonical<'tcx, T>, . f: impl for<'a> FnOnce(InferCtxt<'a, 'tcx>, T, CanonicalVarValues<'tcx>) -> R, . ) -> R . where . T: TypeFoldable<'tcx>, . { . self.enter(|infcx| { 152,454 ( 0.00%) let (value, subst) = 8,581 ( 0.00%) infcx.instantiate_canonical_with_fresh_inference_vars(span, canonical); 217,746 ( 0.00%) f(infcx, value, subst) . }) 113,685 ( 0.00%) } . 706,885 ( 0.00%) pub fn enter(&mut self, f: impl for<'a> FnOnce(InferCtxt<'a, 'tcx>) -> R) -> R { 291,207 ( 0.00%) let InferCtxtBuilder { tcx, defining_use_anchor, ref fresh_typeck_results } = *self; . let in_progress_typeck_results = fresh_typeck_results.as_ref(); 4,622,493 ( 0.01%) f(InferCtxt { . tcx, . defining_use_anchor, . in_progress_typeck_results, 105,736 ( 0.00%) inner: RefCell::new(InferCtxtInner::new()), . lexical_region_resolutions: RefCell::new(None), . selection_cache: Default::default(), . evaluation_cache: Default::default(), . reported_trait_errors: Default::default(), . reported_closure_mismatch: Default::default(), . tainted_by_errors_flag: Cell::new(false), 105,736 ( 0.00%) err_count_on_creation: tcx.sess.err_count(), . in_snapshot: Cell::new(false), . skip_leak_check: Cell::new(false), . universe: Cell::new(ty::UniverseIndex::ROOT), . }) 752,029 ( 0.00%) } . } . . impl<'tcx, T> InferOk<'tcx, T> { . pub fn unit(self) -> InferOk<'tcx, ()> { . InferOk { value: (), obligations: self.obligations } . } . . /// Extracts `value`, registering any obligations into `fulfill_cx`. . pub fn into_value_registering_obligations( . self, . infcx: &InferCtxt<'_, 'tcx>, . fulfill_cx: &mut dyn TraitEngine<'tcx>, . ) -> T { 5,845 ( 0.00%) let InferOk { value, obligations } = self; 22,490 ( 0.00%) for obligation in obligations { . fulfill_cx.register_predicate_obligation(infcx, obligation); . } . value . } . } . . impl<'tcx> InferOk<'tcx, ()> { 95,195 ( 0.00%) pub fn into_obligations(self) -> PredicateObligations<'tcx> { 380,780 ( 0.00%) self.obligations 95,195 ( 0.00%) } . } . . #[must_use = "once you start a snapshot, you should always consume it"] . pub struct CombinedSnapshot<'a, 'tcx> { . undo_snapshot: Snapshot<'tcx>, . region_constraints_snapshot: RegionSnapshot, . universe: ty::UniverseIndex, . was_in_snapshot: bool, -- line 662 ---------------------------------------- -- line 674 ---------------------------------------- . let canonical = self.canonicalize_query((a, b), &mut OriginalQueryValues::default()); . debug!("canonical consts: {:?}", &canonical.value); . . self.tcx.try_unify_abstract_consts(canonical.value) . } . . pub fn is_in_snapshot(&self) -> bool { . self.in_snapshot.get() 154,088 ( 0.00%) } . 834,072 ( 0.00%) pub fn freshen>(&self, t: T) -> T { 938,331 ( 0.00%) t.fold_with(&mut self.freshener()) 938,331 ( 0.00%) } . . /// Returns the origin of the type variable identified by `vid`, or `None` . /// if this is not a type variable. . /// . /// No attempt is made to resolve `ty`. 1,866 ( 0.00%) pub fn type_var_origin(&'a self, ty: Ty<'tcx>) -> Option { 3,732 ( 0.00%) match *ty.kind() { 898 ( 0.00%) ty::Infer(ty::TyVar(vid)) => { 3,592 ( 0.00%) Some(*self.inner.borrow_mut().type_variables().var_origin(vid)) . } 35 ( 0.00%) _ => None, . } 3,732 ( 0.00%) } . 104,259 ( 0.00%) pub fn freshener<'b>(&'b self) -> TypeFreshener<'b, 'tcx> { . freshen::TypeFreshener::new(self, false) 104,259 ( 0.00%) } . . /// Like `freshener`, but does not replace `'static` regions. 580,058 ( 0.00%) pub fn freshener_keep_static<'b>(&'b self) -> TypeFreshener<'b, 'tcx> { . freshen::TypeFreshener::new(self, true) 580,058 ( 0.00%) } . 26,544 ( 0.00%) pub fn unsolved_variables(&self) -> Vec> { 13,272 ( 0.00%) let mut inner = self.inner.borrow_mut(); 13,272 ( 0.00%) let mut vars: Vec> = inner . .type_variables() . .unsolved_variables() . .into_iter() 1,792 ( 0.00%) .map(|t| self.tcx.mk_ty_var(t)) . .collect(); . vars.extend( . (0..inner.int_unification_table().len()) . .map(|i| ty::IntVid { index: i as u32 }) 588 ( 0.00%) .filter(|&vid| inner.int_unification_table().probe_value(vid).is_none()) 35 ( 0.00%) .map(|v| self.tcx.mk_int_var(v)), . ); . vars.extend( . (0..inner.float_unification_table().len()) . .map(|i| ty::FloatVid { index: i as u32 }) . .filter(|&vid| inner.float_unification_table().probe_value(vid).is_none()) . .map(|v| self.tcx.mk_float_var(v)), . ); . vars 46,452 ( 0.00%) } . 249,111 ( 0.00%) fn combine_fields( . &'a self, . trace: TypeTrace<'tcx>, . param_env: ty::ParamEnv<'tcx>, . ) -> CombineFields<'a, 'tcx> { 997,656 ( 0.00%) CombineFields { . infcx: self, 2,494,140 ( 0.01%) trace, . cause: None, . param_env, . obligations: PredicateObligations::new(), . } 249,111 ( 0.00%) } . . /// Clear the "currently in a snapshot" flag, invoke the closure, . /// then restore the flag to its original value. This flag is a . /// debugging measure designed to detect cases where we start a . /// snapshot, create type variables, and register obligations . /// which may involve those type variables in the fulfillment cx, . /// potentially leaving "dangling type variables" behind. . /// In such cases, an assertion will fail when attempting to -- line 753 ---------------------------------------- -- line 755 ---------------------------------------- . /// better than grovelling through megabytes of `RUSTC_LOG` output. . /// . /// HOWEVER, in some cases the flag is unhelpful. In particular, we . /// sometimes create a "mini-fulfilment-cx" in which we enroll . /// obligations. As long as this fulfillment cx is fully drained . /// before we return, this is not a problem, as there won't be any . /// escaping obligations in the main cx. In those cases, you can . /// use this function. 136 ( 0.00%) pub fn save_and_restore_in_snapshot_flag(&self, func: F) -> R . where . F: FnOnce(&Self) -> R, . { . let flag = self.in_snapshot.replace(false); 63,447 ( 0.00%) let result = func(self); . self.in_snapshot.set(flag); . result 153 ( 0.00%) } . 1,298,374 ( 0.00%) fn start_snapshot(&self) -> CombinedSnapshot<'a, 'tcx> { . debug!("start_snapshot()"); . . let in_snapshot = self.in_snapshot.replace(true); . . let mut inner = self.inner.borrow_mut(); . 3,895,122 ( 0.01%) CombinedSnapshot { . undo_snapshot: inner.undo_log.start_snapshot(), . region_constraints_snapshot: inner.unwrap_region_constraints().start_snapshot(), . universe: self.universe(), . was_in_snapshot: in_snapshot, . // Borrow typeck results "in progress" (i.e., during typeck) . // to ban writes from within a snapshot to them. 649,187 ( 0.00%) _in_progress_typeck_results: self . .in_progress_typeck_results . .map(|typeck_results| typeck_results.borrow()), . } 2,596,748 ( 0.01%) } . 1,846,086 ( 0.01%) #[instrument(skip(self, snapshot), level = "debug")] . fn rollback_to(&self, cause: &str, snapshot: CombinedSnapshot<'a, 'tcx>) { . let CombinedSnapshot { 167,826 ( 0.00%) undo_snapshot, 167,826 ( 0.00%) region_constraints_snapshot, 167,826 ( 0.00%) universe, 167,826 ( 0.00%) was_in_snapshot, 335,652 ( 0.00%) _in_progress_typeck_results, . } = snapshot; . . self.in_snapshot.set(was_in_snapshot); . self.universe.set(universe); . . let mut inner = self.inner.borrow_mut(); 167,826 ( 0.00%) inner.rollback_to(undo_snapshot); . inner.unwrap_region_constraints().rollback_to(region_constraints_snapshot); . } . 7,220,415 ( 0.02%) #[instrument(skip(self, snapshot), level = "debug")] . fn commit_from(&self, snapshot: CombinedSnapshot<'a, 'tcx>) { . let CombinedSnapshot { 481,361 ( 0.00%) undo_snapshot, . region_constraints_snapshot: _, . universe: _, 481,361 ( 0.00%) was_in_snapshot, 962,722 ( 0.00%) _in_progress_typeck_results, . } = snapshot; . . self.in_snapshot.set(was_in_snapshot); . . self.inner.borrow_mut().commit(undo_snapshot); . } . . /// Executes `f` and commit the bindings. 222,446 ( 0.00%) #[instrument(skip(self, f), level = "debug")] 275,044 ( 0.00%) pub fn commit_unconditionally(&self, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 25,004 ( 0.00%) let snapshot = self.start_snapshot(); 88,641 ( 0.00%) let r = f(&snapshot); 175,028 ( 0.00%) self.commit_from(snapshot); 148,910 ( 0.00%) r . } . . /// Execute `f` and commit the bindings if closure `f` returns `Ok(_)`. 2,831,079 ( 0.01%) #[instrument(skip(self, f), level = "debug")] 3,496,169 ( 0.01%) pub fn commit_if_ok(&self, f: F) -> Result . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> Result, . { 578,766 ( 0.00%) let snapshot = self.start_snapshot(); 1,603,871 ( 0.00%) let r = f(&snapshot); . debug!("commit_if_ok() -- r.is_ok() = {}", r.is_ok()); 590,056 ( 0.00%) match r { . Ok(_) => { 3,233,069 ( 0.01%) self.commit_from(snapshot); . } . Err(_) => { 689,935 ( 0.00%) self.rollback_to("commit_if_ok -- error", snapshot); . } . } 3,279,059 ( 0.01%) r . } . . /// Execute `f` then unroll any bindings it creates. 638,898 ( 0.00%) #[instrument(skip(self, f), level = "debug")] 740,669 ( 0.00%) pub fn probe(&self, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 181,311 ( 0.00%) let snapshot = self.start_snapshot(); 278,985 ( 0.00%) let r = f(&snapshot); 892,747 ( 0.00%) self.rollback_to("probe", snapshot); 241,270 ( 0.00%) r . } . . /// If `should_skip` is true, then execute `f` then unroll any bindings it creates. 387 ( 0.00%) #[instrument(skip(self, f), level = "debug")] 516 ( 0.00%) pub fn probe_maybe_skip_leak_check(&self, should_skip: bool, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 86 ( 0.00%) let snapshot = self.start_snapshot(); 43 ( 0.00%) let was_skip_leak_check = self.skip_leak_check.get(); 86 ( 0.00%) if should_skip { . self.skip_leak_check.set(true); . } 172 ( 0.00%) let r = f(&snapshot); 387 ( 0.00%) self.rollback_to("probe", snapshot); . self.skip_leak_check.set(was_skip_leak_check); 516 ( 0.00%) r . } . . /// Scan the constraints produced since `snapshot` began and returns: . /// . /// - `None` -- if none of them involve "region outlives" constraints . /// - `Some(true)` -- if there are `'a: 'b` constraints where `'a` or `'b` is a placeholder . /// - `Some(false)` -- if there are `'a: 'b` constraints but none involve placeholders 52,502 ( 0.00%) pub fn region_constraints_added_in_snapshot( . &self, . snapshot: &CombinedSnapshot<'a, 'tcx>, . ) -> Option { 105,004 ( 0.00%) self.inner . .borrow_mut() . .unwrap_region_constraints() . .region_constraints_added_in_snapshot(&snapshot.undo_snapshot) 78,753 ( 0.00%) } . . pub fn add_given(&self, sub: ty::Region<'tcx>, sup: ty::RegionVid) { . self.inner.borrow_mut().unwrap_region_constraints().add_given(sub, sup); . } . 1,536 ( 0.00%) pub fn can_sub(&self, param_env: ty::ParamEnv<'tcx>, a: T, b: T) -> UnitResult<'tcx> . where . T: at::ToTrace<'tcx>, . { . let origin = &ObligationCause::dummy(); . self.probe(|_| { . self.at(origin, param_env).sub(a, b).map(|InferOk { obligations: _, .. }| { . // Ignore obligations, since we are unrolling . // everything anyway. . }) . }) 1,152 ( 0.00%) } . 84,012 ( 0.00%) pub fn can_eq(&self, param_env: ty::ParamEnv<'tcx>, a: T, b: T) -> UnitResult<'tcx> . where . T: at::ToTrace<'tcx>, . { . let origin = &ObligationCause::dummy(); . self.probe(|_| { . self.at(origin, param_env).eq(a, b).map(|InferOk { obligations: _, .. }| { . // Ignore obligations, since we are unrolling . // everything anyway. . }) . }) 63,009 ( 0.00%) } . 250,020 ( 0.00%) #[instrument(skip(self), level = "debug")] . pub fn sub_regions( . &self, . origin: SubregionOrigin<'tcx>, . a: ty::Region<'tcx>, . b: ty::Region<'tcx>, . ) { 225,018 ( 0.00%) self.inner.borrow_mut().unwrap_region_constraints().make_subregion(origin, a, b); . } . . /// Require that the region `r` be equal to one of the regions in . /// the set `regions`. . #[instrument(skip(self), level = "debug")] . pub fn member_constraint( . &self, . opaque_type_def_id: DefId, -- line 947 ---------------------------------------- -- line 969 ---------------------------------------- . /// to `subtype_predicate` -- that is, "coercing" `a` to `b` winds up . /// actually requiring `a <: b`. This is of course a valid coercion, . /// but it's not as flexible as `FnCtxt::coerce` would be. . /// . /// (We may refactor this in the future, but there are a number of . /// practical obstacles. Among other things, `FnCtxt::coerce` presently . /// records adjustments that are required on the HIR in order to perform . /// the coercion, and we don't currently have a way to manage that.) 129 ( 0.00%) pub fn coerce_predicate( . &self, . cause: &ObligationCause<'tcx>, . param_env: ty::ParamEnv<'tcx>, . predicate: ty::PolyCoercePredicate<'tcx>, . ) -> Option> { 86 ( 0.00%) let subtype_predicate = predicate.map_bound(|p| ty::SubtypePredicate { . a_is_expected: false, // when coercing from `a` to `b`, `b` is expected . a: p.a, . b: p.b, . }); 215 ( 0.00%) self.subtype_predicate(cause, param_env, subtype_predicate) 172 ( 0.00%) } . 42,024 ( 0.00%) pub fn subtype_predicate( . &self, . cause: &ObligationCause<'tcx>, . param_env: ty::ParamEnv<'tcx>, . predicate: ty::PolySubtypePredicate<'tcx>, . ) -> Option> { . // Check for two unresolved inference variables, in which case we can . // make no progress. This is partly a micro-optimization, but it's . // also an opportunity to "sub-unify" the variables. This isn't -- line 999 ---------------------------------------- -- line 1002 ---------------------------------------- . // earlier that they are sub-unified). . // . // Note that we can just skip the binders here because . // type variables can't (at present, at . // least) capture any of the things bound by this binder. . // . // Note that this sub here is not just for diagnostics - it has semantic . // effects as well. 3,502 ( 0.00%) let r_a = self.shallow_resolve(predicate.skip_binder().a); 3,502 ( 0.00%) let r_b = self.shallow_resolve(predicate.skip_binder().b); 26,624 ( 0.00%) match (r_a.kind(), r_b.kind()) { 6,484 ( 0.00%) (&ty::Infer(ty::TyVar(a_vid)), &ty::Infer(ty::TyVar(b_vid))) => { . self.inner.borrow_mut().type_variables().sub(a_vid, b_vid); 6,484 ( 0.00%) return None; . } . _ => {} . } . . Some(self.commit_if_ok(|_snapshot| { 260 ( 0.00%) let ty::SubtypePredicate { a_is_expected, a, b } = . self.replace_bound_vars_with_placeholders(predicate); . 520 ( 0.00%) let ok = self.at(cause, param_env).sub_exp(a_is_expected, a, b)?; . . Ok(ok.unit()) . })) 31,518 ( 0.00%) } . 62,664 ( 0.00%) pub fn region_outlives_predicate( . &self, . cause: &traits::ObligationCause<'tcx>, . predicate: ty::PolyRegionOutlivesPredicate<'tcx>, . ) -> UnitResult<'tcx> { . self.commit_if_ok(|_snapshot| { . let ty::OutlivesPredicate(r_a, r_b) = . self.replace_bound_vars_with_placeholders(predicate); . let origin = SubregionOrigin::from_obligation_cause(cause, || { . RelateRegionParamBound(cause.span) . }); 52,220 ( 0.00%) self.sub_regions(origin, r_b, r_a); // `b : a` ==> `a <= b` . Ok(()) . }) 41,776 ( 0.00%) } . . /// Number of type variables created so far. 233 ( 0.00%) pub fn num_ty_vars(&self) -> usize { . self.inner.borrow_mut().type_variables().num_vars() 466 ( 0.00%) } . 143,880 ( 0.00%) pub fn next_ty_var_id(&self, origin: TypeVariableOrigin) -> TyVid { 719,400 ( 0.00%) self.inner.borrow_mut().type_variables().new_var(self.universe(), origin) 215,820 ( 0.00%) } . 126,396 ( 0.00%) pub fn next_ty_var(&self, origin: TypeVariableOrigin) -> Ty<'tcx> { 494,846 ( 0.00%) self.tcx.mk_ty_var(self.next_ty_var_id(origin)) 189,594 ( 0.00%) } . 3,384 ( 0.00%) pub fn next_ty_var_in_universe( . &self, . origin: TypeVariableOrigin, . universe: ty::UniverseIndex, . ) -> Ty<'tcx> { 18,612 ( 0.00%) let vid = self.inner.borrow_mut().type_variables().new_var(universe, origin); 1,692 ( 0.00%) self.tcx.mk_ty_var(vid) 5,076 ( 0.00%) } . . pub fn next_const_var( . &self, . ty: Ty<'tcx>, . origin: ConstVariableOrigin, . ) -> &'tcx ty::Const<'tcx> { . self.tcx.mk_const_var(self.next_const_var_id(origin), ty) . } -- line 1074 ---------------------------------------- -- line 1090 ---------------------------------------- . pub fn next_const_var_id(&self, origin: ConstVariableOrigin) -> ConstVid<'tcx> { . self.inner.borrow_mut().const_unification_table().new_key(ConstVarValue { . origin, . val: ConstVariableValue::Unknown { universe: self.universe() }, . }) . } . . fn next_int_var_id(&self) -> IntVid { 1,050 ( 0.00%) self.inner.borrow_mut().int_unification_table().new_key(None) . } . 630 ( 0.00%) pub fn next_int_var(&self) -> Ty<'tcx> { . self.tcx.mk_int_var(self.next_int_var_id()) 840 ( 0.00%) } . . fn next_float_var_id(&self) -> FloatVid { . self.inner.borrow_mut().float_unification_table().new_key(None) . } . . pub fn next_float_var(&self) -> Ty<'tcx> { . self.tcx.mk_float_var(self.next_float_var_id()) . } . . /// Creates a fresh region variable with the next available index. . /// The variable will be created in the maximum universe created . /// thus far, allowing it to name any region created thus far. 45,364 ( 0.00%) pub fn next_region_var(&self, origin: RegionVariableOrigin) -> ty::Region<'tcx> { 859,421 ( 0.00%) self.next_region_var_in_universe(origin, self.universe()) 90,728 ( 0.00%) } . . /// Creates a fresh region variable with the next available index . /// in the given universe; typically, you can use . /// `next_region_var` and just use the maximal universe. 318,560 ( 0.00%) pub fn next_region_var_in_universe( . &self, . origin: RegionVariableOrigin, . universe: ty::UniverseIndex, . ) -> ty::Region<'tcx> { . let region_var = 2,070,640 ( 0.01%) self.inner.borrow_mut().unwrap_region_constraints().new_region_var(universe, origin); 796,400 ( 0.00%) self.tcx.mk_region(ty::ReVar(region_var)) 477,840 ( 0.00%) } . . /// Return the universe that the region `r` was created in. For . /// most regions (e.g., `'static`, named regions from the user, . /// etc) this is the root universe U0. For inference variables or . /// placeholders, however, it will return the universe which which . /// they are associated. 37,104 ( 0.00%) pub fn universe_of_region(&self, r: ty::Region<'tcx>) -> ty::UniverseIndex { . self.inner.borrow_mut().unwrap_region_constraints().universe(r) 55,656 ( 0.00%) } . . /// Number of region variables created so far. 52,744 ( 0.00%) pub fn num_region_vars(&self) -> usize { . self.inner.borrow_mut().unwrap_region_constraints().num_region_vars() 79,116 ( 0.00%) } . . /// Just a convenient wrapper of `next_region_var` for using during NLL. 73,635 ( 0.00%) pub fn next_nll_region_var(&self, origin: NllRegionVariableOrigin) -> ty::Region<'tcx> { . self.next_region_var(RegionVariableOrigin::Nll(origin)) 147,270 ( 0.00%) } . . /// Just a convenient wrapper of `next_region_var` for using during NLL. 328 ( 0.00%) pub fn next_nll_region_var_in_universe( . &self, . origin: NllRegionVariableOrigin, . universe: ty::UniverseIndex, . ) -> ty::Region<'tcx> { 2,464 ( 0.00%) self.next_region_var_in_universe(RegionVariableOrigin::Nll(origin), universe) 656 ( 0.00%) } . 521,048 ( 0.00%) pub fn var_for_def(&self, span: Span, param: &ty::GenericParamDef) -> GenericArg<'tcx> { 287,067 ( 0.00%) match param.kind { . GenericParamDefKind::Lifetime => { . // Create a region inference variable for the given . // region parameter definition. 19,294 ( 0.00%) self.next_region_var(EarlyBoundRegion(span, param.name)).into() . } . GenericParamDefKind::Type { .. } => { . // Create a type inference variable for the given . // type parameter definition. The substitutions are . // for actual parameters that may be referred to by . // the default of this type parameter, if it exists. . // e.g., `struct Foo(...);` when . // used in a path such as `Foo::::new()` will . // use an inference variable for `C` with `[T, U]` . // as the substitutions for the default, `(T, U)`. 181,728 ( 0.00%) let ty_var_id = self.inner.borrow_mut().type_variables().new_var( . self.universe(), 227,160 ( 0.00%) TypeVariableOrigin { . kind: TypeVariableOriginKind::TypeParameterDefinition( 45,432 ( 0.00%) param.name, 45,432 ( 0.00%) Some(param.def_id), . ), . span, . }, . ); . 45,432 ( 0.00%) self.tcx.mk_ty_var(ty_var_id).into() . } . GenericParamDefKind::Const { .. } => { . let origin = ConstVariableOrigin { . kind: ConstVariableOriginKind::ConstParameterDefinition( . param.name, . param.def_id, . ), . span, . }; . let const_var_id = 4,455 ( 0.00%) self.inner.borrow_mut().const_unification_table().new_key(ConstVarValue { . origin, . val: ConstVariableValue::Unknown { universe: self.universe() }, . }); 405 ( 0.00%) self.tcx.mk_const_var(const_var_id, self.tcx.type_of(param.def_id)).into() . } . } 3,240 ( 0.00%) } . . /// Given a set of generics defined on a type or impl, returns a substitution mapping each . /// type/region parameter to a fresh inference variable. 128,334 ( 0.00%) pub fn fresh_substs_for_item(&self, span: Span, def_id: DefId) -> SubstsRef<'tcx> { 551,813 ( 0.00%) InternalSubsts::for_item(self.tcx, def_id, |param, _| self.var_for_def(span, param)) 85,556 ( 0.00%) } . . /// Returns `true` if errors have been reported since this infcx was . /// created. This is sometimes used as a heuristic to skip . /// reporting errors that often occur as a result of earlier . /// errors, but where it's hard to be 100% sure (e.g., unresolved . /// inference variables, regionck errors). 14,672 ( 0.00%) pub fn is_tainted_by_errors(&self) -> bool { . debug!( . "is_tainted_by_errors(err_count={}, err_count_on_creation={}, \ . tainted_by_errors_flag={})", . self.tcx.sess.err_count(), . self.err_count_on_creation, . self.tainted_by_errors_flag.get() . ); . 346,648 ( 0.00%) if self.tcx.sess.err_count() > self.err_count_on_creation { . return true; // errors reported since this infcx was made . } . self.tainted_by_errors_flag.get() 22,008 ( 0.00%) } . . /// Set the "tainted by errors" flag to true. We call this when we . /// observe an error from a prior pass. . pub fn set_tainted_by_errors(&self) { . debug!("set_tainted_by_errors()"); . self.tainted_by_errors_flag.set(true) . } . . /// Process the region constraints and return any any errors that . /// result. After this, no more unification operations should be . /// done -- or the compiler will panic -- but it is legal to use . /// `resolve_vars_if_possible` as well as `fully_resolve`. 344,512 ( 0.00%) pub fn resolve_regions( . &self, . region_context: DefId, . outlives_env: &OutlivesEnvironment<'tcx>, . mode: RegionckMode, . ) -> Vec> { 935,104 ( 0.00%) let (var_infos, data) = { . let mut inner = self.inner.borrow_mut(); . let inner = &mut *inner; 49,216 ( 0.00%) assert!( 147,648 ( 0.00%) self.is_tainted_by_errors() || inner.region_obligations.is_empty(), . "region_obligations not empty: {:#?}", . inner.region_obligations . ); . inner . .region_constraint_storage . .take() . .expect("regions already resolved") . .with_log(&mut inner.undo_log) . .into_infos_and_data() 49,216 ( 0.00%) }; . . let region_rels = 49,216 ( 0.00%) &RegionRelations::new(self.tcx, region_context, outlives_env.free_region_map()); . 442,944 ( 0.00%) let (lexical_region_resolutions, errors) = 1,181,184 ( 0.00%) lexical_region_resolve::resolve(region_rels, var_infos, data, mode); . 196,864 ( 0.00%) let old_value = self.lexical_region_resolutions.replace(Some(lexical_region_resolutions)); 49,216 ( 0.00%) assert!(old_value.is_none()); . . errors 442,944 ( 0.00%) } . . /// Process the region constraints and report any errors that . /// result. After this, no more unification operations should be . /// done -- or the compiler will panic -- but it is legal to use . /// `resolve_vars_if_possible` as well as `fully_resolve`. 492,160 ( 0.00%) pub fn resolve_regions_and_report_errors( . &self, . region_context: DefId, . outlives_env: &OutlivesEnvironment<'tcx>, . mode: RegionckMode, . ) { 98,432 ( 0.00%) let errors = self.resolve_regions(region_context, outlives_env, mode); . 147,648 ( 0.00%) if !self.is_tainted_by_errors() { . // As a heuristic, just skip reporting region errors . // altogether if other errors have been reported while . // this infcx was in use. This is totally hokey but . // otherwise we have a hard time separating legit region . // errors from silly ones. 98,432 ( 0.00%) self.report_region_errors(&errors); . } 246,080 ( 0.00%) } . . /// Obtains (and clears) the current set of region . /// constraints. The inference context is still usable: further . /// unifications will simply add new constraints. . /// . /// This method is not meant to be used with normal lexical region . /// resolution. Rather, it is used in the NLL mode as a kind of . /// interim hack: basically we run normal type-check and generate -- line 1307 ---------------------------------------- -- line 1319 ---------------------------------------- . } . . /// Gives temporary access to the region constraint data. . pub fn with_region_constraints( . &self, . op: impl FnOnce(&RegionConstraintData<'tcx>) -> R, . ) -> R { . let mut inner = self.inner.borrow_mut(); 41,980 ( 0.00%) op(inner.unwrap_region_constraints().data()) . } . . pub fn region_var_origin(&self, vid: ty::RegionVid) -> RegionVariableOrigin { . let mut inner = self.inner.borrow_mut(); . let inner = &mut *inner; . inner . .region_constraint_storage . .as_mut() -- line 1335 ---------------------------------------- -- line 1338 ---------------------------------------- . .var_origin(vid) . } . . /// Takes ownership of the list of variable regions. This implies . /// that all the region constraints have already been taken, and . /// hence that `resolve_regions_and_report_errors` can never be . /// called. This is used only during NLL processing to "hand off" ownership . /// of the set of region variables into the NLL region context. 32,775 ( 0.00%) pub fn take_region_var_origins(&self) -> VarInfos { . let mut inner = self.inner.borrow_mut(); 124,545 ( 0.00%) let (var_infos, data) = inner . .region_constraint_storage . .take() . .expect("regions already resolved") . .with_log(&mut inner.undo_log) 6,555 ( 0.00%) .into_infos_and_data(); 6,555 ( 0.00%) assert!(data.is_empty()); . var_infos 52,440 ( 0.00%) } . . pub fn ty_to_string(&self, t: Ty<'tcx>) -> String { . self.resolve_vars_if_possible(t).to_string() . } . . /// If `TyVar(vid)` resolves to a type, return that type. Else, return the . /// universe index of `TyVar(vid)`. 42,350 ( 0.00%) pub fn probe_ty_var(&self, vid: TyVid) -> Result, ty::UniverseIndex> { . use self::type_variable::TypeVariableValue; . 127,050 ( 0.00%) match self.inner.borrow_mut().type_variables().probe(vid) { . TypeVariableValue::Known { value } => Ok(value), . TypeVariableValue::Unknown { universe } => Err(universe), . } 148,225 ( 0.00%) } . . /// Resolve any type variables found in `value` -- but only one . /// level. So, if the variable `?X` is bound to some type . /// `Foo`, then this would return `Foo` (but `?Y` may . /// itself be bound to a type). . /// . /// Useful when you only need to inspect the outermost level of . /// the type and don't care about nested types (or perhaps you . /// will be resolving them as well, e.g. in a loop). . pub fn shallow_resolve(&self, value: T) -> T . where . T: TypeFoldable<'tcx>, . { 1,062,364 ( 0.00%) value.fold_with(&mut ShallowResolver { infcx: self }) . } . 83,394 ( 0.00%) pub fn root_var(&self, var: ty::TyVid) -> ty::TyVid { . self.inner.borrow_mut().type_variables().root_var(var) 125,091 ( 0.00%) } . . /// Where possible, replaces type/const variables in . /// `value` with their final value. Note that region variables . /// are unaffected. If a type/const variable has not been unified, it . /// is left as is. This is an idempotent operation that does . /// not affect inference state in any way and so you can do it . /// at will. 6,344 ( 0.00%) pub fn resolve_vars_if_possible(&self, value: T) -> T . where . T: TypeFoldable<'tcx>, . { 1,027,808 ( 0.00%) if !value.needs_infer() { 960,937 ( 0.00%) return value; // Avoid duplicated subst-folding. . } 889,214 ( 0.00%) let mut r = resolve::OpportunisticVarResolver::new(self); 1,196,282 ( 0.00%) value.fold_with(&mut r) 7,629 ( 0.00%) } . . /// Returns the first unresolved variable contained in `T`. In the . /// process of visiting `T`, this will resolve (where possible) . /// type variables in `T`, but it never constructs the final, . /// resolved type, so it's more efficient than . /// `resolve_vars_if_possible()`. . pub fn unresolved_type_vars(&self, value: &T) -> Option<(Ty<'tcx>, Option)> . where -- line 1415 ---------------------------------------- -- line 1490 ---------------------------------------- . expected: &'tcx ty::Const<'tcx>, . actual: &'tcx ty::Const<'tcx>, . err: TypeError<'tcx>, . ) -> DiagnosticBuilder<'tcx> { . let trace = TypeTrace::consts(cause, true, expected, actual); . self.report_and_explain_type_error(trace, &err) . } . 116,874 ( 0.00%) pub fn replace_bound_vars_with_fresh_vars( . &self, . span: Span, . lbrct: LateBoundRegionConversionTime, . value: ty::Binder<'tcx, T>, . ) -> (T, BTreeMap>) . where . T: TypeFoldable<'tcx>, . { . let fld_r = 518,794 ( 0.00%) |br: ty::BoundRegion| self.next_region_var(LateBoundRegion(span, br.kind, lbrct)); . let fld_t = |_| { . self.next_ty_var(TypeVariableOrigin { . kind: TypeVariableOriginKind::MiscVariable, . span, . }) . }; . let fld_c = |_, ty| { . self.next_const_var( . ty, . ConstVariableOrigin { kind: ConstVariableOriginKind::MiscVariable, span }, . ) . }; 666,292 ( 0.00%) self.tcx.replace_bound_vars(value, fld_r, fld_t, fld_c) 77,916 ( 0.00%) } . . /// See the [`region_constraints::RegionConstraintCollector::verify_generic_bound`] method. 13,248 ( 0.00%) pub fn verify_generic_bound( . &self, . origin: SubregionOrigin<'tcx>, . kind: GenericKind<'tcx>, . a: ty::Region<'tcx>, . bound: VerifyBound<'tcx>, . ) { . debug!("verify_generic_bound({:?}, {:?} <: {:?})", kind, a, bound); . 4,968 ( 0.00%) self.inner . .borrow_mut() . .unwrap_region_constraints() 28,152 ( 0.00%) .verify_generic_bound(origin, kind, a, bound); 11,592 ( 0.00%) } . . /// Obtains the latest type of the given closure; this may be a . /// closure in the current function, in which case its . /// `ClosureKind` may not yet be known. 3,064 ( 0.00%) pub fn closure_kind(&self, closure_substs: SubstsRef<'tcx>) -> Option { 6,128 ( 0.00%) let closure_kind_ty = closure_substs.as_closure().kind_ty(); . let closure_kind_ty = self.shallow_resolve(closure_kind_ty); 4,596 ( 0.00%) closure_kind_ty.to_opt_closure_kind() . } . . /// Clears the selection, evaluation, and projection caches. This is useful when . /// repeatedly attempting to select an `Obligation` while changing only . /// its `ParamEnv`, since `FulfillmentContext` doesn't use probing. . pub fn clear_caches(&self) { . self.selection_cache.clear(); . self.evaluation_cache.clear(); . self.inner.borrow_mut().projection_cache().clear(); . } . . pub fn universe(&self) -> ty::UniverseIndex { 1,735,667 ( 0.01%) self.universe.get() 657,272 ( 0.00%) } . . /// Creates and return a fresh universe that extends all previous . /// universes. Updates `self.universe` to that new universe. 866 ( 0.00%) pub fn create_next_universe(&self) -> ty::UniverseIndex { 1,070 ( 0.00%) let u = self.universe.get().next_universe(); . self.universe.set(u); . u 866 ( 0.00%) } . . /// Resolves and evaluates a constant. . /// . /// The constant can be located on a trait like `::C`, in which case the given . /// substitutions and environment are used to resolve the constant. Alternatively if the . /// constant has generic parameters in scope the substitutions are used to evaluate the value of . /// the constant. For example in `fn foo() { let _ = [0; bar::()]; }` the repeat count . /// constant `bar::()` requires a substitution for `T`, if the substitution for `T` is still . /// too generic for the constant to be evaluated then `Err(ErrorHandled::TooGeneric)` is . /// returned. . /// . /// This handles inferences variables within both `param_env` and `substs` by . /// performing the operation on their respective canonical forms. 7,072 ( 0.00%) pub fn const_eval_resolve( . &self, . param_env: ty::ParamEnv<'tcx>, . unevaluated: ty::Unevaluated<'tcx>, . span: Option, . ) -> EvalToConstValueResult<'tcx> { 544 ( 0.00%) let substs = self.resolve_vars_if_possible(unevaluated.substs); . . // Postpone the evaluation of constants whose substs depend on inference . // variables . if substs.has_infer_types_or_consts() { . return Err(ErrorHandled::TooGeneric); . } . 544 ( 0.00%) let param_env_erased = self.tcx.erase_regions(param_env); 3 ( 0.00%) let substs_erased = self.tcx.erase_regions(substs); . . let unevaluated = ty::Unevaluated { . def: unevaluated.def, . substs: substs_erased, 1,088 ( 0.00%) promoted: unevaluated.promoted, . }; . . // The return value is the evaluated value which doesn't contain any reference to inference . // variables, thus we don't need to substitute back the original values. 6,528 ( 0.00%) self.tcx.const_eval_resolve(param_env_erased, unevaluated, span) 4,896 ( 0.00%) } . . /// If `typ` is a type variable of some kind, resolve it one level . /// (but do not resolve types found in the result). If `typ` is . /// not a type variable, just return it unmodified. . // FIXME(eddyb) inline into `ShallowResolver::visit_ty`. 10,406,176 ( 0.03%) fn shallow_resolve_ty(&self, typ: Ty<'tcx>) -> Ty<'tcx> { 5,610,777 ( 0.02%) match *typ.kind() { . ty::Infer(ty::TyVar(v)) => { . // Not entirely obvious: if `typ` is a type variable, . // it can be resolved to an int/float variable, which . // can then be recursively resolved, hence the . // recursion. Note though that we prevent type . // variables from unifying to other type variables . // directly (though they may be embedded . // structurally), and we prevent cycles in any case, . // so this recursion should always be of very limited . // depth. . // . // Note: if these two lines are combined into one we get . // dynamic borrow errors on `self.inner`. 3,060,272 ( 0.01%) let known = self.inner.borrow_mut().type_variables().probe(v).known(); . known.map_or(typ, |t| self.shallow_resolve_ty(t)) . } . 14,884 ( 0.00%) ty::Infer(ty::IntVar(v)) => self . .inner . .borrow_mut() . .int_unification_table() . .probe_value(v) 4,761 ( 0.00%) .map(|v| v.to_type(self.tcx)) . .unwrap_or(typ), . . ty::Infer(ty::FloatVar(v)) => self . .inner . .borrow_mut() . .float_unification_table() . .probe_value(v) . .map(|v| v.to_type(self.tcx)) . .unwrap_or(typ), . . _ => typ, . } 11,706,948 ( 0.04%) } . . /// `ty_or_const_infer_var_changed` is equivalent to one of these two: . /// * `shallow_resolve(ty) != ty` (where `ty.kind = ty::Infer(_)`) . /// * `shallow_resolve(ct) != ct` (where `ct.kind = ty::ConstKind::Infer(_)`) . /// . /// However, `ty_or_const_infer_var_changed` is more efficient. It's always . /// inlined, despite being large, because it has only two call sites that . /// are extremely hot (both in `traits::fulfill`'s checking of `stalled_on` -- line 1659 ---------------------------------------- -- line 1662 ---------------------------------------- . #[inline(always)] . pub fn ty_or_const_infer_var_changed(&self, infer_var: TyOrConstInferVar<'tcx>) -> bool { . match infer_var { . TyOrConstInferVar::Ty(v) => { . use self::type_variable::TypeVariableValue; . . // If `inlined_probe` returns a `Known` value, it never equals . // `ty::Infer(ty::TyVar(v))`. 7,646,713 ( 0.02%) match self.inner.borrow_mut().type_variables().inlined_probe(v) { . TypeVariableValue::Unknown { .. } => false, . TypeVariableValue::Known { .. } => true, . } . } . . TyOrConstInferVar::TyInt(v) => { . // If `inlined_probe_value` returns a value it's always a . // `ty::Int(_)` or `ty::UInt(_)`, which never matches a . // `ty::Infer(_)`. 7,364 ( 0.00%) self.inner.borrow_mut().int_unification_table().inlined_probe_value(v).is_some() . } . . TyOrConstInferVar::TyFloat(v) => { . // If `probe_value` returns a value it's always a . // `ty::Float(_)`, which never matches a `ty::Infer(_)`. . // . // Not `inlined_probe_value(v)` because this call site is colder. . self.inner.borrow_mut().float_unification_table().probe_value(v).is_some() -- line 1688 ---------------------------------------- -- line 1716 ---------------------------------------- . /// Equivalent to `ty::ConstKind::Infer(ty::InferConst::Var(_))`. . Const(ConstVid<'tcx>), . } . . impl<'tcx> TyOrConstInferVar<'tcx> { . /// Tries to extract an inference variable from a type or a constant, returns `None` . /// for types other than `ty::Infer(_)` (or `InferTy::Fresh*`) and . /// for constants other than `ty::ConstKind::Infer(_)` (or `InferConst::Fresh`). 43,228 ( 0.00%) pub fn maybe_from_generic_arg(arg: GenericArg<'tcx>) -> Option { . match arg.unpack() { . GenericArgKind::Type(ty) => Self::maybe_from_ty(ty), . GenericArgKind::Const(ct) => Self::maybe_from_const(ct), . GenericArgKind::Lifetime(_) => None, . } 43,228 ( 0.00%) } . . /// Tries to extract an inference variable from a type, returns `None` . /// for types other than `ty::Infer(_)` (or `InferTy::Fresh*`). 6,468 ( 0.00%) pub fn maybe_from_ty(ty: Ty<'tcx>) -> Option { 446,968 ( 0.00%) match *ty.kind() { 99,126 ( 0.00%) ty::Infer(ty::TyVar(v)) => Some(TyOrConstInferVar::Ty(v)), 254 ( 0.00%) ty::Infer(ty::IntVar(v)) => Some(TyOrConstInferVar::TyInt(v)), . ty::Infer(ty::FloatVar(v)) => Some(TyOrConstInferVar::TyFloat(v)), . _ => None, . } 6,468 ( 0.00%) } . . /// Tries to extract an inference variable from a constant, returns `None` . /// for constants other than `ty::ConstKind::Infer(_)` (or `InferConst::Fresh`). . pub fn maybe_from_const(ct: &'tcx ty::Const<'tcx>) -> Option { . match ct.val { . ty::ConstKind::Infer(InferConst::Var(v)) => Some(TyOrConstInferVar::Const(v)), . _ => None, . } -- line 1749 ---------------------------------------- -- line 1755 ---------------------------------------- . } . . impl<'a, 'tcx> TypeFolder<'tcx> for ShallowResolver<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { . self.infcx.tcx . } . . fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> { 1,959,789 ( 0.01%) self.infcx.shallow_resolve_ty(ty) . } . 3,152 ( 0.00%) fn fold_const(&mut self, ct: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { 2,546 ( 0.00%) if let ty::Const { val: ty::ConstKind::Infer(InferConst::Var(vid)), .. } = ct { 2,425 ( 0.00%) self.infcx . .inner . .borrow_mut() . .const_unification_table() 1,455 ( 0.00%) .probe_value(*vid) . .val . .known() . .unwrap_or(ct) . } else { . ct . } 3,940 ( 0.00%) } . } . . impl<'tcx> TypeTrace<'tcx> { . pub fn span(&self) -> Span { 46 ( 0.00%) self.cause.span . } . . pub fn types( . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Ty<'tcx>, . b: Ty<'tcx>, . ) -> TypeTrace<'tcx> { -- line 1792 ---------------------------------------- -- line 1800 ---------------------------------------- . b: &'tcx ty::Const<'tcx>, . ) -> TypeTrace<'tcx> { . TypeTrace { cause: cause.clone(), values: Consts(ExpectedFound::new(a_is_expected, a, b)) } . } . } . . impl<'tcx> SubregionOrigin<'tcx> { . pub fn span(&self) -> Span { 115 ( 0.00%) match *self { 23 ( 0.00%) Subtype(ref a) => a.span(), . RelateObjectBound(a) => a, . RelateParamBound(a, ..) => a, . RelateRegionParamBound(a) => a, . Reborrow(a) => a, . ReborrowUpvar(a, _) => a, . DataBorrowed(_, a) => a, . ReferenceOutlivesReferent(_, a) => a, . CompareImplMethodObligation { span, .. } => span, -- line 1817 ---------------------------------------- -- line 1818 ---------------------------------------- . CompareImplTypeObligation { span, .. } => span, . } . } . . pub fn from_obligation_cause(cause: &traits::ObligationCause<'tcx>, default: F) -> Self . where . F: FnOnce() -> Self, . { 98,042 ( 0.00%) match *cause.code() { 19,047 ( 0.00%) traits::ObligationCauseCode::ReferenceOutlivesReferent(ref_type) => { 95,235 ( 0.00%) SubregionOrigin::ReferenceOutlivesReferent(ref_type, cause.span) . } . . traits::ObligationCauseCode::CompareImplMethodObligation { . impl_item_def_id, . trait_item_def_id, . } => SubregionOrigin::CompareImplMethodObligation { . span: cause.span, . impl_item_def_id, -- line 1836 ---------------------------------------- 12,733,580 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_parse/src/parser/mod.rs -------------------------------------------------------------------------------- Ir -- line 36 ---------------------------------------- . use rustc_session::parse::ParseSess; . use rustc_span::source_map::{MultiSpan, Span, DUMMY_SP}; . use rustc_span::symbol::{kw, sym, Ident, Symbol}; . use tracing::debug; . . use std::ops::Range; . use std::{cmp, mem, slice}; . 103,500 ( 0.00%) bitflags::bitflags! { . struct Restrictions: u8 { . const STMT_EXPR = 1 << 0; . const NO_STRUCT_LITERAL = 1 << 1; . const CONST_EXPR = 1 << 2; . } . } . . #[derive(Clone, Copy, PartialEq, Debug)] -- line 52 ---------------------------------------- -- line 104 ---------------------------------------- . $self.bump(); . return $self.maybe_recover_from_bad_qpath_stage_2($self.prev_token.span, ty); . } . } . } . }; . } . 983,059 ( 0.00%) #[derive(Clone)] . pub struct Parser<'a> { 36,763 ( 0.00%) pub sess: &'a ParseSess, . /// The current token. 32,488 ( 0.00%) pub token: Token, . /// The spacing for the current token 17,204 ( 0.00%) pub token_spacing: Spacing, . /// The previous token. 48,732 ( 0.00%) pub prev_token: Token, 18,164 ( 0.00%) pub capture_cfg: bool, 37,288 ( 0.00%) restrictions: Restrictions, 34,408 ( 0.00%) expected_tokens: Vec, . // Important: This must only be advanced from `next_tok` . // to ensure that `token_cursor.num_next_calls` is updated properly . token_cursor: TokenCursor, 34,408 ( 0.00%) desugar_doc_comments: bool, . /// This field is used to keep track of how many left angle brackets we have seen. This is . /// required in order to detect extra leading left angle brackets (`<` characters) and error . /// appropriately. . /// . /// See the comments in the `parse_path_segment` function for more details. 34,408 ( 0.00%) unmatched_angle_bracket_count: u32, 51,612 ( 0.00%) max_angle_bracket_count: u32, . /// A list of all unclosed delimiters found by the lexer. If an entry is used for error recovery . /// it gets removed from here. Every entry left at the end gets emitted as an independent . /// error. 17,204 ( 0.00%) pub(super) unclosed_delims: Vec, . last_unexpected_token_span: Option, . /// Span pointing at the `:` for the last type ascription the parser has seen, and whether it . /// looked like it could have been a mistyped path or literal `Option:Some(42)`). . pub last_type_ascription: Option<(Span, bool /* likely path typo */)>, . /// If present, this `Parser` is not parsing Rust code but rather a macro call. . subparser_name: Option<&'static str>, . capture_state: CaptureState, . /// This allows us to recover when the user forget to add braces around -- line 146 ---------------------------------------- -- line 173 ---------------------------------------- . /// the first macro inner attribute to invoke a proc-macro). . /// When create a `TokenStream`, the inner attributes get inserted . /// into the proper place in the token stream. . pub type ReplaceRange = (Range, Vec<(FlatToken, Spacing)>); . . /// Controls how we capture tokens. Capturing can be expensive, . /// so we try to avoid performing capturing in cases where . /// we will never need an `AttrAnnotatedTokenStream` 17,204 ( 0.00%) #[derive(Copy, Clone)] . pub enum Capturing { . /// We aren't performing any capturing - this is the default mode. . No, . /// We are capturing tokens . Yes, . } . 72,131 ( 0.00%) #[derive(Clone)] . struct CaptureState { 68,816 ( 0.00%) capturing: Capturing, 17,204 ( 0.00%) replace_ranges: Vec, . inner_attr_ranges: FxHashMap, . } . . impl<'a> Drop for Parser<'a> { . fn drop(&mut self) { 96,674 ( 0.00%) emit_unclosed_delims(&mut self.unclosed_delims, &self.sess); . } . } . 1,196,045 ( 0.00%) #[derive(Clone)] . struct TokenCursor { . frame: TokenCursorFrame, 271,540 ( 0.00%) stack: Vec, . desugar_doc_comments: bool, . // Counts the number of calls to `next` or `next_desugared`, . // depending on whether `desugar_doc_comments` is set. 88,956 ( 0.00%) num_next_calls: usize, . // During parsing, we may sometimes need to 'unglue' a . // glued token into two component tokens . // (e.g. '>>' into '>' and '>), so that the parser . // can consume them one at a time. This process . // bypasses the normal capturing mechanism . // (e.g. `num_next_calls` will not be incremented), . // since the 'unglued' tokens due not exist in . // the original `TokenStream`. -- line 217 ---------------------------------------- -- line 226 ---------------------------------------- . // in `Option>` requires us to unglue . // the trailing `>>` token. The `break_last_token` . // field is used to track this token - it gets . // appended to the captured stream when . // we evaluate a `LazyTokenStream` . break_last_token: bool, . } . 547,154 ( 0.00%) #[derive(Clone)] . struct TokenCursorFrame { 148,103 ( 0.00%) delim: token::DelimToken, . span: DelimSpan, . open_delim: bool, 296,206 ( 0.00%) tree_cursor: tokenstream::Cursor, . close_delim: bool, . } . . impl TokenCursorFrame { . fn new(span: DelimSpan, delim: DelimToken, tts: TokenStream) -> Self { 63,675 ( 0.00%) TokenCursorFrame { . delim, . span, . open_delim: false, 250,608 ( 0.00%) tree_cursor: tts.into_trees(), . close_delim: false, . } . } . } . . impl TokenCursor { 20,473,716 ( 0.06%) fn next(&mut self) -> (Token, Spacing) { . loop { 10,082,241 ( 0.03%) let (tree, spacing) = if !self.frame.open_delim { 223,722 ( 0.00%) self.frame.open_delim = true; 1,118,610 ( 0.00%) TokenTree::open_tt(self.frame.span, self.frame.delim).into() 19,897,917 ( 0.06%) } else if let Some(tree) = self.frame.tree_cursor.next_with_spacing() { . tree 913,938 ( 0.00%) } else if !self.frame.close_delim { 220,745 ( 0.00%) self.frame.close_delim = true; 1,103,725 ( 0.00%) TokenTree::close_tt(self.frame.span, self.frame.delim).into() 439,996 ( 0.00%) } else if let Some(frame) = self.stack.pop() { 2,859,974 ( 0.01%) self.frame = frame; . continue; . } else { 292,068 ( 0.00%) (TokenTree::Token(Token::new(token::Eof, DUMMY_SP)), Spacing::Alone) . }; . 3,856,898 ( 0.01%) match tree { . TokenTree::Token(token) => { 13,649,144 ( 0.04%) return (token, spacing); . } . TokenTree::Delimited(sp, delim, tts) => { . let frame = TokenCursorFrame::new(sp, delim, tts); . self.stack.push(mem::replace(&mut self.frame, frame)); . } . } . } 13,649,144 ( 0.04%) } . 8,575,910 ( 0.03%) fn next_desugared(&mut self) -> (Token, Spacing) { 2,575,605 ( 0.01%) let (data, attr_style, sp) = match self.next() { 4,248 ( 0.00%) (Token { kind: token::DocComment(_, attr_style, data), span }, _) => { . (data, attr_style, span) . } 4,280,875 ( 0.01%) tok => return tok, . }; . . // Searches for the occurrences of `"#*` and returns the minimum number of `#`s . // required to wrap the text. . let mut num_of_hashes = 0; . let mut count = 0; 364,994 ( 0.00%) for ch in data.as_str().chars() { . count = match ch { . '"' => 1, 30 ( 0.00%) '#' if count > 0 => count + 1, . _ => 0, . }; . num_of_hashes = cmp::max(num_of_hashes, count); . } . 5,664 ( 0.00%) let delim_span = DelimSpan::from_single(sp); 7,080 ( 0.00%) let body = TokenTree::Delimited( . delim_span, . token::Bracket, 16,992 ( 0.00%) [ 9,912 ( 0.00%) TokenTree::token(token::Ident(sym::doc, false), sp), 5,664 ( 0.00%) TokenTree::token(token::Eq, sp), 11,328 ( 0.00%) TokenTree::token(TokenKind::lit(token::StrRaw(num_of_hashes), data, None), sp), . ] . .iter() . .cloned() . .collect::(), 1,416 ( 0.00%) ); . . self.stack.push(mem::replace( . &mut self.frame, . TokenCursorFrame::new( . delim_span, . token::NoDelim, 1,416 ( 0.00%) if attr_style == AttrStyle::Inner { . [TokenTree::token(token::Pound, sp), TokenTree::token(token::Not, sp), body] . .iter() . .cloned() . .collect::() . } else { 16,992 ( 0.00%) [TokenTree::token(token::Pound, sp), body] . .iter() . .cloned() . .collect::() . }, . ), . )); . 4,248 ( 0.00%) self.next() 7,718,319 ( 0.02%) } . } . 177,740 ( 0.00%) #[derive(Debug, Clone, PartialEq)] . enum TokenType { 142,260 ( 0.00%) Token(TokenKind), . Keyword(Symbol), . Operator, . Lifetime, . Ident, . Path, . Type, . Const, . } -- line 353 ---------------------------------------- -- line 378 ---------------------------------------- . /// The separator token. . sep: Option, . /// `true` if a trailing separator is allowed. . trailing_sep_allowed: bool, . } . . impl SeqSep { . fn trailing_allowed(t: TokenKind) -> SeqSep { 441 ( 0.00%) SeqSep { sep: Some(t), trailing_sep_allowed: true } . } . . fn none() -> SeqSep { . SeqSep { sep: None, trailing_sep_allowed: false } . } . } . . pub enum FollowedByType { . Yes, . No, . } . . fn token_descr_opt(token: &Token) -> Option<&'static str> { 36,354 ( 0.00%) Some(match token.kind { 72,708 ( 0.00%) _ if token.is_special_ident() => "reserved identifier", 72,708 ( 0.00%) _ if token.is_used_keyword() => "keyword", 72,708 ( 0.00%) _ if token.is_unused_keyword() => "reserved keyword", . token::DocComment(..) => "doc comment", . _ => return None, . }) . } . 127,239 ( 0.00%) pub(super) fn token_descr(token: &Token) -> String { 36,354 ( 0.00%) let token_str = pprust::token_to_string(token); . match token_descr_opt(token) { . Some(prefix) => format!("{} `{}`", prefix, token_str), 127,239 ( 0.00%) _ => format!("`{}`", token_str), . } 90,885 ( 0.00%) } . . impl<'a> Parser<'a> { 178,290 ( 0.00%) pub fn new( . sess: &'a ParseSess, . tokens: TokenStream, . desugar_doc_comments: bool, . subparser_name: Option<&'static str>, . ) -> Self { 12,735 ( 0.00%) let mut start_frame = TokenCursorFrame::new(DelimSpan::dummy(), token::NoDelim, tokens); 25,470 ( 0.00%) start_frame.open_delim = true; . start_frame.close_delim = true; . 394,785 ( 0.00%) let mut parser = Parser { . sess, 12,735 ( 0.00%) token: Token::dummy(), . token_spacing: Spacing::Alone, 12,735 ( 0.00%) prev_token: Token::dummy(), . capture_cfg: false, . restrictions: Restrictions::empty(), . expected_tokens: Vec::new(), . token_cursor: TokenCursor { 76,410 ( 0.00%) frame: start_frame, . stack: Vec::new(), . num_next_calls: 0, . desugar_doc_comments, . break_last_token: false, . }, . desugar_doc_comments, . unmatched_angle_bracket_count: 0, . max_angle_bracket_count: 0, -- line 445 ---------------------------------------- -- line 451 ---------------------------------------- . capturing: Capturing::No, . replace_ranges: Vec::new(), . inner_attr_ranges: Default::default(), . }, . current_closure: None, . }; . . // Make parser point to the first token. 25,470 ( 0.00%) parser.bump(); . . parser 114,615 ( 0.00%) } . . fn next_tok(&mut self, fallback_span: Span) -> (Token, Spacing) { . loop { 9,921,330 ( 0.03%) let (mut next, spacing) = if self.desugar_doc_comments { 3,423,452 ( 0.01%) self.token_cursor.next_desugared() . } else { 2,393,076 ( 0.01%) self.token_cursor.next() . }; 6,614,220 ( 0.02%) self.token_cursor.num_next_calls += 1; . // We've retrieved an token from the underlying . // cursor, so we no longer need to worry about . // an unglued token. See `break_and_eat` for more details 1,653,555 ( 0.01%) self.token_cursor.break_last_token = false; 6,614,220 ( 0.02%) if next.span.is_dummy() { . // Tweak the location for better diagnostics, but keep syntactic context intact. 51,256 ( 0.00%) next.span = fallback_span.with_ctxt(next.span.ctxt()); . } 5,613,486 ( 0.02%) if matches!( 3,307,110 ( 0.01%) next.kind, . token::OpenDelim(token::NoDelim) | token::CloseDelim(token::NoDelim) . ) { . continue; . } 6,596,680 ( 0.02%) return (next, spacing); . } . } . . pub fn unexpected(&mut self) -> PResult<'a, T> { . match self.expect_one_of(&[], &[]) { . Err(e) => Err(e), . // We can get `Ok(true)` from `recover_closing_delimiter` . // which is called in `expected_one_of_not_found`. . Ok(_) => FatalError.raise(), . } . } . . /// Expects and consumes the token `t`. Signals an error if the next token is not `t`. 483,291 ( 0.00%) pub fn expect(&mut self, t: &TokenKind) -> PResult<'a, bool /* recovered */> { 53,699 ( 0.00%) if self.expected_tokens.is_empty() { 36,762 ( 0.00%) if self.token == *t { 30,635 ( 0.00%) self.bump(); . Ok(false) . } else { . self.unexpected_try_recover(t) . } . } else { 570,864 ( 0.00%) self.expect_one_of(slice::from_ref(t), &[]) . } 805,485 ( 0.00%) } . . /// Expect next token to be edible or inedible token. If edible, . /// then consume it; if inedible, then return without consuming . /// anything. Signal a fatal error if next token is unexpected. 682,920 ( 0.00%) pub fn expect_one_of( . &mut self, . edible: &[TokenKind], . inedible: &[TokenKind], . ) -> PResult<'a, bool /* recovered */> { 113,820 ( 0.00%) if edible.contains(&self.token.kind) { 147,522 ( 0.00%) self.bump(); . Ok(false) . } else if inedible.contains(&self.token.kind) { . // leave it in the input . Ok(false) . } else if self.last_unexpected_token_span == Some(self.token.span) { . FatalError.raise(); . } else { . self.expected_one_of_not_found(edible, inedible) . } 853,650 ( 0.00%) } . . // Public for rustfmt usage. . pub fn parse_ident(&mut self) -> PResult<'a, Ident> { 375,581 ( 0.00%) self.parse_ident_common(true) . } . . fn ident_or_err(&mut self) -> PResult<'a, (Ident, /* is_raw */ bool)> { 292,104 ( 0.00%) self.token.ident().ok_or_else(|| match self.prev_token.kind { . TokenKind::DocComment(..) => { . self.span_err(self.prev_token.span, Error::UselessDocComment) . } . _ => self.expected_ident_found(), . }) . } . 666,365 ( 0.00%) fn parse_ident_common(&mut self, recover: bool) -> PResult<'a, Ident> { 95,195 ( 0.00%) let (ident, is_raw) = self.ident_or_err()?; 571,170 ( 0.00%) if !is_raw && ident.is_reserved() { . let mut err = self.expected_ident_found(); . if recover { . err.emit(); . } else { . return Err(err); . } . } 380,780 ( 0.00%) self.bump(); . Ok(ident) 951,950 ( 0.00%) } . . /// Checks if the next token is `tok`, and returns `true` if so. . /// . /// This method will automatically add `tok` to `expected_tokens` if `tok` is not . /// encountered. 7,271,110 ( 0.02%) fn check(&mut self, tok: &TokenKind) -> bool { 3,148,595 ( 0.01%) let is_present = self.token == *tok; 2,116,766 ( 0.01%) if !is_present { 4,367,047 ( 0.01%) self.expected_tokens.push(TokenType::Token(tok.clone())); . } . is_present 7,271,110 ( 0.02%) } . . /// Consumes a token 'tok' if it exists. Returns whether the given token was present. 316 ( 0.00%) pub fn eat(&mut self, tok: &TokenKind) -> bool { 1,484,833 ( 0.00%) let is_present = self.check(tok); 980,812 ( 0.00%) if is_present { 219,631 ( 0.00%) self.bump() . } . is_present 395 ( 0.00%) } . . /// If the next token is the given keyword, returns `true` without eating it. . /// An expectation is also added for diagnostics purposes. 394,430 ( 0.00%) fn check_keyword(&mut self, kw: Symbol) -> bool { 75,587 ( 0.00%) self.expected_tokens.push(TokenType::Keyword(kw)); 2,243,170 ( 0.01%) self.token.is_keyword(kw) . } . . /// If the next token is the given keyword, eats it and returns `true`. . /// Otherwise, returns `false`. An expectation is also added for diagnostics purposes. . // Public for rustfmt usage. 553,230 ( 0.00%) pub fn eat_keyword(&mut self, kw: Symbol) -> bool { 448,236 ( 0.00%) if self.check_keyword(kw) { 41,163 ( 0.00%) self.bump(); . true . } else { . false . } 553,230 ( 0.00%) } . . fn eat_keyword_noexpect(&mut self, kw: Symbol) -> bool { 48,582 ( 0.00%) if self.token.is_keyword(kw) { 11,673 ( 0.00%) self.bump(); . true . } else { . false . } . } . . /// If the given word is not a keyword, signals an error. . /// If the next token is not the given word, signals an error. . /// Otherwise, eats it. 6,935 ( 0.00%) fn expect_keyword(&mut self, kw: Symbol) -> PResult<'a, ()> { . if !self.eat_keyword(kw) { self.unexpected() } else { Ok(()) } 5,548 ( 0.00%) } . . /// Is the given keyword `kw` followed by a non-reserved identifier? 345,072 ( 0.00%) fn is_kw_followed_by_ident(&self, kw: Symbol) -> bool { 172,536 ( 0.00%) self.token.is_keyword(kw) && self.look_ahead(1, |t| t.is_ident() && !t.is_reserved_ident()) 388,206 ( 0.00%) } . 354,510 ( 0.00%) fn check_or_expected(&mut self, ok: bool, typ: TokenType) -> bool { 136,634 ( 0.00%) if ok { . true . } else { 76,392 ( 0.00%) self.expected_tokens.push(typ); . false . } 354,510 ( 0.00%) } . . fn check_ident(&mut self) -> bool { 49,855 ( 0.00%) self.check_or_expected(self.token.is_ident(), TokenType::Ident) . } . 156,096 ( 0.00%) fn check_path(&mut self) -> bool { 337,473 ( 0.00%) self.check_or_expected(self.token.is_path_start(), TokenType::Path) 195,120 ( 0.00%) } . . fn check_type(&mut self) -> bool { 10,130 ( 0.00%) self.check_or_expected(self.token.can_begin_type(), TokenType::Type) . } . . fn check_const_arg(&mut self) -> bool { 9,872 ( 0.00%) self.check_or_expected(self.token.can_begin_const_arg(), TokenType::Const) . } . 62,838 ( 0.00%) fn check_inline_const(&self, dist: usize) -> bool { 34,910 ( 0.00%) self.is_keyword_ahead(dist, &[kw::Const]) . && self.look_ahead(dist + 1, |t| match t.kind { . token::Interpolated(ref nt) => matches!(**nt, token::NtBlock(..)), . token::OpenDelim(DelimToken::Brace) => true, . _ => false, . }) 62,838 ( 0.00%) } . . /// Checks to see if the next token is either `+` or `+=`. . /// Otherwise returns `false`. . fn check_plus(&mut self) -> bool { 41,276 ( 0.00%) self.check_or_expected( 20,638 ( 0.00%) self.token.is_like_plus(), 20,638 ( 0.00%) TokenType::Token(token::BinOp(token::Plus)), . ) . } . . /// Eats the expected token if it's present possibly breaking . /// compound tokens like multi-character operators in process. . /// Returns `true` if the token was eaten. 459,804 ( 0.00%) fn break_and_eat(&mut self, expected: TokenKind) -> bool { 268,219 ( 0.00%) if self.token.kind == expected { 10,050 ( 0.00%) self.bump(); . return true; . } 166,460 ( 0.00%) match self.token.kind.break_two_token_op() { 1,239 ( 0.00%) Some((first, second)) if first == expected => { 684 ( 0.00%) let first_span = self.sess.source_map().start_point(self.token.span); 855 ( 0.00%) let second_span = self.token.span.with_lo(first_span.hi()); 1,539 ( 0.00%) self.token = Token::new(first, first_span); . // Keep track of this token - if we end token capturing now, . // we'll want to append this token to the captured stream. . // . // If we consume any additional tokens, then this token . // is not needed (we'll capture the entire 'glued' token), . // and `next_tok` will set this field to `None` 171 ( 0.00%) self.token_cursor.break_last_token = true; . // Use the spacing of the glued token as the spacing . // of the unglued second token. 2,394 ( 0.00%) self.bump_with((Token::new(second, second_span), self.token_spacing)); . true . } . _ => { 99,363 ( 0.00%) self.expected_tokens.push(TokenType::Token(expected)); . false . } . } 477,351 ( 0.00%) } . . /// Eats `+` possibly breaking tokens like `+=` in process. . fn eat_plus(&mut self) -> bool { 1,236 ( 0.00%) self.break_and_eat(token::BinOp(token::Plus)) . } . . /// Eats `&` possibly breaking tokens like `&&` in process. . /// Signals an error if `&` is not eaten. . fn expect_and(&mut self) -> PResult<'a, ()> { 6,804 ( 0.00%) if self.break_and_eat(token::BinOp(token::And)) { Ok(()) } else { self.unexpected() } . } . . /// Eats `|` possibly breaking tokens like `||` in process. . /// Signals an error if `|` was not eaten. . fn expect_or(&mut self) -> PResult<'a, ()> { 882 ( 0.00%) if self.break_and_eat(token::BinOp(token::Or)) { Ok(()) } else { self.unexpected() } . } . . /// Eats `<` possibly breaking tokens like `<<` in process. 25,726 ( 0.00%) fn eat_lt(&mut self) -> bool { 111,392 ( 0.00%) let ate = self.break_and_eat(token::Lt); 71,768 ( 0.00%) if ate { . // See doc comment for `unmatched_angle_bracket_count`. 9,624 ( 0.00%) self.unmatched_angle_bracket_count += 1; 10,853 ( 0.00%) self.max_angle_bracket_count += 1; . debug!("eat_lt: (increment) count={:?}", self.unmatched_angle_bracket_count); . } . ate 25,726 ( 0.00%) } . . /// Eats `<` possibly breaking tokens like `<<` in process. . /// Signals an error if `<` was not eaten. . fn expect_lt(&mut self) -> PResult<'a, ()> { . if self.eat_lt() { Ok(()) } else { self.unexpected() } . } . . /// Eats `>` possibly breaking tokens like `>>` in process. . /// Signals an error if `>` was not eaten. . fn expect_gt(&mut self) -> PResult<'a, ()> { 8,622 ( 0.00%) if self.break_and_eat(token::Gt) { . // See doc comment for `unmatched_angle_bracket_count`. 4,311 ( 0.00%) if self.unmatched_angle_bracket_count > 0 { 2,874 ( 0.00%) self.unmatched_angle_bracket_count -= 1; . debug!("expect_gt: (decrement) count={:?}", self.unmatched_angle_bracket_count); . } . Ok(()) . } else { . self.unexpected() . } . } . . fn expect_any_with_type(&mut self, kets: &[&TokenKind], expect: TokenExpectType) -> bool { . kets.iter().any(|k| match expect { 163,494 ( 0.00%) TokenExpectType::Expect => self.check(k), 2,349 ( 0.00%) TokenExpectType::NoExpect => self.token == **k, . }) . } . . fn parse_seq_to_before_tokens( . &mut self, . kets: &[&TokenKind], . sep: SeqSep, . expect: TokenExpectType, -- line 759 ---------------------------------------- -- line 761 ---------------------------------------- . ) -> PResult<'a, (Vec, bool /* trailing */, bool /* recovered */)> { . let mut first = true; . let mut recovered = false; . let mut trailing = false; . let mut v = vec![]; . let unclosed_delims = !self.unclosed_delims.is_empty(); . . while !self.expect_any_with_type(kets, expect) { 137,535 ( 0.00%) if let token::CloseDelim(..) | token::Eof = self.token.kind { . break; . } 88,732 ( 0.00%) if let Some(ref t) = sep.sep { 126,840 ( 0.00%) if first { . first = false; . } else { 91,664 ( 0.00%) match self.expect(t) { . Ok(false) => { . self.current_closure.take(); . } . Ok(true) => { . self.current_closure.take(); . recovered = true; . break; . } -- line 784 ---------------------------------------- -- line 857 ---------------------------------------- . e.cancel(); . break; . } . } . } . } . } . } 52,204 ( 0.00%) if sep.trailing_sep_allowed && self.expect_any_with_type(kets, expect) { . trailing = true; . break; . } . 27,991 ( 0.00%) let t = f(self)?; 123,313 ( 0.00%) v.push(t); . } . 62,728 ( 0.00%) Ok((v, trailing, recovered)) . } . . fn recover_missing_braces_around_closure_body( . &mut self, . closure_spans: ClosureSpans, . mut expect_err: DiagnosticBuilder<'_>, . ) -> PResult<'a, ()> { . let initial_semicolon = self.token.span; -- line 882 ---------------------------------------- -- line 937 ---------------------------------------- . /// `f` must consume tokens until reaching the next separator or . /// closing bracket. . fn parse_seq_to_before_end( . &mut self, . ket: &TokenKind, . sep: SeqSep, . f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, . ) -> PResult<'a, (Vec, bool, bool)> { 67,642 ( 0.00%) self.parse_seq_to_before_tokens(&[ket], sep, TokenExpectType::Expect, f) . } . . /// Parses a sequence, including the closing delimiter. The function . /// `f` must consume tokens until reaching the next separator or . /// closing bracket. 66,970 ( 0.00%) fn parse_seq_to_end( . &mut self, . ket: &TokenKind, . sep: SeqSep, . f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, . ) -> PResult<'a, (Vec, bool /* trailing */)> { 38,032 ( 0.00%) let (val, trailing, recovered) = self.parse_seq_to_before_end(ket, sep, f)?; 24,108 ( 0.00%) if !recovered { . self.eat(ket); . } 94,134 ( 0.00%) Ok((val, trailing)) 53,576 ( 0.00%) } . . /// Parses a sequence, including the closing delimiter. The function . /// `f` must consume tokens until reaching the next separator or . /// closing bracket. . fn parse_unspanned_seq( . &mut self, . bra: &TokenKind, . ket: &TokenKind, . sep: SeqSep, . f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, . ) -> PResult<'a, (Vec, bool)> { 33,268 ( 0.00%) self.expect(bra)?; 53,576 ( 0.00%) self.parse_seq_to_end(ket, sep, f) . } . . fn parse_delim_comma_seq( . &mut self, . delim: DelimToken, . f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, . ) -> PResult<'a, (Vec, bool)> { . self.parse_unspanned_seq( 15,078 ( 0.00%) &token::OpenDelim(delim), 23,537 ( 0.00%) &token::CloseDelim(delim), . SeqSep::trailing_allowed(token::Comma), . f, . ) . } . . fn parse_paren_comma_seq( . &mut self, . f: impl FnMut(&mut Parser<'a>) -> PResult<'a, T>, . ) -> PResult<'a, (Vec, bool)> { . self.parse_delim_comma_seq(token::Paren, f) . } . . /// Advance the parser by one token using provided token as the next one. 21,441,433 ( 0.07%) fn bump_with(&mut self, (next_token, next_spacing): (Token, Spacing)) { . // Bumping after EOF is a bad sign, usually an infinite loop. 9,896,046 ( 0.03%) if self.prev_token.kind == TokenKind::Eof { . let msg = "attempted to bump the parser past EOF (may be stuck in a loop)"; . self.span_bug(self.token.span, msg); . } . . // Update the current and previous tokens. 6,597,364 ( 0.02%) self.prev_token = mem::replace(&mut self.token, next_token); 1,649,341 ( 0.01%) self.token_spacing = next_spacing; . . // Diagnostics. 1,649,341 ( 0.01%) self.expected_tokens.clear(); . } . . /// Advance the parser by one token. 13,193,360 ( 0.04%) pub fn bump(&mut self) { 6,596,680 ( 0.02%) let next_token = self.next_tok(self.token.span); 9,895,020 ( 0.03%) self.bump_with(next_token); 13,193,360 ( 0.04%) } . . /// Look-ahead `dist` tokens of `self.token` and get access to that token there. . /// When `dist == 0` then the current token is looked at. 352 ( 0.00%) pub fn look_ahead(&self, dist: usize, looker: impl FnOnce(&Token) -> R) -> R { 30,828 ( 0.00%) if dist == 0 { 11,062 ( 0.00%) return looker(&self.token); . } . 130,931 ( 0.00%) let frame = &self.token_cursor.frame; 139,596 ( 0.00%) if frame.delim != DelimToken::NoDelim { . let all_normal = (0..dist).all(|i| { 362,766 ( 0.00%) let token = frame.tree_cursor.look_ahead(i); 476,554 ( 0.00%) !matches!(token, Some(TokenTree::Delimited(_, DelimToken::NoDelim, _))) . }); . if all_normal { 590,251 ( 0.00%) return match frame.tree_cursor.look_ahead(dist - 1) { 206,035 ( 0.00%) Some(tree) => match tree { 93,831 ( 0.00%) TokenTree::Token(token) => looker(token), . TokenTree::Delimited(dspan, delim, _) => { 63,343 ( 0.00%) looker(&Token::new(token::OpenDelim(*delim), dspan.open)) . } . }, 105,294 ( 0.00%) None => looker(&Token::new(token::CloseDelim(frame.delim), frame.span.close)), . }; . } . } . . let mut cursor = self.token_cursor.clone(); . let mut i = 0; 23,531 ( 0.00%) let mut token = Token::dummy(); 1,825 ( 0.00%) while i < dist { 168,736 ( 0.00%) token = cursor.next().0; 77,256 ( 0.00%) if matches!( 48,146 ( 0.00%) token.kind, . token::OpenDelim(token::NoDelim) | token::CloseDelim(token::NoDelim) . ) { . continue; . } 875 ( 0.00%) i += 1; . } 3,356 ( 0.00%) return looker(&token); 396 ( 0.00%) } . . /// Returns whether any of the given keywords are `dist` tokens ahead of the current one. 126,351 ( 0.00%) fn is_keyword_ahead(&self, dist: usize, kws: &[Symbol]) -> bool { 35,764 ( 0.00%) self.look_ahead(dist, |t| kws.iter().any(|&kw| t.is_keyword(kw))) 126,351 ( 0.00%) } . . /// Parses asyncness: `async` or nothing. . fn parse_asyncness(&mut self) -> Async { . if self.eat_keyword(kw::Async) { . let span = self.prev_token.uninterpolated_span(); . Async::Yes { span, closure_id: DUMMY_NODE_ID, return_impl_trait_id: DUMMY_NODE_ID } . } else { . Async::No . } . } . . /// Parses unsafety: `unsafe` or nothing. 9,890 ( 0.00%) fn parse_unsafety(&mut self) -> Unsafe { . if self.eat_keyword(kw::Unsafe) { 445 ( 0.00%) Unsafe::Yes(self.prev_token.uninterpolated_span()) . } else { . Unsafe::No . } 39,560 ( 0.00%) } . . /// Parses constness: `const` or nothing. 145,344 ( 0.00%) fn parse_constness(&mut self) -> Const { . // Avoid const blocks to be parsed as const items 45,833 ( 0.00%) if self.look_ahead(1, |t| t != &token::OpenDelim(DelimToken::Brace)) . && self.eat_keyword(kw::Const) . { 11,610 ( 0.00%) Const::Yes(self.prev_token.uninterpolated_span()) . } else { . Const::No . } 254,352 ( 0.00%) } . . /// Parses inline const expressions. . fn parse_const_block(&mut self, span: Span, pat: bool) -> PResult<'a, P> { . if pat { . self.sess.gated_spans.gate(sym::inline_const_pat, span); . } else { . self.sess.gated_spans.gate(sym::inline_const, span); . } -- line 1104 ---------------------------------------- -- line 1108 ---------------------------------------- . id: DUMMY_NODE_ID, . value: self.mk_expr(blk.span, ExprKind::Block(blk, None), AttrVec::new()), . }; . let blk_span = anon_const.value.span; . Ok(self.mk_expr(span.to(blk_span), ExprKind::ConstBlock(anon_const), AttrVec::new())) . } . . /// Parses mutability (`mut` or nothing). 128 ( 0.00%) fn parse_mutability(&mut self) -> Mutability { . if self.eat_keyword(kw::Mut) { Mutability::Mut } else { Mutability::Not } 2,460 ( 0.00%) } . . /// Possibly parses mutability (`const` or `mut`). 2,244 ( 0.00%) fn parse_const_or_mut(&mut self) -> Option { . if self.eat_keyword(kw::Mut) { . Some(Mutability::Mut) . } else if self.eat_keyword(kw::Const) { . Some(Mutability::Not) . } else { . None . } 2,244 ( 0.00%) } . . fn parse_field_name(&mut self) -> PResult<'a, Ident> { 2,600 ( 0.00%) if let token::Literal(token::Lit { kind: token::Integer, symbol, suffix }) = self.token.kind . { . self.expect_no_suffix(self.token.span, "a tuple index", suffix); . self.bump(); . Ok(Ident::new(symbol, self.prev_token.span)) . } else { 3,900 ( 0.00%) self.parse_ident_common(true) . } . } . . fn parse_mac_args(&mut self) -> PResult<'a, P> { 11,817 ( 0.00%) self.parse_mac_args_common(true).map(P) . } . . fn parse_attr_args(&mut self) -> PResult<'a, MacArgs> { 37,809 ( 0.00%) self.parse_mac_args_common(false) . } . 149,751 ( 0.00%) fn parse_mac_args_common(&mut self, delimited_only: bool) -> PResult<'a, MacArgs> { 133,112 ( 0.00%) Ok( 114,815 ( 0.00%) if self.check(&token::OpenDelim(DelimToken::Paren)) 23,721 ( 0.00%) || self.check(&token::OpenDelim(DelimToken::Bracket)) 23,709 ( 0.00%) || self.check(&token::OpenDelim(DelimToken::Brace)) . { 47,280 ( 0.00%) match self.parse_token_tree() { 59,100 ( 0.00%) TokenTree::Delimited(dspan, delim, tokens) => . // We've confirmed above that there is a delimiter so unwrapping is OK. . { 23,640 ( 0.00%) MacArgs::Delimited(dspan, MacDelimiter::from_token(delim).unwrap(), tokens) . } . _ => unreachable!(), . } 9,638 ( 0.00%) } else if !delimited_only { . if self.eat(&token::Eq) { 1,586 ( 0.00%) let eq_span = self.prev_token.span; . . // Collect tokens because they are used during lowering to HIR. 1,586 ( 0.00%) let expr = self.parse_expr_force_collect()?; 1,586 ( 0.00%) let span = expr.span; . 7,930 ( 0.00%) let token_kind = token::Interpolated(Lrc::new(token::NtExpr(expr))); 14,274 ( 0.00%) MacArgs::Eq(eq_span, Token::new(token_kind, span)) . } else { . MacArgs::Empty . } . } else { . return self.unexpected(); . }, . ) 116,473 ( 0.00%) } . . fn parse_or_use_outer_attributes( . &mut self, . already_parsed_attrs: Option, . ) -> PResult<'a, AttrWrapper> { 100,569 ( 0.00%) if let Some(attrs) = already_parsed_attrs { . Ok(attrs) . } else { 53,446 ( 0.00%) self.parse_outer_attributes() . } . } . . /// Parses a single token tree from the input. 1,978,352 ( 0.01%) pub(crate) fn parse_token_tree(&mut self) -> TokenTree { 1,501,142 ( 0.00%) match self.token.kind { . token::OpenDelim(..) => { . let depth = self.token_cursor.stack.len(); . . // We keep advancing the token cursor until we hit . // the matching `CloseDelim` token. 2,570,430 ( 0.01%) while !(depth == self.token_cursor.stack.len() . && matches!(self.token.kind, token::CloseDelim(_))) . { . // Advance one token at a time, so `TokenCursor::next()` . // can capture these tokens if necessary. 1,851,370 ( 0.01%) self.bump(); . } . // We are still inside the frame corresponding . // to the delimited stream we captured, so grab . // the tokens from this frame. . let frame = &self.token_cursor.frame; 114,958 ( 0.00%) let stream = frame.tree_cursor.stream.clone(); 114,958 ( 0.00%) let span = frame.span; 57,479 ( 0.00%) let delim = frame.delim; . // Consume close delimiter 114,958 ( 0.00%) self.bump(); 287,395 ( 0.00%) TokenTree::Delimited(span, delim, stream) . } . token::CloseDelim(_) | token::Eof => unreachable!(), . _ => { 379,630 ( 0.00%) self.bump(); 949,075 ( 0.00%) TokenTree::Token(self.prev_token.clone()) . } . } 1,731,058 ( 0.01%) } . . /// Parses a stream of tokens into a list of `TokenTree`s, up to EOF. . pub fn parse_all_token_trees(&mut self) -> PResult<'a, Vec> { . let mut tts = Vec::new(); . while self.token != token::Eof { . tts.push(self.parse_token_tree()); . } . Ok(tts) . } . 80 ( 0.00%) pub fn parse_tokens(&mut self) -> TokenStream { . let mut result = Vec::new(); . loop { 145 ( 0.00%) match self.token.kind { . token::Eof | token::CloseDelim(..) => break, 45 ( 0.00%) _ => result.push(self.parse_token_tree().into()), . } . } 60 ( 0.00%) TokenStream::new(result) 80 ( 0.00%) } . . /// Evaluates the closure with restrictions in place. . /// . /// Afters the closure is evaluated, restrictions are reset. . fn with_res(&mut self, res: Restrictions, f: impl FnOnce(&mut Self) -> T) -> T { 39,005 ( 0.00%) let old = self.restrictions; 52,930 ( 0.00%) self.restrictions = res; . let res = f(self); 49,360 ( 0.00%) self.restrictions = old; . res . } . 203,000 ( 0.00%) fn is_crate_vis(&self) -> bool { 126,875 ( 0.00%) self.token.is_keyword(kw::Crate) && self.look_ahead(1, |t| t != &token::ModSep) 228,375 ( 0.00%) } . . /// Parses `pub`, `pub(crate)` and `pub(in path)` plus shortcuts `crate` for `pub(crate)`, . /// `pub(self)` for `pub(in self)` and `pub(super)` for `pub(in super)`. . /// If the following element can't be a tuple (i.e., it's a function definition), then . /// it's not a tuple struct field), and the contents within the parentheses aren't valid, . /// so emit a proper diagnostic. . // Public for rustfmt usage. 207,610 ( 0.00%) pub fn parse_visibility(&mut self, fbt: FollowedByType) -> PResult<'a, Visibility> { 52,130 ( 0.00%) maybe_whole!(self, NtVis, |x| x); . 19,768 ( 0.00%) self.expected_tokens.push(TokenType::Keyword(kw::Crate)); 79,072 ( 0.00%) if self.is_crate_vis() { . self.bump(); // `crate` . self.sess.gated_spans.gate(sym::crate_visibility_modifier, self.prev_token.span); . return Ok(Visibility { . span: self.prev_token.span, . kind: VisibilityKind::Crate(CrateSugar::JustCrate), . tokens: None, . }); . } . . if !self.eat_keyword(kw::Pub) { . // We need a span for our `Spanned`, but there's inherently no . // keyword to grab a span from for inherited visibility; an empty span at the . // beginning of the current token would seem to be the "Schelling span". 17,257 ( 0.00%) return Ok(Visibility { 51,771 ( 0.00%) span: self.token.span.shrink_to_lo(), . kind: VisibilityKind::Inherited, . tokens: None, . }); . } 2,511 ( 0.00%) let lo = self.prev_token.span; . 12,555 ( 0.00%) if self.check(&token::OpenDelim(token::Paren)) { . // We don't `self.bump()` the `(` yet because this might be a struct definition where . // `()` or a tuple might be allowed. For example, `struct Struct(pub (), pub (usize));`. . // Because of this, we only `bump` the `(` if we're assured it is appropriate to do so . // by the following tokens. 72 ( 0.00%) if self.is_keyword_ahead(1, &[kw::Crate]) && self.look_ahead(2, |t| t != &token::ModSep) . // account for `pub(crate::foo)` . { . // Parse `pub(crate)`. 24 ( 0.00%) self.bump(); // `(` 16 ( 0.00%) self.bump(); // `crate` 24 ( 0.00%) self.expect(&token::CloseDelim(token::Paren))?; // `)` 8 ( 0.00%) let vis = VisibilityKind::Crate(CrateSugar::PubCrate); . return Ok(Visibility { 24 ( 0.00%) span: lo.to(self.prev_token.span), . kind: vis, . tokens: None, . }); . } else if self.is_keyword_ahead(1, &[kw::In]) { . // Parse `pub(in path)`. . self.bump(); // `(` . self.bump(); // `in` . let path = self.parse_path(PathStyle::Mod)?; // `path` -- line 1317 ---------------------------------------- -- line 1338 ---------------------------------------- . } else if let FollowedByType::No = fbt { . // Provide this diagnostic if a type cannot follow; . // in particular, if this is not a tuple struct. . self.recover_incorrect_vis_restriction()?; . // Emit diagnostic, but continue with public visibility. . } . } . 7,509 ( 0.00%) Ok(Visibility { span: lo, kind: VisibilityKind::Public, tokens: None }) 186,849 ( 0.00%) } . . /// Recovery for e.g. `pub(something) fn ...` or `struct X { pub(something) y: Z }` . fn recover_incorrect_vis_restriction(&mut self) -> PResult<'a, ()> { . self.bump(); // `(` . let path = self.parse_path(PathStyle::Mod)?; . self.expect(&token::CloseDelim(token::Paren))?; // `)` . . let msg = "incorrect visibility restriction"; -- line 1355 ---------------------------------------- -- line 1370 ---------------------------------------- . ) . .emit(); . . Ok(()) . } . . /// Parses `extern string_literal?`. . fn parse_extern(&mut self) -> Extern { 3,661 ( 0.00%) if self.eat_keyword(kw::Extern) { Extern::from_abi(self.parse_abi()) } else { Extern::None } . } . . /// Parses a string literal as an ABI spec. 190 ( 0.00%) fn parse_abi(&mut self) -> Option { . match self.parse_str_lit() { 12 ( 0.00%) Ok(str_lit) => Some(str_lit), . Err(Some(lit)) => match lit.kind { . ast::LitKind::Err(_) => None, . _ => { . self.struct_span_err(lit.span, "non-string ABI literal") . .span_suggestion( . lit.span, . "specify the ABI with a string literal", . "\"C\"".to_string(), -- line 1392 ---------------------------------------- -- line 1393 ---------------------------------------- . Applicability::MaybeIncorrect, . ) . .emit(); . None . } . }, . Err(None) => None, . } 152 ( 0.00%) } . 36,390 ( 0.00%) pub fn collect_tokens_no_attrs( . &mut self, . f: impl FnOnce(&mut Self) -> PResult<'a, R>, . ) -> PResult<'a, R> { . // The only reason to call `collect_tokens_no_attrs` is if you want tokens, so use . // `ForceCollect::Yes` . self.collect_tokens_trailing_token( . AttrWrapper::empty(), . ForceCollect::Yes, 4,213 ( 0.00%) |this, _attrs| Ok((f(this)?, TrailingToken::None)), . ) 36,390 ( 0.00%) } . . /// `::{` or `::*` 704,728 ( 0.00%) fn is_import_coupler(&mut self) -> bool { 352,364 ( 0.00%) self.check(&token::ModSep) . && self.look_ahead(1, |t| { 224,291 ( 0.00%) *t == token::OpenDelim(token::Brace) || *t == token::BinOp(token::Star) . }) 684,936 ( 0.00%) } . . pub fn clear_expected_tokens(&mut self) { . self.expected_tokens.clear(); . } . } . . crate fn make_unclosed_delims_error( . unmatched: UnmatchedBrace, -- line 1430 ---------------------------------------- -- line 1450 ---------------------------------------- . err.span_label(sp, "closing delimiter possibly meant for this"); . } . if let Some(sp) = unmatched.unclosed_span { . err.span_label(sp, "unclosed delimiter"); . } . Some(err) . } . 239,512 ( 0.00%) pub fn emit_unclosed_delims(unclosed_delims: &mut Vec, sess: &ParseSess) { 119,756 ( 0.00%) *sess.reached_eof.borrow_mut() |= . unclosed_delims.iter().any(|unmatched_delim| unmatched_delim.found_delim.is_none()); 119,756 ( 0.00%) for unmatched in unclosed_delims.drain(..) { . if let Some(mut e) = make_unclosed_delims_error(unmatched, sess) { . e.emit(); . } . } 239,512 ( 0.00%) } . . /// A helper struct used when building an `AttrAnnotatedTokenStream` from . /// a `LazyTokenStream`. Both delimiter and non-delimited tokens . /// are stored as `FlatToken::Token`. A vector of `FlatToken`s . /// is then 'parsed' to build up an `AttrAnnotatedTokenStream` with nested . /// `AttrAnnotatedTokenTree::Delimited` tokens 43,774 ( 0.00%) #[derive(Debug, Clone)] . pub enum FlatToken { . /// A token - this holds both delimiter (e.g. '{' and '}') . /// and non-delimiter tokens . Token(Token), . /// Holds the `AttributesData` for an AST node. The . /// `AttributesData` is inserted directly into the . /// constructed `AttrAnnotatedTokenStream` as . /// an `AttrAnnotatedTokenTree::Attributes` -- line 1481 ---------------------------------------- 7,173,075 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_expand/src/mbe/macro_parser.rs -------------------------------------------------------------------------------- Ir -- line 90 ---------------------------------------- . use std::collections::hash_map::Entry::{Occupied, Vacant}; . use std::mem; . use std::ops::{Deref, DerefMut}; . . // To avoid costly uniqueness checks, we require that `MatchSeq` always has a nonempty body. . . /// Either a sequence of token trees or a single one. This is used as the representation of the . /// sequence of tokens that make up a matcher. 3,203,177 ( 0.01%) #[derive(Clone)] . enum TokenTreeOrTokenTreeSlice<'tt> { 47,511 ( 0.00%) Tt(TokenTree), 687,326 ( 0.00%) TtSeq(&'tt [TokenTree]), . } . . impl<'tt> TokenTreeOrTokenTreeSlice<'tt> { . /// Returns the number of constituent top-level token trees of `self` (top-level in that it . /// will not recursively descend into subtrees). . fn len(&self) -> usize { 6,364,239 ( 0.02%) match *self { 252,158 ( 0.00%) TtSeq(ref v) => v.len(), . Tt(ref tt) => tt.len(), . } . } . . /// The `index`-th token tree of `self`. . fn get_tt(&self, index: usize) -> TokenTree { 1,125,608 ( 0.00%) match *self { 359,896 ( 0.00%) TtSeq(ref v) => v[index].clone(), 3,149,584 ( 0.01%) Tt(ref tt) => tt.get_tt(index), . } . } . } . . /// An unzipping of `TokenTree`s... see the `stack` field of `MatcherPos`. . /// . /// This is used by `inner_parse_loop` to keep track of delimited submatchers that we have . /// descended into. 439,438 ( 0.00%) #[derive(Clone)] . struct MatcherTtFrame<'tt> { . /// The "parent" matcher that we are descending into. . elts: TokenTreeOrTokenTreeSlice<'tt>, . /// The position of the "dot" in `elts` at the time we descended. 219,719 ( 0.00%) idx: usize, . } . . type NamedMatchVec = SmallVec<[NamedMatch; 4]>; . . /// Represents a single "position" (aka "matcher position", aka "item"), as . /// described in the module documentation. . /// . /// Here: -- line 140 ---------------------------------------- -- line 147 ---------------------------------------- . /// position refers to. . /// . /// It is important to distinguish these two lifetimes because we have a . /// `SmallVec>` below, and the destructor of . /// that is considered to possibly access the data from its elements (it lacks . /// a `#[may_dangle]` attribute). As a result, the compiler needs to know that . /// all the elements in that `SmallVec` strictly outlive the root stack slot . /// lifetime. By separating `'tt` from `'root`, we can show that. 14,247,016 ( 0.04%) #[derive(Clone)] . struct MatcherPos<'root, 'tt> { . /// The token or sequence of tokens that make up the matcher . top_elts: TokenTreeOrTokenTreeSlice<'tt>, . . /// The position of the "dot" in this matcher 303,128 ( 0.00%) idx: usize, . . /// For each named metavar in the matcher, we keep track of token trees matched against the . /// metavar by the black box parser. In particular, there may be more than one match per . /// metavar if we are in a repetition (each repetition matches each of the variables). . /// Moreover, matchers and repetitions can be nested; the `matches` field is shared (hence the . /// `Rc`) among all "nested" matchers. `match_lo`, `match_cur`, and `match_hi` keep track of . /// the current position of the `self` matcher position in the shared `matches` list. . /// . /// Also, note that while we are descending into a sequence, matchers are given their own . /// `matches` vector. Only once we reach the end of a full repetition of the sequence do we add . /// all bound matches from the submatcher into the shared top-level `matches` vector. If `sep` . /// and `up` are `Some`, then `matches` is _not_ the shared top-level list. Instead, if one . /// wants the shared `matches`, one should use `up.matches`. 1,212,512 ( 0.00%) matches: Box<[Lrc]>, . /// The position in `matches` corresponding to the first metavar in this matcher's sequence of . /// token trees. In other words, the first metavar in the first token of `top_elts` corresponds . /// to `matches[match_lo]`. 303,128 ( 0.00%) match_lo: usize, . /// The position in `matches` corresponding to the metavar we are currently trying to match . /// against the source token stream. `match_lo <= match_cur <= match_hi`. . match_cur: usize, . /// Similar to `match_lo` except `match_hi` is the position in `matches` of the _last_ metavar . /// in this matcher. 303,128 ( 0.00%) match_hi: usize, . . // The following fields are used if we are matching a repetition. If we aren't, they should be . // `None`. . /// The KleeneOp of this sequence if we are in a repetition. 303,128 ( 0.00%) seq_op: Option, . . /// The separator if we are in a repetition. . sep: Option, . . /// The "parent" matcher position if we are in a repetition. That is, the matcher position just . /// before we enter the sequence. 606,256 ( 0.00%) up: Option>, . . /// Specifically used to "unzip" token trees. By "unzip", we mean to unwrap the delimiters from . /// a delimited token tree (e.g., something wrapped in `(` `)`) or to get the contents of a doc . /// comment... . /// . /// When matching against matchers with nested delimited submatchers (e.g., `pat ( pat ( .. ) . /// pat ) pat`), we need to keep track of the matchers we are descending into. This stack does . /// that where the bottom of the stack is the outermost matcher. . /// Also, throughout the comments, this "descent" is often referred to as "unzipping"... . stack: SmallVec<[MatcherTtFrame<'tt>; 1]>, . } . . impl<'root, 'tt> MatcherPos<'root, 'tt> { . /// Adds `m` as a named match for the `idx`-th metavar. . fn push_match(&mut self, idx: usize, m: NamedMatch) { 2,240,624 ( 0.01%) let matches = Lrc::make_mut(&mut self.matches[idx]); . matches.push(m); . } . } . . // Lots of MatcherPos instances are created at runtime. Allocating them on the . // heap is slow. Furthermore, using SmallVec to allocate them all . // on the stack is also slow, because MatcherPos is quite a large type and . // instances get moved around a lot between vectors, which requires lots of -- line 221 ---------------------------------------- -- line 226 ---------------------------------------- . // and this type is used to encapsulate both cases. . enum MatcherPosHandle<'root, 'tt> { . Ref(&'root mut MatcherPos<'root, 'tt>), . Box(Box>), . } . . impl<'root, 'tt> Clone for MatcherPosHandle<'root, 'tt> { . // This always produces a new Box. 1,212,512 ( 0.00%) fn clone(&self) -> Self { 606,256 ( 0.00%) MatcherPosHandle::Box(match *self { 332,388 ( 0.00%) MatcherPosHandle::Ref(ref r) => Box::new((**r).clone()), . MatcherPosHandle::Box(ref b) => b.clone(), . }) 1,818,768 ( 0.01%) } . } . . impl<'root, 'tt> Deref for MatcherPosHandle<'root, 'tt> { . type Target = MatcherPos<'root, 'tt>; . fn deref(&self) -> &Self::Target { . match *self { . MatcherPosHandle::Ref(ref r) => r, . MatcherPosHandle::Box(ref b) => b, -- line 247 ---------------------------------------- -- line 272 ---------------------------------------- . . /// A `ParseResult` where the `Success` variant contains a mapping of . /// `MacroRulesNormalizedIdent`s to `NamedMatch`es. This represents the mapping . /// of metavars to the token trees they bind to. . crate type NamedParseResult = ParseResult>; . . /// Count how many metavars are named in the given matcher `ms`. . pub(super) fn count_names(ms: &[TokenTree]) -> usize { 594,820 ( 0.00%) ms.iter().fold(0, |count, elt| { 297,410 ( 0.00%) count 892,230 ( 0.00%) + match *elt { 78,338 ( 0.00%) TokenTree::Sequence(_, ref seq) => seq.num_captures, 16,370 ( 0.00%) TokenTree::Delimited(_, ref delim) => count_names(&delim.tts), . TokenTree::MetaVar(..) => 0, . TokenTree::MetaVarDecl(..) => 1, . TokenTree::Token(..) => 0, . } 743,525 ( 0.00%) }) . } . . /// `len` `Vec`s (initially shared and empty) that will store matches of metavars. . fn create_matches(len: usize) -> Box<[Lrc]> { 98,554 ( 0.00%) if len == 0 { . vec![] . } else { . let empty_matches = Lrc::new(SmallVec::new()); . vec![empty_matches; len] . } . .into_boxed_slice() . } . . /// Generates the top-level matcher position in which the "dot" is before the first token of the . /// matcher `ms`. . fn initial_matcher_pos<'root, 'tt>(ms: &'tt [TokenTree]) -> MatcherPos<'root, 'tt> { . let match_idx_hi = count_names(ms); . let matches = create_matches(match_idx_hi); 234,015 ( 0.00%) MatcherPos { . // Start with the top level matcher given to us . top_elts: TtSeq(ms), // "elts" is an abbr. for "elements" . // The "dot" is before the first token of the matcher . idx: 0, . . // Initialize `matches` to a bunch of empty `Vec`s -- one for each metavar in `top_elts`. . // `match_lo` for `top_elts` is 0 and `match_hi` is `matches.len()`. `match_cur` is 0 since . // we haven't actually matched anything yet. -- line 316 ---------------------------------------- -- line 340 ---------------------------------------- . /// particular token tree. . /// . /// The width of each `MatchedSeq` in the `NamedMatch`, and the identity of . /// the `MatchedNonterminal`s, will depend on the token tree it was applied . /// to: each `MatchedSeq` corresponds to a single `TTSeq` in the originating . /// token tree. The depth of the `NamedMatch` structure will therefore depend . /// only on the nesting depth of `ast::TTSeq`s in the originating . /// token tree it was derived from. 294,686 ( 0.00%) #[derive(Debug, Clone)] . crate enum NamedMatch { . MatchedSeq(Lrc), . MatchedNonterminal(Lrc), . } . . /// Takes a sequence of token trees `ms` representing a matcher which successfully matched input . /// and an iterator of items that matched input and produces a `NamedParseResult`. . fn nameize>( -- line 356 ---------------------------------------- -- line 357 ---------------------------------------- . sess: &ParseSess, . ms: &[TokenTree], . mut res: I, . ) -> NamedParseResult { . // Recursively descend into each type of matcher (e.g., sequences, delimited, metavars) and make . // sure that each metavar has _exactly one_ binding. If a metavar does not have exactly one . // binding, then there is an error. If it does, then we insert the binding into the . // `NamedParseResult`. 543,114 ( 0.00%) fn n_rec>( . sess: &ParseSess, . m: &TokenTree, . res: &mut I, . ret_val: &mut FxHashMap, . ) -> Result<(), (rustc_span::Span, String)> { 276,338 ( 0.00%) match *m { . TokenTree::Sequence(_, ref seq) => { 10,872 ( 0.00%) for next_m in &seq.tts { 101,976 ( 0.00%) n_rec(sess, next_m, res.by_ref(), ret_val)? . } . } . TokenTree::Delimited(_, ref delim) => { 6,773 ( 0.00%) for next_m in &delim.tts { 58,680 ( 0.00%) n_rec(sess, next_m, res.by_ref(), ret_val)?; . } . } . TokenTree::MetaVarDecl(span, _, None) => { . if sess.missing_fragment_specifiers.borrow_mut().remove(&span).is_some() { . return Err((span, "missing fragment specifier".to_string())); . } . } 88,404 ( 0.00%) TokenTree::MetaVarDecl(sp, bind_name, _) => match ret_val 58,936 ( 0.00%) .entry(MacroRulesNormalizedIdent::new(bind_name)) . { . Vacant(spot) => { . spot.insert(res.next().unwrap()); . } . Occupied(..) => return Err((sp, format!("duplicated bind name: {}", bind_name))), . }, . TokenTree::MetaVar(..) | TokenTree::Token(..) => (), . } . 49,374 ( 0.00%) Ok(()) 394,992 ( 0.00%) } . . let mut ret_val = FxHashMap::default(); . for m in ms { 197,469 ( 0.00%) match n_rec(sess, m, res.by_ref(), &mut ret_val) { . Ok(_) => {} . Err((sp, msg)) => return Error(sp, msg), . } . } . 30,447 ( 0.00%) Success(ret_val) . } . . /// Performs a token equality check, ignoring syntax context (that is, an unhygienic comparison) . fn token_name_eq(t1: &Token, t2: &Token) -> bool { 1,780,433 ( 0.01%) if let (Some((ident1, is_raw1)), Some((ident2, is_raw2))) = (t1.ident(), t2.ident()) { 31,336 ( 0.00%) ident1.name == ident2.name && is_raw1 == is_raw2 2,289,959 ( 0.01%) } else if let (Some(ident1), Some(ident2)) = (t1.lifetime(), t2.lifetime()) { . ident1.name == ident2.name . } else { 981,242 ( 0.00%) t1.kind == t2.kind . } . } . . /// Process the matcher positions of `cur_items` until it is empty. In the process, this will . /// produce more items in `next_items`, `eof_items`, and `bb_items`. . /// . /// For more info about the how this happens, see the module-level doc comments and the inline . /// comments of this function. -- line 427 ---------------------------------------- -- line 443 ---------------------------------------- . sess: &ParseSess, . cur_items: &mut SmallVec<[MatcherPosHandle<'root, 'tt>; 1]>, . next_items: &mut Vec>, . eof_items: &mut SmallVec<[MatcherPosHandle<'root, 'tt>; 1]>, . bb_items: &mut SmallVec<[MatcherPosHandle<'root, 'tt>; 1]>, . token: &Token, . ) -> ParseResult<()> { . // Pop items from `cur_items` until it is empty. 3,892,680 ( 0.01%) while let Some(mut item) = cur_items.pop() { . // When unzipped trees end, remove them. This corresponds to backtracking out of a . // delimited submatcher into which we already descended. In backtracking out again, we need . // to advance the "dot" past the delimiters in the outer matcher. 12,319,452 ( 0.04%) while item.idx >= item.top_elts.len() { 48,176 ( 0.00%) match item.stack.pop() { . Some(MatcherTtFrame { elts, idx }) => { 216,792 ( 0.00%) item.top_elts = elts; 96,352 ( 0.00%) item.idx = idx + 1; . } . None => break, . } . } . . // Get the current position of the "dot" (`idx`) in `item` and the number of token trees in . // the matcher (`len`). . let idx = item.idx; . let len = item.top_elts.len(); . . // If `idx >= len`, then we are at or past the end of the matcher of `item`. 2,282,863 ( 0.01%) if idx >= len { . // We are repeating iff there is a parent. If the matcher is inside of a repetition, . // then we could be at the end of a sequence or at the beginning of the next . // repetition. 297,266 ( 0.00%) if item.up.is_some() { . // At this point, regardless of whether there is a separator, we should add all . // matches from the complete repetition of the sequence to the shared, top-level . // `matches` list (actually, `up.matches`, which could itself not be the top-level, . // but anyway...). Moreover, we add another item to `cur_items` in which the "dot" . // is at the end of the `up` matcher. This ensures that the "dot" in the `up` . // matcher is also advanced sufficiently. . // . // NOTE: removing the condition `idx == len` allows trailing separators. 507,710 ( 0.00%) if idx == len { . // Get the `up` matcher . let mut new_pos = item.up.clone().unwrap(); . . // Add matches from this repetition to the `matches` of `up` 507,484 ( 0.00%) for idx in item.match_lo..item.match_hi { 1,318,680 ( 0.00%) let sub = item.matches[idx].clone(); 791,208 ( 0.00%) new_pos.push_match(idx, MatchedSeq(sub)); . } . . // Move the "dot" past the repetition in `up` 507,394 ( 0.00%) new_pos.match_cur = item.match_hi; 1,522,452 ( 0.00%) new_pos.idx += 1; . cur_items.push(new_pos); . } . . // Check if we need a separator. 253,742 ( 0.00%) if idx == len && item.sep.is_some() { . // We have a separator, and it is the current token. We can advance past the . // separator token. 378 ( 0.00%) if item.sep.as_ref().map_or(false, |sep| token_name_eq(token, sep)) { 791 ( 0.00%) item.idx += 1; . next_items.push(item); . } . } . // We don't need a separator. Move the "dot" back to the beginning of the matcher . // and try to match again UNLESS we are only allowed to have _one_ repetition. 253,666 ( 0.00%) else if item.seq_op != Some(mbe::KleeneOp::ZeroOrOne) { 507,310 ( 0.00%) item.match_cur = item.match_lo; 1,014,620 ( 0.00%) item.idx = 0; . cur_items.push(item); . } . } . // If we are not in a repetition, then being at the end of a matcher means that we have . // reached the potential end of the input. . else { . eof_items.push(item); . } . } . // We are in the middle of a matcher. . else { . // Look at what token in the matcher we are trying to match the current token (`token`) . // against. Depending on that, we may generate new items. 6,266,112 ( 0.02%) match item.top_elts.get_tt(idx) { . // Need to descend into a sequence 115,040 ( 0.00%) TokenTree::Sequence(sp, seq) => { . // Examine the case where there are 0 matches of this sequence. We are . // implicitly disallowing OneOrMore from having 0 matches here. Thus, that will . // result in a "no rules expected token" error by virtue of this matcher not . // working. 51,976 ( 0.00%) if seq.kleene.op == mbe::KleeneOp::ZeroOrMore . || seq.kleene.op == mbe::KleeneOp::ZeroOrOne . { 51,640 ( 0.00%) let mut new_item = item.clone(); 103,280 ( 0.00%) new_item.match_cur += seq.num_captures; 129,100 ( 0.00%) new_item.idx += 1; 154,920 ( 0.00%) for idx in item.match_cur..item.match_cur + seq.num_captures { 90,702 ( 0.00%) new_item.push_match(idx, MatchedSeq(Lrc::new(smallvec![]))); . } . cur_items.push(new_item); . } . 25,988 ( 0.00%) let matches = create_matches(item.matches.len()); 311,856 ( 0.00%) cur_items.push(MatcherPosHandle::Box(Box::new(MatcherPos { 25,988 ( 0.00%) stack: smallvec![], . sep: seq.separator.clone(), 25,988 ( 0.00%) seq_op: Some(seq.kleene.op), . idx: 0, 129,940 ( 0.00%) matches, 51,976 ( 0.00%) match_lo: item.match_cur, . match_cur: item.match_cur, 51,976 ( 0.00%) match_hi: item.match_cur + seq.num_captures, . up: Some(item), 181,916 ( 0.00%) top_elts: Tt(TokenTree::Sequence(sp, seq)), . }))); . } . . // We need to match a metavar (but the identifier is invalid)... this is an error . TokenTree::MetaVarDecl(span, _, None) => { . if sess.missing_fragment_specifiers.borrow_mut().remove(&span).is_some() { . return Error(span, "missing fragment specifier".to_string()); . } -- line 565 ---------------------------------------- -- line 568 ---------------------------------------- . // We need to match a metavar with a valid ident... call out to the black-box . // parser by adding an item to `bb_items`. . TokenTree::MetaVarDecl(_, _, Some(kind)) => { . // Built-in nonterminals never start with these tokens, so we can eliminate . // them from consideration. . // . // We use the span of the metavariable declaration to determine any . // edition-specific matching behavior for non-terminals. 1,418,375 ( 0.00%) if Parser::nonterminal_may_begin_with(kind, token) { . bb_items.push(item); . } . } . . // We need to descend into a delimited submatcher or a doc comment. To do this, we . // push the current matcher onto a stack and push a new item containing the . // submatcher onto `cur_items`. . // . // At the beginning of the loop, if we reach the end of the delimited submatcher, . // we pop the stack to backtrack out of the descent. 129,035 ( 0.00%) seq @ (TokenTree::Delimited(..) . | TokenTree::Token(Token { kind: DocComment(..), .. })) => { . let lower_elts = mem::replace(&mut item.top_elts, Tt(seq)); 25,807 ( 0.00%) let idx = item.idx; 180,649 ( 0.00%) item.stack.push(MatcherTtFrame { elts: lower_elts, idx }); 103,228 ( 0.00%) item.idx = 0; . cur_items.push(item); . } . . // We just matched a normal token. We can just advance the parser. 1,185,226 ( 0.00%) TokenTree::Token(t) if token_name_eq(&t, token) => { 743,806 ( 0.00%) item.idx += 1; . next_items.push(item); . } . . // There was another token that was not `token`... This means we can't add any . // rules. NOTE that this is not necessarily an error unless _all_ items in . // `cur_items` end up doing this. There may still be some other matchers that do . // end up working out. . TokenTree::Token(..) | TokenTree::MetaVar(..) => {} . } 3,590,919 ( 0.01%) } 1,300,194 ( 0.00%) } . . // Yay a successful parse (so far)! . Success(()) . } . . /// Use the given sequence of token trees (`ms`) as a matcher. Match the token . /// stream from the given `parser` against it and return the match. 156,010 ( 0.00%) pub(super) fn parse_tt( . parser: &mut Cow<'_, Parser<'_>>, . ms: &[TokenTree], . macro_name: Ident, . ) -> NamedParseResult { . // A queue of possible matcher positions. We initialize it with the matcher position in which . // the "dot" is before the first token of the first token tree in `ms`. `inner_parse_loop` then . // processes all of these possible matcher positions and produces possible next positions into . // `next_items`. After some post-processing, the contents of `next_items` replenish `cur_items` . // and we start over again. . // . // This MatcherPos instance is allocated on the stack. All others -- and . // there are frequently *no* others! -- are allocated on the heap. . let mut initial = initial_matcher_pos(ms); 78,005 ( 0.00%) let mut cur_items = smallvec![MatcherPosHandle::Ref(&mut initial)]; . let mut next_items = Vec::new(); . . loop { . // Matcher positions black-box parsed by parser.rs (`parser`) . let mut bb_items = SmallVec::new(); . . // Matcher positions that would be valid if the macro invocation was over now . let mut eof_items = SmallVec::new(); 388,059 ( 0.00%) assert!(next_items.is_empty()); . . // Process `cur_items` until either we have finished the input or we need to get some . // parsing from the black-box parser done. The result is that `next_items` will contain a . // bunch of possible next matcher positions in `next_items`. . match inner_parse_loop( . parser.sess, . &mut cur_items, . &mut next_items, -- line 648 ---------------------------------------- -- line 652 ---------------------------------------- . ) { . Success(_) => {} . Failure(token, msg) => return Failure(token, msg), . Error(sp, msg) => return Error(sp, msg), . ErrorReported => return ErrorReported, . } . . // inner parse loop handled all cur_items, so it's empty 388,059 ( 0.00%) assert!(cur_items.is_empty()); . . // We need to do some post processing after the `inner_parser_loop`. . // . // Error messages here could be improved with links to original rules. . . // If we reached the EOF, check that there is EXACTLY ONE possible matcher. Otherwise, . // either the parse is ambiguous (which should never happen) or there is a syntax error. 1,940,295 ( 0.01%) if parser.token == token::Eof { 13,664 ( 0.00%) if eof_items.len() == 1 { . let matches = 21,500 ( 0.00%) eof_items[0].matches.iter_mut().map(|dv| Lrc::make_mut(dv).pop().unwrap()); 10,149 ( 0.00%) return nameize(parser.sess, ms, matches); . } else if eof_items.len() > 1 { . return Error( . parser.token.span, . "ambiguity: multiple successful parses".to_string(), . ); . } else { 594 ( 0.00%) return Failure( 198 ( 0.00%) Token::new( . token::Eof, 264 ( 0.00%) if parser.token.span.is_dummy() { . parser.token.span . } else { . parser.token.span.shrink_to_hi() . }, . ), . "missing tokens in macro arguments", . ); . } . } . // Performance hack: eof_items may share matchers via Rc with other things that we want . // to modify. Dropping eof_items now may drop these refcounts to 1, preventing an . // unnecessary implicit clone later in Rc::make_mut. 1,538,440 ( 0.00%) drop(eof_items); . . // If there are no possible next positions AND we aren't waiting for the black-box parser, . // then there is a syntax error. 1,272,254 ( 0.00%) if bb_items.is_empty() && next_items.is_empty() { 157,976 ( 0.00%) return Failure(parser.token.clone(), "no rules expected this token in macro call"); . } . // Another possibility is that we need to call out to parse some rust nonterminal . // (black-box) parser. However, if there is not EXACTLY ONE of these, something is wrong. 1,064,744 ( 0.00%) else if (!bb_items.is_empty() && !next_items.is_empty()) || bb_items.len() > 1 { . let nts = bb_items . .iter() . .map(|item| match item.top_elts.get_tt(item.idx) { . TokenTree::MetaVarDecl(_, bind, Some(kind)) => format!("{} ('{}')", kind, bind), . _ => panic!(), . }) . .collect::>() . .join(" or "); -- line 712 ---------------------------------------- -- line 721 ---------------------------------------- . n => format!("built-in NTs {} or {} other options.", nts, n), . } . ), . ); . } . // Dump all possible `next_items` into `cur_items` for the next iteration. . else if !next_items.is_empty() { . // Now process the next token 318,816 ( 0.00%) cur_items.extend(next_items.drain(..)); 106,272 ( 0.00%) parser.to_mut().bump(); . } . // Finally, we have the case where we need to call the black-box parser to get some . // nonterminal. . else { . assert_eq!(bb_items.len(), 1); . 532,372 ( 0.00%) let mut item = bb_items.pop().unwrap(); 2,107,570 ( 0.01%) if let TokenTree::MetaVarDecl(span, _, Some(kind)) = item.top_elts.get_tt(item.idx) { 266,186 ( 0.00%) let match_cur = item.match_cur; . // We use the span of the metavariable declaration to determine any . // edition-specific matching behavior for non-terminals. 1,597,465 ( 0.00%) let nt = match parser.to_mut().parse_nonterminal(kind) { . Err(mut err) => { . err.span_label( . span, . format!("while parsing argument for this `{}` macro fragment", kind), . ) . .emit(); . return ErrorReported; . } 1,597,116 ( 0.00%) Ok(nt) => nt, . }; 1,064,744 ( 0.00%) item.push_match(match_cur, MatchedNonterminal(Lrc::new(nt))); 1,064,744 ( 0.00%) item.idx += 1; 1,597,116 ( 0.00%) item.match_cur += 1; . } else { . unreachable!() . } . cur_items.push(item); . } . 744,916 ( 0.00%) assert!(!cur_items.is_empty()); . } 140,409 ( 0.00%) } 12,717,610 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/smallvec-1.7.0/src/lib.rs -------------------------------------------------------------------------------- Ir -- line 294 ---------------------------------------- . #[allow(deprecated)] . impl From for CollectionAllocErr { . fn from(_: LayoutErr) -> Self { . CollectionAllocErr::CapacityOverflow . } . } . . fn infallible(result: Result) -> T { 3,801,118 ( 0.01%) match result { . Ok(x) => x, . Err(CollectionAllocErr::CapacityOverflow) => panic!("capacity overflow"), . Err(CollectionAllocErr::AllocErr { layout }) => alloc::alloc::handle_alloc_error(layout), . } . } . . /// FIXME: use `Layout::array` when we require a Rust version where it’s stable . /// https://github.com/rust-lang/rust/issues/55724 -- line 310 ---------------------------------------- -- line 422 ---------------------------------------- . #[cfg(feature = "union")] . impl SmallVecData { . #[inline] . unsafe fn inline(&self) -> *const A::Item { . self.inline.as_ptr() as *const A::Item . } . #[inline] . unsafe fn inline_mut(&mut self) -> *mut A::Item { 391,140 ( 0.00%) self.inline.as_mut_ptr() as *mut A::Item . } . #[inline] . fn from_inline(inline: MaybeUninit) -> SmallVecData { . SmallVecData { . inline: core::mem::ManuallyDrop::new(inline), . } . } . #[inline] . unsafe fn into_inline(self) -> MaybeUninit { . core::mem::ManuallyDrop::into_inner(self.inline) . } . #[inline] . unsafe fn heap(&self) -> (*mut A::Item, usize) { 596,684 ( 0.00%) self.heap . } . #[inline] . unsafe fn heap_mut(&mut self) -> &mut (*mut A::Item, usize) { . &mut self.heap . } . #[inline] . fn from_heap(ptr: *mut A::Item, len: usize) -> SmallVecData { . SmallVecData { heap: (ptr, len) } -- line 452 ---------------------------------------- -- line 557 ---------------------------------------- . #[inline] . pub fn new() -> SmallVec { . // Try to detect invalid custom implementations of `Array`. Hopefully, . // this check should be optimized away entirely for valid ones. . assert!( . mem::size_of::() == A::size() * mem::size_of::() . && mem::align_of::() >= mem::align_of::() . ); 4,657,537 ( 0.01%) SmallVec { . capacity: 0, . data: SmallVecData::from_inline(MaybeUninit::uninit()), . } . } . . /// Construct an empty vector with enough capacity pre-allocated to store at least `n` . /// elements. . /// -- line 573 ---------------------------------------- -- line 597 ---------------------------------------- . /// . /// let vec = vec![1, 2, 3, 4, 5]; . /// let small_vec: SmallVec<[_; 3]> = SmallVec::from_vec(vec); . /// . /// assert_eq!(&*small_vec, &[1, 2, 3, 4, 5]); . /// ``` . #[inline] . pub fn from_vec(mut vec: Vec) -> SmallVec { 1,714 ( 0.00%) if vec.capacity() <= Self::inline_capacity() { . unsafe { . let mut data = SmallVecData::::from_inline(MaybeUninit::uninit()); . let len = vec.len(); . vec.set_len(0); . ptr::copy_nonoverlapping(vec.as_ptr(), data.inline_mut(), len); . . SmallVec { . capacity: len, . data, . } . } . } else { . let (ptr, cap, len) = (vec.as_mut_ptr(), vec.capacity(), vec.len()); . mem::forget(vec); . 2,847 ( 0.00%) SmallVec { . capacity: cap, . data: SmallVecData::from_heap(ptr, len), . } . } . } . . /// Constructs a new `SmallVec` on the stack from an `A` without . /// copying elements. -- line 629 ---------------------------------------- -- line 635 ---------------------------------------- . /// let small_vec: SmallVec<_> = SmallVec::from_buf(buf); . /// . /// assert_eq!(&*small_vec, &[1, 2, 3, 4, 5]); . /// ``` . #[inline] . pub fn from_buf(buf: A) -> SmallVec { . SmallVec { . capacity: A::size(), 66,892 ( 0.00%) data: SmallVecData::from_inline(MaybeUninit::new(buf)), . } . } . . /// Constructs a new `SmallVec` on the stack from an `A` without . /// copying elements. Also sets the length, which must be less or . /// equal to the size of `buf`. . /// . /// ```rust -- line 651 ---------------------------------------- -- line 653 ---------------------------------------- . /// . /// let buf = [1, 2, 3, 4, 5, 0, 0, 0]; . /// let small_vec: SmallVec<_> = SmallVec::from_buf_and_len(buf, 5); . /// . /// assert_eq!(&*small_vec, &[1, 2, 3, 4, 5]); . /// ``` . #[inline] . pub fn from_buf_and_len(buf: A, len: usize) -> SmallVec { 70,152 ( 0.00%) assert!(len <= A::size()); 210,456 ( 0.00%) unsafe { SmallVec::from_buf_and_len_unchecked(MaybeUninit::new(buf), len) } . } . . /// Constructs a new `SmallVec` on the stack from an `A` without . /// copying elements. Also sets the length. The user is responsible . /// for ensuring that `len <= A::size()`. . /// . /// ```rust . /// use smallvec::SmallVec; -- line 670 ---------------------------------------- -- line 674 ---------------------------------------- . /// let small_vec: SmallVec<_> = unsafe { . /// SmallVec::from_buf_and_len_unchecked(MaybeUninit::new(buf), 5) . /// }; . /// . /// assert_eq!(&*small_vec, &[1, 2, 3, 4, 5]); . /// ``` . #[inline] . pub unsafe fn from_buf_and_len_unchecked(buf: MaybeUninit, len: usize) -> SmallVec { 35,076 ( 0.00%) SmallVec { . capacity: len, . data: SmallVecData::from_inline(buf), . } . } . . /// Sets the length of a vector. . /// . /// This will explicitly set the size of the vector, without actually . /// modifying its buffers, so it is up to the caller to ensure that the . /// vector is actually the specified size. . pub unsafe fn set_len(&mut self, new_len: usize) { . let (_, len_ptr, _) = self.triple_mut(); 623,810 ( 0.00%) *len_ptr = new_len; . } . . /// The maximum number of elements this vector can hold inline . #[inline] . fn inline_capacity() -> usize { . if mem::size_of::() > 0 { 44 ( 0.00%) A::size() . } else { . // For zero-size items code like `ptr.add(offset)` always returns the same pointer. . // Therefore all items are at the same address, . // and any array size has capacity for infinitely many items. . // The capacity is limited by the bit width of the length field. . // . // `Vec` also does this: . // https://github.com/rust-lang/rust/blob/1.44.0/src/liballoc/raw_vec.rs#L186 -- line 710 ---------------------------------------- -- line 725 ---------------------------------------- . #[inline] . pub fn len(&self) -> usize { . self.triple().1 . } . . /// Returns `true` if the vector is empty . #[inline] . pub fn is_empty(&self) -> bool { 1,588,286 ( 0.00%) self.len() == 0 . } . . /// The number of items the vector can hold without reallocating . #[inline] . pub fn capacity(&self) -> usize { . self.triple().2 . } . . /// Returns a tuple with (data ptr, len, capacity) . /// Useful to get all SmallVec properties with a single check of the current storage variant. . #[inline] . fn triple(&self) -> (*const A::Item, usize, usize) { . unsafe { 25,973,849 ( 0.08%) if self.spilled() { . let (ptr, len) = self.data.heap(); . (ptr, len, self.capacity) . } else { . (self.data.inline(), self.capacity, Self::inline_capacity()) . } . } . } . . /// Returns a tuple with (data ptr, len ptr, capacity) . #[inline] . fn triple_mut(&mut self) -> (*mut A::Item, &mut usize, usize) { . unsafe { 69,622,924 ( 0.22%) if self.spilled() { 132,263 ( 0.00%) let &mut (ptr, ref mut len_ptr) = self.data.heap_mut(); . (ptr, len_ptr, self.capacity) . } else { . ( . self.data.inline_mut(), . &mut self.capacity, . Self::inline_capacity(), . ) . } . } . } . . /// Returns `true` if the data has spilled into a separate heap-allocated buffer. . #[inline] . pub fn spilled(&self) -> bool { 57,344,275 ( 0.18%) self.capacity > Self::inline_capacity() . } . . /// Creates a draining iterator that removes the specified range in the vector . /// and yields the removed items. . /// . /// Note 1: The element range is removed even if the iterator is only . /// partially consumed or not consumed at all. . /// -- line 784 ---------------------------------------- -- line 821 ---------------------------------------- . iter: range_slice.iter(), . vec: NonNull::from(self), . } . } . } . . /// Append an item to the vector. . #[inline] 486,025 ( 0.00%) pub fn push(&mut self, value: A::Item) { . unsafe { . let (mut ptr, mut len, cap) = self.triple_mut(); 9,614,293 ( 0.03%) if *len == cap { 2,870 ( 0.00%) self.reserve(1); 73,832 ( 0.00%) let &mut (heap_ptr, ref mut heap_len) = self.data.heap_mut(); . ptr = heap_ptr; . len = heap_len; . } 99,786 ( 0.00%) ptr::write(ptr.add(*len), value); 14,258,548 ( 0.04%) *len += 1; . } 388,820 ( 0.00%) } . . /// Remove an item from the end of the vector and return it, or None if empty. . #[inline] . pub fn pop(&mut self) -> Option { . unsafe { . let (ptr, len_ptr, _) = self.triple_mut(); 5,155,900 ( 0.02%) if *len_ptr == 0 { . return None; . } 1,445,098 ( 0.00%) let last_index = *len_ptr - 1; 1,711,284 ( 0.01%) *len_ptr = last_index; 374,280 ( 0.00%) Some(ptr::read(ptr.add(last_index))) . } 51 ( 0.00%) } . . /// Moves all the elements of `other` into `self`, leaving `other` empty. . /// . /// # Example . /// . /// ``` . /// # use smallvec::{SmallVec, smallvec}; . /// let mut v0: SmallVec<[u8; 16]> = smallvec![1, 2, 3]; -- line 863 ---------------------------------------- -- line 879 ---------------------------------------- . /// or if the capacity computation overflows `usize`. . pub fn grow(&mut self, new_cap: usize) { . infallible(self.try_grow(new_cap)) . } . . /// Re-allocate to set the capacity to `max(new_cap, inline_size())`. . /// . /// Panics if `new_cap` is less than the vector's length 48,821 ( 0.00%) pub fn try_grow(&mut self, new_cap: usize) -> Result<(), CollectionAllocErr> { . unsafe { 2,643 ( 0.00%) let (ptr, &mut len, cap) = self.triple_mut(); . let unspilled = !self.spilled(); 174,796 ( 0.00%) assert!(new_cap >= len); 174,796 ( 0.00%) if new_cap <= self.inline_size() { . if unspilled { . return Ok(()); . } . self.data = SmallVecData::from_inline(MaybeUninit::uninit()); . ptr::copy_nonoverlapping(ptr, self.data.inline_mut(), len); . self.capacity = len; . deallocate(ptr, cap); 174,796 ( 0.00%) } else if new_cap != cap { 163,366 ( 0.00%) let layout = layout_array::(new_cap)?; . debug_assert!(layout.size() > 0); . let new_alloc; 87,398 ( 0.00%) if unspilled { . new_alloc = NonNull::new(alloc::alloc::alloc(layout)) . .ok_or(CollectionAllocErr::AllocErr { layout })? . .cast() . .as_ptr(); . ptr::copy_nonoverlapping(ptr, new_alloc, len); . } else { . // This should never fail since the same succeeded . // when previously allocating `ptr`. 42,560 ( 0.00%) let old_layout = layout_array::(cap)?; . . let new_ptr = alloc::alloc::realloc(ptr as *mut u8, old_layout, layout.size()); . new_alloc = NonNull::new(new_ptr) . .ok_or(CollectionAllocErr::AllocErr { layout })? . .cast() . .as_ptr(); . } 174,796 ( 0.00%) self.data = SmallVecData::from_heap(new_alloc, len); 248,836 ( 0.00%) self.capacity = new_cap; . } . Ok(()) . } 51,464 ( 0.00%) } . . /// Reserve capacity for `additional` more elements to be inserted. . /// . /// May reserve more space to avoid frequent reallocations. . /// . /// Panics if the capacity computation overflows `usize`. . #[inline] 1,252,047 ( 0.00%) pub fn reserve(&mut self, additional: usize) { 4,039,886 ( 0.01%) infallible(self.try_reserve(additional)) 1,415,104 ( 0.00%) } . . /// Reserve capacity for `additional` more elements to be inserted. . /// . /// May reserve more space to avoid frequent reallocations. 15,506,407 ( 0.05%) pub fn try_reserve(&mut self, additional: usize) -> Result<(), CollectionAllocErr> { . // prefer triple_mut() even if triple() would work . // so that the optimizer removes duplicated calls to it . // from callers like insert() 34,632 ( 0.00%) let (_, &mut len, cap) = self.triple_mut(); 12,493,328 ( 0.04%) if cap - len >= additional { . return Ok(()); . } . let new_cap = len . .checked_add(additional) . .and_then(usize::checked_next_power_of_two) . .ok_or(CollectionAllocErr::CapacityOverflow)?; 6,837 ( 0.00%) self.try_grow(new_cap) 17,078,808 ( 0.05%) } . . /// Reserve the minimum capacity for `additional` more elements to be inserted. . /// . /// Panics if the new capacity overflows `usize`. . pub fn reserve_exact(&mut self, additional: usize) { . infallible(self.try_reserve_exact(additional)) . } . . /// Reserve the minimum capacity for `additional` more elements to be inserted. . pub fn try_reserve_exact(&mut self, additional: usize) -> Result<(), CollectionAllocErr> { . let (_, &mut len, cap) = self.triple_mut(); 566,711 ( 0.00%) if cap - len >= additional { . return Ok(()); . } . let new_cap = len . .checked_add(additional) . .ok_or(CollectionAllocErr::CapacityOverflow)?; 3,515 ( 0.00%) self.try_grow(new_cap) 3,515 ( 0.00%) } . . /// Shrink the capacity of the vector as much as possible. . /// . /// When possible, this will move data from an external heap buffer to the vector's inline . /// storage. . pub fn shrink_to_fit(&mut self) { . if !self.spilled() { . return; -- line 981 ---------------------------------------- -- line 999 ---------------------------------------- . /// If `len` is greater than or equal to the vector's current length, this has no . /// effect. . /// . /// This does not re-allocate. If you want the vector's capacity to shrink, call . /// `shrink_to_fit` after truncating. . pub fn truncate(&mut self, len: usize) { . unsafe { . let (ptr, len_ptr, _) = self.triple_mut(); 236,932 ( 0.00%) while len < *len_ptr { . let last_index = *len_ptr - 1; . *len_ptr = last_index; . ptr::drop_in_place(ptr.add(last_index)); . } . } . } . . /// Extracts a slice containing the entire vector. -- line 1015 ---------------------------------------- -- line 1044 ---------------------------------------- . pub fn clear(&mut self) { . self.truncate(0); . } . . /// Remove and return the element at position `index`, shifting all elements after it to the . /// left. . /// . /// Panics if `index` is out of bounds. 1,184 ( 0.00%) pub fn remove(&mut self, index: usize) -> A::Item { . unsafe { . let (mut ptr, len_ptr, _) = self.triple_mut(); 6,453 ( 0.00%) let len = *len_ptr; 32,895 ( 0.00%) assert!(index < len); 109,830 ( 0.00%) *len_ptr = len - 1; . ptr = ptr.add(index); . let item = ptr::read(ptr); 21,930 ( 0.00%) ptr::copy(ptr.add(1), ptr, len - index - 1); . item . } 1,480 ( 0.00%) } . . /// Insert an element at position `index`, shifting all elements after it to the right. . /// . /// Panics if `index` is out of bounds. 121,229 ( 0.00%) pub fn insert(&mut self, index: usize, element: A::Item) { . self.reserve(1); . . unsafe { . let (mut ptr, len_ptr, _) = self.triple_mut(); 28,631 ( 0.00%) let len = *len_ptr; 39,652 ( 0.00%) assert!(index <= len); 79,304 ( 0.00%) *len_ptr = len + 1; . ptr = ptr.add(index); 39,652 ( 0.00%) ptr::copy(ptr, ptr.add(1), len - index); . ptr::write(ptr, element); . } 77,148 ( 0.00%) } . . /// Insert multiple elements at position `index`, shifting all following elements toward the . /// back. . pub fn insert_many>(&mut self, index: usize, iterable: I) { . let mut iter = iterable.into_iter(); . if index == self.len() { . return self.extend(iter); . } -- line 1088 ---------------------------------------- -- line 1201 ---------------------------------------- . } . } . . /// Retains only the elements specified by the predicate. . /// . /// In other words, remove all elements `e` such that `f(&e)` returns `false`. . /// This method operates in place and preserves the order of the retained . /// elements. 446,049 ( 0.00%) pub fn retain bool>(&mut self, mut f: F) { . let mut del = 0; . let len = self.len(); . for i in 0..len { 132,480 ( 0.00%) if !f(&mut self[i]) { 82 ( 0.00%) del += 1; 37,078 ( 0.00%) } else if del > 0 { 120 ( 0.00%) self.swap(i - del, i); . } . } 99,122 ( 0.00%) self.truncate(len - del); 396,488 ( 0.00%) } . . /// Removes consecutive duplicate elements. 28 ( 0.00%) pub fn dedup(&mut self) . where . A::Item: PartialEq, . { . self.dedup_by(|a, b| a == b); 32 ( 0.00%) } . . /// Removes consecutive duplicate elements using the given equality relation. . pub fn dedup_by(&mut self, mut same_bucket: F) . where . F: FnMut(&mut A::Item, &mut A::Item) -> bool, . { . // See the implementation of Vec::dedup_by in the . // standard library for an explanation of this algorithm. . let len = self.len(); 8 ( 0.00%) if len <= 1 { . return; . } . . let ptr = self.as_mut_ptr(); . let mut w: usize = 1; . . unsafe { . for r in 1..len { . let p_r = ptr.add(r); 32 ( 0.00%) let p_wm1 = ptr.add(w - 1); . if !same_bucket(&mut *p_r, &mut *p_wm1) { 8 ( 0.00%) if r != w { . let p_w = p_wm1.add(1); . mem::swap(&mut *p_r, &mut *p_w); . } 8 ( 0.00%) w += 1; . } . } . } . . self.truncate(w); . } . . /// Removes consecutive elements that map to the same key. -- line 1262 ---------------------------------------- -- line 1418 ---------------------------------------- . capacity: len, . data: SmallVecData::from_inline(unsafe { . let mut data: MaybeUninit = MaybeUninit::uninit(); . ptr::copy_nonoverlapping( . slice.as_ptr(), . data.as_mut_ptr() as *mut A::Item, . len, . ); 2,204 ( 0.00%) data . }), . } . } else { . let mut b = slice.to_vec(); . let (ptr, cap) = (b.as_mut_ptr(), b.capacity()); . mem::forget(b); . SmallVec { . capacity: cap, -- line 1434 ---------------------------------------- -- line 1436 ---------------------------------------- . } . } . } . . /// Copy elements from a slice into the vector at position `index`, shifting any following . /// elements toward the back. . /// . /// For slices of `Copy` types, this is more efficient than `insert`. 2,391,985 ( 0.01%) pub fn insert_from_slice(&mut self, index: usize, slice: &[A::Item]) { . self.reserve(slice.len()); . . let len = self.len(); 698,280 ( 0.00%) assert!(index <= len); . . unsafe { . let slice_ptr = slice.as_ptr(); . let ptr = self.as_mut_ptr().add(index); . ptr::copy(ptr, ptr.add(slice.len()), len - index); . ptr::copy_nonoverlapping(slice_ptr, ptr, slice.len()); 465,520 ( 0.00%) self.set_len(len + slice.len()); . } 1,862,080 ( 0.01%) } . . /// Copy elements from a slice and append them to the vector. . /// . /// For slices of `Copy` types, this is more efficient than `extend`. . #[inline] . pub fn extend_from_slice(&mut self, slice: &[A::Item]) { . let len = self.len(); 565,233 ( 0.00%) self.insert_from_slice(len, slice); . } . } . . impl SmallVec . where . A::Item: Clone, . { . /// Resizes the vector so that its length is equal to `len`. -- line 1473 ---------------------------------------- -- line 1489 ---------------------------------------- . /// Creates a `SmallVec` with `n` copies of `elem`. . /// ``` . /// use smallvec::SmallVec; . /// . /// let v = SmallVec::<[char; 128]>::from_elem('d', 2); . /// assert_eq!(v, SmallVec::from_buf(['d', 'd'])); . /// ``` . pub fn from_elem(elem: A::Item, n: usize) -> Self { 11,142 ( 0.00%) if n > Self::inline_capacity() { . vec![elem; n].into() . } else { . let mut v = SmallVec::::new(); . unsafe { . let (ptr, len_ptr, _) = v.triple_mut(); . let mut local_len = SetLenOnDrop::new(len_ptr); . . for i in 0..n { . ::core::ptr::write(ptr.add(i), elem.clone()); . local_len.increment_len(1); . } . } 16,437 ( 0.00%) v . } . } . } . . impl ops::Deref for SmallVec { . type Target = [A::Item]; . #[inline] . fn deref(&self) -> &[A::Item] { -- line 1518 ---------------------------------------- -- line 1522 ---------------------------------------- . } . } . } . . impl ops::DerefMut for SmallVec { . #[inline] . fn deref_mut(&mut self) -> &mut [A::Item] { . unsafe { 705,484 ( 0.00%) let (ptr, &mut len, _) = self.triple_mut(); . slice::from_raw_parts_mut(ptr, len) . } . } . } . . impl AsRef<[A::Item]> for SmallVec { . #[inline] . fn as_ref(&self) -> &[A::Item] { -- line 1538 ---------------------------------------- -- line 1716 ---------------------------------------- . SmallVec::extend_from_slice(self, other) . } . } . . impl FromIterator for SmallVec { . #[inline] . fn from_iter>(iterable: I) -> SmallVec { . let mut v = SmallVec::new(); 4,734,622 ( 0.01%) v.extend(iterable); . v . } . } . . impl Extend for SmallVec { 19,987,281 ( 0.06%) fn extend>(&mut self, iterable: I) { 1,634,921 ( 0.01%) let mut iter = iterable.into_iter(); . let (lower_size_bound, _) = iter.size_hint(); 246,724 ( 0.00%) self.reserve(lower_size_bound); . . unsafe { . let (ptr, len_ptr, cap) = self.triple_mut(); . let mut len = SetLenOnDrop::new(len_ptr); 8,596,137 ( 0.03%) while len.get() < cap { 2,190,881 ( 0.01%) if let Some(out) = iter.next() { 996 ( 0.00%) ptr::write(ptr.add(len.get()), out); . len.increment_len(1); . } else { . return; . } . } . } . 938,570 ( 0.00%) for elem in iter { 145,996 ( 0.00%) self.push(elem); . } 16,741,023 ( 0.05%) } . } . . impl fmt::Debug for SmallVec . where . A::Item: fmt::Debug, . { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . f.debug_list().entries(self.iter()).finish() -- line 1759 ---------------------------------------- -- line 1764 ---------------------------------------- . #[inline] . fn default() -> SmallVec { . SmallVec::new() . } . } . . #[cfg(feature = "may_dangle")] . unsafe impl<#[may_dangle] A: Array> Drop for SmallVec { 13,298,503 ( 0.04%) fn drop(&mut self) { . unsafe { 11,079,543 ( 0.03%) if self.spilled() { . let (ptr, len) = self.data.heap(); . Vec::from_raw_parts(ptr, len, self.capacity); . } else { . ptr::drop_in_place(&mut self[..]); . } . } 13,676,892 ( 0.04%) } . } . . #[cfg(not(feature = "may_dangle"))] . impl Drop for SmallVec { . fn drop(&mut self) { . unsafe { . if self.spilled() { . let (ptr, len) = self.data.heap(); -- line 1789 ---------------------------------------- -- line 1888 ---------------------------------------- . A::Item: Clone, . { . fn clone(&self) -> IntoIter { . SmallVec::from(self.as_slice()).into_iter() . } . } . . impl Drop for IntoIter { 8,873 ( 0.00%) fn drop(&mut self) { 470,723 ( 0.00%) for _ in self {} 8,072 ( 0.00%) } . } . . impl Iterator for IntoIter { . type Item = A::Item; . . #[inline] . fn next(&mut self) -> Option { 2,431,453 ( 0.01%) if self.current == self.end { 37,329 ( 0.00%) None . } else { . unsafe { . let current = self.current; 1,311,235 ( 0.00%) self.current += 1; 22,940 ( 0.00%) Some(ptr::read(self.data.as_ptr().add(current))) . } . } . } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 90,322 ( 0.00%) let size = self.end - self.current; . (size, Some(size)) . } . } . . impl DoubleEndedIterator for IntoIter { . #[inline] . fn next_back(&mut self) -> Option { . if self.current == self.end { -- line 1927 ---------------------------------------- -- line 1955 ---------------------------------------- . impl IntoIterator for SmallVec { . type IntoIter = IntoIter; . type Item = A::Item; . fn into_iter(mut self) -> Self::IntoIter { . unsafe { . // Set SmallVec len to zero as `IntoIter` drop handles dropping of the elements . let len = self.len(); . self.set_len(0); 178,261 ( 0.00%) IntoIter { 1,483,997 ( 0.00%) data: self, . current: 0, . end: len, . } . } . } . } . . impl<'a, A: Array> IntoIterator for &'a SmallVec { -- line 1972 ---------------------------------------- -- line 2000 ---------------------------------------- . len: &'a mut usize, . local_len: usize, . } . . impl<'a> SetLenOnDrop<'a> { . #[inline] . fn new(len: &'a mut usize) -> Self { . SetLenOnDrop { 2,162,569 ( 0.01%) local_len: *len, . len, . } . } . . #[inline] . fn get(&self) -> usize { . self.local_len . } . . #[inline] . fn increment_len(&mut self, increment: usize) { 1,099,231 ( 0.00%) self.local_len += increment; . } . } . . impl<'a> Drop for SetLenOnDrop<'a> { . #[inline] . fn drop(&mut self) { 2,708,013 ( 0.01%) *self.len = self.local_len; . } . } . . #[cfg(feature = "const_new")] . impl SmallVec<[T; N]> { . /// Construct an empty vector. . /// . /// This is a `const` version of [`SmallVec::new`] that is enabled by the feature `const_new`, with the limitation that it only works for arrays. -- line 2035 ---------------------------------------- 33,429,240 ( 0.10%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_ast/src/token.rs -------------------------------------------------------------------------------- Ir -- line 12 ---------------------------------------- . use rustc_data_structures::sync::Lrc; . use rustc_macros::HashStable_Generic; . use rustc_span::symbol::{kw, sym}; . use rustc_span::symbol::{Ident, Symbol}; . use rustc_span::{self, edition::Edition, Span, DUMMY_SP}; . use std::borrow::Cow; . use std::{fmt, mem}; . 118,516 ( 0.00%) #[derive(Clone, Copy, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)] . pub enum CommentKind { . Line, . Block, . } . 1,436 ( 0.00%) #[derive(Clone, PartialEq, Encodable, Decodable, Hash, Debug, Copy)] . #[derive(HashStable_Generic)] . pub enum BinOpToken { . Plus, . Minus, . Star, . Slash, . Percent, . Caret, . And, . Or, . Shl, . Shr, . } . . /// A delimiter token. 475,259 ( 0.00%) #[derive(Clone, PartialEq, Eq, Encodable, Decodable, Hash, Debug, Copy)] . #[derive(HashStable_Generic)] . pub enum DelimToken { . /// A round parenthesis (i.e., `(` or `)`). . Paren, . /// A square bracket (i.e., `[` or `]`). . Bracket, . /// A curly brace (i.e., `{` or `}`). . Brace, . /// An empty delimiter. . NoDelim, . } . 44,389 ( 0.00%) #[derive(Clone, Copy, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)] . pub enum LitKind { . Bool, // AST only, must never appear in a `Token` . Byte, . Char, . Integer, . Float, . Str, . StrRaw(u16), // raw string delimited by `n` hash symbols . ByteStr, . ByteStrRaw(u16), // raw byte string delimited by `n` hash symbols . Err, . } . . /// A literal token. 322,229 ( 0.00%) #[derive(Clone, Copy, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)] . pub struct Lit { 4 ( 0.00%) pub kind: LitKind, 4 ( 0.00%) pub symbol: Symbol, 4 ( 0.00%) pub suffix: Option, . } . . impl fmt::Display for Lit { 2,645 ( 0.00%) fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { 4,761 ( 0.00%) let Lit { kind, symbol, suffix } = *self; . match kind { 3 ( 0.00%) Byte => write!(f, "b'{}'", symbol)?, . Char => write!(f, "'{}'", symbol)?, 12 ( 0.00%) Str => write!(f, "\"{}\"", symbol)?, . StrRaw(n) => write!( . f, . "r{delim}\"{string}\"{delim}", . delim = "#".repeat(n as usize), . string = symbol . )?, . ByteStr => write!(f, "b\"{}\"", symbol)?, . ByteStrRaw(n) => write!( . f, . "br{delim}\"{string}\"{delim}", . delim = "#".repeat(n as usize), . string = symbol . )?, 1,572 ( 0.00%) Integer | Float | Bool | Err => write!(f, "{}", symbol)?, . } . 1,058 ( 0.00%) if let Some(suffix) = suffix { . write!(f, "{}", suffix)?; . } . . Ok(()) 2,645 ( 0.00%) } . } . . impl LitKind { . /// An English article for the literal token kind. . pub fn article(self) -> &'static str { . match self { . Integer | Err => "an", . _ => "a", -- line 113 ---------------------------------------- -- line 123 ---------------------------------------- . Float => "float", . Str | StrRaw(..) => "string", . ByteStr | ByteStrRaw(..) => "byte string", . Err => "error", . } . } . . crate fn may_have_suffix(self) -> bool { 22 ( 0.00%) matches!(self, Integer | Float | Err) . } . } . . impl Lit { . pub fn new(kind: LitKind, symbol: Symbol, suffix: Option) -> Lit { . Lit { kind, symbol, suffix } 29,214 ( 0.00%) } . } . 3,024 ( 0.00%) pub fn ident_can_begin_expr(name: Symbol, span: Span, is_raw: bool) -> bool { 5,292 ( 0.00%) let ident_token = Token::new(Ident(name, is_raw), span); . 1,544 ( 0.00%) !ident_token.is_reserved_ident() . || ident_token.is_path_segment_keyword() . || [ . kw::Async, . kw::Do, . kw::Box, . kw::Break, . kw::Const, . kw::Continue, -- line 152 ---------------------------------------- -- line 161 ---------------------------------------- . kw::True, . kw::Try, . kw::Unsafe, . kw::While, . kw::Yield, . kw::Static, . ] . .contains(&name) 3,780 ( 0.00%) } . . fn ident_can_begin_type(name: Symbol, span: Span, is_raw: bool) -> bool { 6,696 ( 0.00%) let ident_token = Token::new(Ident(name, is_raw), span); . 2,580 ( 0.00%) !ident_token.is_reserved_ident() . || ident_token.is_path_segment_keyword() . || [kw::Underscore, kw::For, kw::Impl, kw::Fn, kw::Unsafe, kw::Extern, kw::Typeof, kw::Dyn] . .contains(&name) . } . 67,762,243 ( 0.21%) #[derive(Clone, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)] . pub enum TokenKind { . /* Expression-operator symbols. */ . Eq, . Lt, . Le, . EqEq, . Ne, . Ge, . Gt, . AndAnd, . OrOr, . Not, . Tilde, 242,157 ( 0.00%) BinOp(BinOpToken), 1,977 ( 0.00%) BinOpEq(BinOpToken), . . /* Structural symbols */ . At, . Dot, . DotDot, . DotDotDot, . DotDotEq, . Comma, -- line 203 ---------------------------------------- -- line 208 ---------------------------------------- . LArrow, . FatArrow, . Pound, . Dollar, . Question, . /// Used by proc macros for representing lifetimes, not generated by lexer right now. . SingleQuote, . /// An opening delimiter (e.g., `{`). 533,193 ( 0.00%) OpenDelim(DelimToken), . /// A closing delimiter (e.g., `}`). 201,627 ( 0.00%) CloseDelim(DelimToken), . . /* Literals */ 316,586 ( 0.00%) Literal(Lit), . . /// Identifier token. . /// Do not forget about `NtIdent` when you want to match on identifiers. . /// It's recommended to use `Token::(ident,uninterpolate,uninterpolated_span)` to . /// treat regular and interpolated identifiers in the same way. 656,451 ( 0.00%) Ident(Symbol, /* is_raw */ bool), . /// Lifetime identifier token. . /// Do not forget about `NtLifetime` when you want to match on lifetime identifiers. . /// It's recommended to use `Token::(lifetime,uninterpolate,uninterpolated_span)` to . /// treat regular and interpolated lifetime identifiers in the same way. 1,647 ( 0.00%) Lifetime(Symbol), . 303,632 ( 0.00%) Interpolated(Lrc), . . /// A doc comment token. . /// `Symbol` is the doc comment's data excluding its "quotes" (`///`, `/**`, etc) . /// similarly to symbols in string literal tokens. 57,924 ( 0.00%) DocComment(CommentKind, ast::AttrStyle, Symbol), . . Eof, . } . . // `TokenKind` is used a lot. Make sure it doesn't unintentionally get bigger. . #[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))] . rustc_data_structures::static_assert_size!(TokenKind, 16); . 7,094,421 ( 0.02%) #[derive(Clone, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)] . pub struct Token { 553,050 ( 0.00%) pub kind: TokenKind, 71 ( 0.00%) pub span: Span, . } . . impl TokenKind { . pub fn lit(kind: LitKind, symbol: Symbol, suffix: Option) -> TokenKind { . Literal(Lit::new(kind, symbol, suffix)) 7,080 ( 0.00%) } . . // An approximation to proc-macro-style single-character operators used by rustc parser. . // If the operator token can be broken into two tokens, the first of which is single-character, . // then this function performs that operation, otherwise it returns `None`. 33,292 ( 0.00%) pub fn break_two_token_op(&self) -> Option<(TokenKind, TokenKind)> { 134,761 ( 0.00%) Some(match *self { . Le => (Lt, Eq), . EqEq => (Eq, Eq), . Ne => (Not, Eq), . Ge => (Gt, Eq), . AndAnd => (BinOp(And), BinOp(And)), . OrOr => (BinOp(Or), BinOp(Or)), . BinOp(Shl) => (Lt, Lt), . BinOp(Shr) => (Gt, Gt), -- line 271 ---------------------------------------- -- line 280 ---------------------------------------- . BinOpEq(Shl) => (Lt, Le), . BinOpEq(Shr) => (Gt, Ge), . DotDot => (Dot, Dot), . DotDotDot => (Dot, DotDot), . ModSep => (Colon, Colon), . RArrow => (BinOp(Minus), Gt), . LArrow => (Lt, BinOp(Minus)), . FatArrow => (Eq, Gt), 33,107 ( 0.00%) _ => return None, . }) 33,292 ( 0.00%) } . . /// Returns tokens that are likely to be typed accidentally instead of the current token. . /// Enables better error recovery when the wrong token is found. . pub fn similar_tokens(&self) -> Option> { . match *self { . Comma => Some(vec![Dot, Lt, Semi]), . Semi => Some(vec![Colon, Comma]), . FatArrow => Some(vec![Eq, RArrow]), . _ => None, . } . } . . pub fn should_end_const_arg(&self) -> bool { 5,724 ( 0.00%) matches!(self, Gt | Ge | BinOp(Shr) | BinOpEq(Shr)) 1,176 ( 0.00%) } . } . . impl Token { 418,137 ( 0.00%) pub fn new(kind: TokenKind, span: Span) -> Self { 1,408,836 ( 0.00%) Token { kind, span } 418,137 ( 0.00%) } . . /// Some token that will be thrown away later. 48,979 ( 0.00%) pub fn dummy() -> Self { . Token::new(TokenKind::Question, DUMMY_SP) 48,979 ( 0.00%) } . . /// Recovers a `Token` from an `Ident`. This creates a raw identifier if necessary. . pub fn from_ast_ident(ident: Ident) -> Self { 31,184 ( 0.00%) Token::new(Ident(ident.name, ident.is_raw_guess()), ident.span) . } . . /// Return this token by value and leave a dummy token in its place. 103,812 ( 0.00%) pub fn take(&mut self) -> Self { . mem::replace(self, Token::dummy()) 103,812 ( 0.00%) } . . /// For interpolated tokens, returns a span of the fragment to which the interpolated . /// token refers. For all other tokens this is just a regular span. . /// It is particularly important to use this for identifiers and lifetimes . /// for which spans affect name resolution and edition checks. . /// Note that keywords are also identifiers, so they should use this . /// if they keep spans or perform edition checks. . pub fn uninterpolated_span(&self) -> Span { 26,014 ( 0.00%) match &self.kind { . Interpolated(nt) => nt.span(), 13,007 ( 0.00%) _ => self.span, . } 13,007 ( 0.00%) } . . pub fn is_op(&self) -> bool { 311,436 ( 0.00%) !matches!( 103,812 ( 0.00%) self.kind, . OpenDelim(..) . | CloseDelim(..) . | Literal(..) . | DocComment(..) . | Ident(..) . | Lifetime(..) . | Interpolated(..) . | Eof . ) 103,812 ( 0.00%) } . . pub fn is_like_plus(&self) -> bool { 109,162 ( 0.00%) matches!(self.kind, BinOp(Plus) | BinOpEq(Plus)) 21,706 ( 0.00%) } . . /// Returns `true` if the token can appear at the start of an expression. 2,124 ( 0.00%) pub fn can_begin_expr(&self) -> bool { 10,620 ( 0.00%) match self.uninterpolate().kind { 6,804 ( 0.00%) Ident(name, is_raw) => 2,268 ( 0.00%) ident_can_begin_expr(name, self.span, is_raw), // value name or keyword . OpenDelim(..) | // tuple, array or block . Literal(..) | // literal . Not | // operator not . BinOp(Minus) | // unary minus . BinOp(Star) | // dereference . BinOp(Or) | OrOr | // closure . BinOp(And) | // reference . AndAnd | // double reference . // DotDotDot is no longer supported, but we need some way to display the error . DotDot | DotDotDot | DotDotEq | // range notation . Lt | BinOp(Shl) | // associated path . ModSep | // global path . Lifetime(..) | // labeled loop . Pound => true, // expression attributes 10,392 ( 0.00%) Interpolated(ref nt) => matches!(**nt, NtLiteral(..) | . NtExpr(..) | . NtBlock(..) | . NtPath(..)), . _ => false, . } 4,248 ( 0.00%) } . . /// Returns `true` if the token can appear at the start of a type. 8,624 ( 0.00%) pub fn can_begin_type(&self) -> bool { 12,909 ( 0.00%) match self.uninterpolate().kind { 10,044 ( 0.00%) Ident(name, is_raw) => 1,116 ( 0.00%) ident_can_begin_type(name, self.span, is_raw), // type name or keyword . OpenDelim(Paren) | // tuple . OpenDelim(Bracket) | // array . Not | // never . BinOp(Star) | // raw pointer . BinOp(And) | // reference . AndAnd | // double reference . Question | // maybe bound in trait object . Lifetime(..) | // lifetime bound in trait object . Lt | BinOp(Shl) | // associated path . ModSep => true, // global path 4,686 ( 0.00%) Interpolated(ref nt) => matches!(**nt, NtTy(..) | NtPath(..)), . _ => false, . } 12,936 ( 0.00%) } . . /// Returns `true` if the token can appear at the start of a const param. . pub fn can_begin_const_arg(&self) -> bool { 6,170 ( 0.00%) match self.kind { . OpenDelim(Brace) => true, 1,402 ( 0.00%) Interpolated(ref nt) => matches!(**nt, NtExpr(..) | NtBlock(..) | NtLiteral(..)), 1,058 ( 0.00%) _ => self.can_begin_literal_maybe_minus(), . } 176 ( 0.00%) } . . /// Returns `true` if the token can appear at the start of a generic bound. . pub fn can_begin_bound(&self) -> bool { . self.is_path_start() . || self.is_lifetime() . || self.is_keyword(kw::For) . || self == &Question . || self == &OpenDelim(Paren) -- line 421 ---------------------------------------- -- line 427 ---------------------------------------- . } . . /// Returns `true` if the token is any literal, a minus (which can prefix a literal, . /// for example a '-42', or one of the boolean idents). . /// . /// In other words, would this token be a valid start of `parse_literal_maybe_minus`? . /// . /// Keep this in sync with and `Lit::from_token`, excluding unary negation. 1,072 ( 0.00%) pub fn can_begin_literal_maybe_minus(&self) -> bool { 9,495 ( 0.00%) match self.uninterpolate().kind { . Literal(..) | BinOp(Minus) => true, 3,036 ( 0.00%) Ident(name, false) if name.is_bool_lit() => true, . Interpolated(ref nt) => match &**nt { . NtLiteral(_) => true, . NtExpr(e) => match &e.kind { . ast::ExprKind::Lit(_) => true, . ast::ExprKind::Unary(ast::UnOp::Neg, e) => { . matches!(&e.kind, ast::ExprKind::Lit(_)) . } . _ => false, . }, . _ => false, . }, . _ => false, . } 2,144 ( 0.00%) } . . // A convenience function for matching on identifiers during parsing. . // Turns interpolated identifier (`$i: ident`) or lifetime (`$l: lifetime`) token . // into the regular identifier or lifetime token it refers to, . // otherwise returns the original token. 49,805 ( 0.00%) pub fn uninterpolate(&self) -> Cow<'_, Token> { 6,368,274 ( 0.02%) match &self.kind { 810,330 ( 0.00%) Interpolated(nt) => match **nt { 250,966 ( 0.00%) NtIdent(ident, is_raw) => { 627,466 ( 0.00%) Cow::Owned(Token::new(Ident(ident.name, is_raw), ident.span)) . } . NtLifetime(ident) => Cow::Owned(Token::new(Lifetime(ident.name), ident.span)), . _ => Cow::Borrowed(self), . }, . _ => Cow::Borrowed(self), . } 49,805 ( 0.00%) } . . /// Returns an identifier if this token is an identifier. 1,024,905 ( 0.00%) pub fn ident(&self) -> Option<(Ident, /* is_raw */ bool)> { . let token = self.uninterpolate(); 3,925,971 ( 0.01%) match token.kind { 13,630,846 ( 0.04%) Ident(name, is_raw) => Some((Ident::new(name, token.span), is_raw)), . _ => None, . } 6,847,741 ( 0.02%) } . . /// Returns a lifetime identifier if this token is a lifetime. 656,765 ( 0.00%) pub fn lifetime(&self) -> Option { . let token = self.uninterpolate(); 1,321,256 ( 0.00%) match token.kind { 3,408 ( 0.00%) Lifetime(name) => Some(Ident::new(name, token.span)), . _ => None, . } 4,597,355 ( 0.01%) } . . /// Returns `true` if the token is an identifier. . pub fn is_ident(&self) -> bool { . self.ident().is_some() 17,572 ( 0.00%) } . . /// Returns `true` if the token is a lifetime. 3,863 ( 0.00%) pub fn is_lifetime(&self) -> bool { . self.lifetime().is_some() 7,726 ( 0.00%) } . . /// Returns `true` if the token is an identifier whose name is the given . /// string slice. 20,055 ( 0.00%) pub fn is_ident_named(&self, name: Symbol) -> bool { . self.ident().map_or(false, |(ident, _)| ident.name == name) 40,110 ( 0.00%) } . . /// Returns `true` if the token is an interpolated path. . fn is_path(&self) -> bool { 195,498 ( 0.00%) if let Interpolated(ref nt) = self.kind { 2,380 ( 0.00%) if let NtPath(..) = **nt { . return true; . } . } . false . } . . /// Would `maybe_whole_expr` in `parser.rs` return `Ok(..)`? . /// That is, is this a pre-parsed expression dropped into the token stream . /// (which happens while parsing the result of macro expansion)? . pub fn is_whole_expr(&self) -> bool { 22 ( 0.00%) if let Interpolated(ref nt) = self.kind { . if let NtExpr(_) | NtLiteral(_) | NtPath(_) | NtIdent(..) | NtBlock(_) = **nt { . return true; . } . } . . false 11 ( 0.00%) } . . // Is the token an interpolated block (`$b:block`)? . pub fn is_whole_block(&self) -> bool { 1,374 ( 0.00%) if let Interpolated(ref nt) = self.kind { . if let NtBlock(..) = **nt { . return true; . } . } . false 687 ( 0.00%) } . . /// Returns `true` if the token is either the `mut` or `const` keyword. 9 ( 0.00%) pub fn is_mutability(&self) -> bool { 9 ( 0.00%) self.is_keyword(kw::Mut) || self.is_keyword(kw::Const) 18 ( 0.00%) } . 11,214 ( 0.00%) pub fn is_qpath_start(&self) -> bool { 110,904 ( 0.00%) self == &Lt || self == &BinOp(Shl) . } . 199,616 ( 0.00%) pub fn is_path_start(&self) -> bool { 289,326 ( 0.00%) self == &ModSep . || self.is_qpath_start() . || self.is_path() . || self.is_path_segment_keyword() 35,166 ( 0.00%) || self.is_ident() && !self.is_reserved_ident() 249,520 ( 0.00%) } . . /// Returns `true` if the token is a given keyword, `kw`. 734,019 ( 0.00%) pub fn is_keyword(&self, kw: Symbol) -> bool { . self.is_non_raw_ident_where(|id| id.name == kw) 1,468,038 ( 0.00%) } . 5,291 ( 0.00%) pub fn is_path_segment_keyword(&self) -> bool { . self.is_non_raw_ident_where(Ident::is_path_segment_keyword) . } . . // Returns true for reserved identifiers used internally for elided lifetimes, . // unnamed method parameters, crate root module, error recovery etc. 18,177 ( 0.00%) pub fn is_special_ident(&self) -> bool { . self.is_non_raw_ident_where(Ident::is_special) 261 ( 0.00%) } . . /// Returns `true` if the token is a keyword used in the language. 18,177 ( 0.00%) pub fn is_used_keyword(&self) -> bool { . self.is_non_raw_ident_where(Ident::is_used_keyword) 261 ( 0.00%) } . . /// Returns `true` if the token is a keyword reserved for possible future use. 18,177 ( 0.00%) pub fn is_unused_keyword(&self) -> bool { . self.is_non_raw_ident_where(Ident::is_unused_keyword) 261 ( 0.00%) } . . /// Returns `true` if the token is either a special identifier or a keyword. . pub fn is_reserved_ident(&self) -> bool { . self.is_non_raw_ident_where(Ident::is_reserved) . } . . /// Returns `true` if the token is the identifier `true` or `false`. 5,291 ( 0.00%) pub fn is_bool_lit(&self) -> bool { 10,582 ( 0.00%) self.is_non_raw_ident_where(|id| id.name.is_bool_lit()) . } . . pub fn is_numeric_lit(&self) -> bool { . matches!( . self.kind, . Literal(Lit { kind: LitKind::Integer, .. }) | Literal(Lit { kind: LitKind::Float, .. }) . ) . } . . /// Returns `true` if the token is a non-raw identifier for which `pred` holds. 5,304 ( 0.00%) pub fn is_non_raw_ident_where(&self, pred: impl FnOnce(Ident) -> bool) -> bool { 5,119,308 ( 0.02%) match self.ident() { 36,026 ( 0.00%) Some((id, false)) => pred(id), . _ => false, . } 6,630 ( 0.00%) } . 309,070 ( 0.00%) pub fn glue(&self, joint: &Token) -> Option { 154,535 ( 0.00%) let kind = match self.kind { 7,678 ( 0.00%) Eq => match joint.kind { . Eq => EqEq, . Gt => FatArrow, . _ => return None, . }, 617 ( 0.00%) Lt => match joint.kind { . Eq => Le, . Lt => BinOp(Shl), . Le => BinOpEq(Shl), . BinOp(Minus) => LArrow, . _ => return None, . }, 1,661 ( 0.00%) Gt => match joint.kind { . Eq => Ge, . Gt => BinOp(Shr), . Ge => BinOpEq(Shr), . _ => return None, . }, 24 ( 0.00%) Not => match joint.kind { . Eq => Ne, . _ => return None, . }, 6,867 ( 0.00%) BinOp(op) => match joint.kind { . Eq => BinOpEq(op), 43 ( 0.00%) BinOp(And) if op == And => AndAnd, 18 ( 0.00%) BinOp(Or) if op == Or => OrOr, 915 ( 0.00%) Gt if op == Minus => RArrow, . _ => return None, . }, 150 ( 0.00%) Dot => match joint.kind { . Dot => DotDot, . DotDot => DotDotDot, . _ => return None, . }, 3 ( 0.00%) DotDot => match joint.kind { . Dot => DotDotDot, . Eq => DotDotEq, . _ => return None, . }, 11,878 ( 0.00%) Colon => match joint.kind { . Colon => ModSep, . _ => return None, . }, . SingleQuote => match joint.kind { . Ident(name, false) => Lifetime(Symbol::intern(&format!("'{}", name))), . _ => return None, . }, . . Le | EqEq | Ne | Ge | AndAnd | OrOr | Tilde | BinOpEq(..) | At | DotDotDot . | DotDotEq | Comma | Semi | ModSep | RArrow | LArrow | FatArrow | Pound | Dollar . | Question | OpenDelim(..) | CloseDelim(..) | Literal(..) | Ident(..) . | Lifetime(..) | Interpolated(..) | DocComment(..) | Eof => return None, . }; . 112,489 ( 0.00%) Some(Token::new(kind, self.span.to(joint.span))) 278,163 ( 0.00%) } . } . . impl PartialEq for Token { . fn eq(&self, rhs: &TokenKind) -> bool { 2,227,739 ( 0.01%) self.kind == *rhs . } . } . 2,443 ( 0.00%) #[derive(Clone, Encodable, Decodable)] . /// For interpolation during macro expansion. . pub enum Nonterminal { . NtItem(P), . NtBlock(P), . NtStmt(ast::Stmt), . NtPat(P), 734 ( 0.00%) NtExpr(P), . NtTy(P), . NtIdent(Ident, /* is_raw */ bool), . NtLifetime(Ident), . NtLiteral(P), . /// Stuff inside brackets for attributes . NtMeta(P), . NtPath(ast::Path), . NtVis(ast::Visibility), -- line 686 ---------------------------------------- -- line 711 ---------------------------------------- . Path, . Vis, . TT, . } . . impl NonterminalKind { . /// The `edition` closure is used to get the edition for the given symbol. Doing . /// `span.edition()` is expensive, so we do it lazily. 1,412 ( 0.00%) pub fn from_symbol( . symbol: Symbol, . edition: impl FnOnce() -> Edition, . ) -> Option { 3,254 ( 0.00%) Some(match symbol { . sym::item => NonterminalKind::Item, . sym::block => NonterminalKind::Block, . sym::stmt => NonterminalKind::Stmt, . sym::pat => match edition() { . Edition::Edition2015 | Edition::Edition2018 => { . NonterminalKind::PatParam { inferred: true } . } . Edition::Edition2021 => NonterminalKind::PatWithOr, -- line 731 ---------------------------------------- -- line 737 ---------------------------------------- . sym::lifetime => NonterminalKind::Lifetime, . sym::literal => NonterminalKind::Literal, . sym::meta => NonterminalKind::Meta, . sym::path => NonterminalKind::Path, . sym::vis => NonterminalKind::Vis, . sym::tt => NonterminalKind::TT, . _ => return None, . }) 1,412 ( 0.00%) } . fn symbol(self) -> Symbol { . match self { . NonterminalKind::Item => sym::item, . NonterminalKind::Block => sym::block, . NonterminalKind::Stmt => sym::stmt, . NonterminalKind::PatParam { inferred: false } => sym::pat_param, . NonterminalKind::PatParam { inferred: true } | NonterminalKind::PatWithOr => sym::pat, . NonterminalKind::Expr => sym::expr, -- line 753 ---------------------------------------- 24,802,743 ( 0.08%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/mod.rs -------------------------------------------------------------------------------- Ir -- line 141 ---------------------------------------- . /// ``` . /// let a = [1, 2, 3]; . /// assert!(!a.is_empty()); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_slice_is_empty", since = "1.39.0")] . #[inline] . pub const fn is_empty(&self) -> bool { 3,727,111 ( 0.01%) self.len() == 0 . } . . /// Returns the first element of the slice, or `None` if it is empty. . /// . /// # Examples . /// . /// ``` . /// let v = [10, 40, 30]; -- line 157 ---------------------------------------- -- line 159 ---------------------------------------- . /// . /// let w: &[i32] = &[]; . /// assert_eq!(None, w.first()); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_slice_first_last_not_mut", since = "1.56.0")] . #[inline] . pub const fn first(&self) -> Option<&T> { 48,043 ( 0.00%) if let [first, ..] = self { Some(first) } else { None } . } . . /// Returns a mutable pointer to the first element of the slice, or `None` if it is empty. . /// . /// # Examples . /// . /// ``` . /// let x = &mut [0, 1, 2]; -- line 175 ---------------------------------------- -- line 178 ---------------------------------------- . /// *first = 5; . /// } . /// assert_eq!(x, &[5, 1, 2]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_slice_first_last", issue = "83570")] . #[inline] . pub const fn first_mut(&mut self) -> Option<&mut T> { 18,052 ( 0.00%) if let [first, ..] = self { Some(first) } else { None } . } . . /// Returns the first and all the rest of the elements of the slice, or `None` if it is empty. . /// . /// # Examples . /// . /// ``` . /// let x = &[0, 1, 2]; -- line 194 ---------------------------------------- -- line 197 ---------------------------------------- . /// assert_eq!(first, &0); . /// assert_eq!(elements, &[1, 2]); . /// } . /// ``` . #[stable(feature = "slice_splits", since = "1.5.0")] . #[rustc_const_stable(feature = "const_slice_first_last_not_mut", since = "1.56.0")] . #[inline] . pub const fn split_first(&self) -> Option<(&T, &[T])> { 22 ( 0.00%) if let [first, tail @ ..] = self { Some((first, tail)) } else { None } . } . . /// Returns the first and all the rest of the elements of the slice, or `None` if it is empty. . /// . /// # Examples . /// . /// ``` . /// let x = &mut [0, 1, 2]; -- line 213 ---------------------------------------- -- line 237 ---------------------------------------- . /// assert_eq!(last, &2); . /// assert_eq!(elements, &[0, 1]); . /// } . /// ``` . #[stable(feature = "slice_splits", since = "1.5.0")] . #[rustc_const_stable(feature = "const_slice_first_last_not_mut", since = "1.56.0")] . #[inline] . pub const fn split_last(&self) -> Option<(&T, &[T])> { 157,732 ( 0.00%) if let [init @ .., last] = self { Some((last, init)) } else { None } . } . . /// Returns the last and all the rest of the elements of the slice, or `None` if it is empty. . /// . /// # Examples . /// . /// ``` . /// let x = &mut [0, 1, 2]; -- line 253 ---------------------------------------- -- line 276 ---------------------------------------- . /// . /// let w: &[i32] = &[]; . /// assert_eq!(None, w.last()); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_slice_first_last_not_mut", since = "1.56.0")] . #[inline] . pub const fn last(&self) -> Option<&T> { 2,458,267 ( 0.01%) if let [.., last] = self { Some(last) } else { None } . } . . /// Returns a mutable pointer to the last item in the slice. . /// . /// # Examples . /// . /// ``` . /// let x = &mut [0, 1, 2]; -- line 292 ---------------------------------------- -- line 295 ---------------------------------------- . /// *last = 10; . /// } . /// assert_eq!(x, &[0, 1, 10]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_slice_first_last", issue = "83570")] . #[inline] . pub const fn last_mut(&mut self) -> Option<&mut T> { 6,285,067 ( 0.02%) if let [.., last] = self { Some(last) } else { None } . } . . /// Returns a reference to an element or subslice depending on the type of . /// index. . /// . /// - If given a position, returns a reference to the element at that . /// position or `None` if out of bounds. . /// - If given a range, returns the subslice corresponding to that range, -- line 311 ---------------------------------------- -- line 448 ---------------------------------------- . /// } . /// ``` . /// . /// [`as_mut_ptr`]: slice::as_mut_ptr . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_slice_as_ptr", since = "1.32.0")] . #[inline] . pub const fn as_ptr(&self) -> *const T { 4,495,340 ( 0.01%) self as *const [T] as *const T . } . . /// Returns an unsafe mutable pointer to the slice's buffer. . /// . /// The caller must ensure that the slice outlives the pointer this . /// function returns, or else it will end up pointing to garbage. . /// . /// Modifying the container referenced by this slice may cause its buffer -- line 464 ---------------------------------------- -- line 476 ---------------------------------------- . /// } . /// } . /// assert_eq!(x, &[3, 4, 6]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_ptr_offset", issue = "71499")] . #[inline] . pub const fn as_mut_ptr(&mut self) -> *mut T { 55 ( 0.00%) self as *mut [T] as *mut T . } . . /// Returns the two raw pointers spanning the slice. . /// . /// The returned range is half-open, which means that the end pointer . /// points *one past* the last element of the slice. This way, an empty . /// slice is represented by two equal pointers, and the difference between . /// the two pointers represents the size of the slice. -- line 492 ---------------------------------------- -- line 556 ---------------------------------------- . /// [`as_mut_ptr`]: slice::as_mut_ptr . #[stable(feature = "slice_ptr_range", since = "1.48.0")] . #[rustc_const_unstable(feature = "const_ptr_offset", issue = "71499")] . #[inline] . pub const fn as_mut_ptr_range(&mut self) -> Range<*mut T> { . let start = self.as_mut_ptr(); . // SAFETY: See as_ptr_range() above for why `add` here is safe. . let end = unsafe { start.add(self.len()) }; 11 ( 0.00%) start..end . } . . /// Swaps two elements in the slice. . /// . /// # Arguments . /// . /// * a - The index of the first element . /// * b - The index of the second element -- line 572 ---------------------------------------- -- line 582 ---------------------------------------- . /// v.swap(2, 4); . /// assert!(v == ["a", "b", "e", "d", "c"]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_swap", issue = "83163")] . #[inline] . #[track_caller] . pub const fn swap(&mut self, a: usize, b: usize) { 151,644 ( 0.00%) let _ = &self[a]; 354,994 ( 0.00%) let _ = &self[b]; . . // SAFETY: we just checked that both `a` and `b` are in bounds . unsafe { self.swap_unchecked(a, b) } . } . . /// Swaps two elements in the slice, without doing bounds checking. . /// . /// For a safe alternative see [`swap`]. -- line 599 ---------------------------------------- -- line 644 ---------------------------------------- . /// ``` . /// let mut v = [1, 2, 3]; . /// v.reverse(); . /// assert!(v == [3, 2, 1]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . pub fn reverse(&mut self) { 4 ( 0.00%) let half_len = self.len() / 2; . let Range { start, end } = self.as_mut_ptr_range(); . . // These slices will skip the middle item for an odd length, . // since that one doesn't need to move. . let (front_half, back_half) = . // SAFETY: Both are subparts of the original slice, so the memory . // range is valid, and they don't overlap because they're each only . // half (or less) of the original slice. -- line 660 ---------------------------------------- -- line 677 ---------------------------------------- . . // Because this function is first compiled in isolation, . // this check tells LLVM that the indexing below is . // in-bounds. Then after inlining -- once the actual . // lengths of the slices are known -- it's removed. . let (a, b) = (&mut a[..n], &mut b[..n]); . . for i in 0..n { 12,188 ( 0.00%) mem::swap(&mut a[i], &mut b[n - 1 - i]); . } . } . } . . /// Returns an iterator over the slice. . /// . /// # Examples . /// -- line 693 ---------------------------------------- -- line 1499 ---------------------------------------- . /// assert_eq!(left, [1, 2, 3, 4, 5, 6]); . /// assert_eq!(right, []); . /// } . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . #[track_caller] . pub fn split_at(&self, mid: usize) -> (&[T], &[T]) { 414 ( 0.00%) assert!(mid <= self.len()); . // SAFETY: `[ptr; mid]` and `[mid; len]` are inside `self`, which . // fulfills the requirements of `from_raw_parts_mut`. . unsafe { self.split_at_unchecked(mid) } . } . . /// Divides one mutable slice into two at an index. . /// . /// The first will contain all indices from `[0, mid)` (excluding -- line 1515 ---------------------------------------- -- line 1530 ---------------------------------------- . /// left[1] = 2; . /// right[1] = 4; . /// assert_eq!(v, [1, 2, 3, 4, 5, 6]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . #[track_caller] . pub fn split_at_mut(&mut self, mid: usize) -> (&mut [T], &mut [T]) { 312,510 ( 0.00%) assert!(mid <= self.len()); . // SAFETY: `[ptr; mid]` and `[mid; len]` are inside `self`, which . // fulfills the requirements of `from_raw_parts_mut`. . unsafe { self.split_at_mut_unchecked(mid) } . } . . /// Divides one slice into two at an index, without doing bounds checking. . /// . /// The first will contain all indices from `[0, mid)` (excluding -- line 1546 ---------------------------------------- -- line 1628 ---------------------------------------- . pub unsafe fn split_at_mut_unchecked(&mut self, mid: usize) -> (&mut [T], &mut [T]) { . let len = self.len(); . let ptr = self.as_mut_ptr(); . . // SAFETY: Caller has to check that `0 <= mid <= self.len()`. . // . // `[ptr; mid]` and `[mid; len]` are not overlapping, so returning a mutable reference . // is fine. 34,167 ( 0.00%) unsafe { (from_raw_parts_mut(ptr, mid), from_raw_parts_mut(ptr.add(mid), len - mid)) } . } . . /// Divides one slice into an array and a remainder slice at an index. . /// . /// The array will contain all indices from `[0, N)` (excluding . /// the index `N` itself) and the slice will contain all . /// indices from `[N, len)` (excluding the index `len` itself). . /// -- line 1644 ---------------------------------------- -- line 2113 ---------------------------------------- . /// assert!(!v.iter().any(|e| e == "hi")); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . pub fn contains(&self, x: &T) -> bool . where . T: PartialEq, . { 4,122 ( 0.00%) cmp::SliceContains::slice_contains(x, self) . } . . /// Returns `true` if `needle` is a prefix of the slice. . /// . /// # Examples . /// . /// ``` . /// let v = [10, 40, 30]; -- line 2129 ---------------------------------------- -- line 2142 ---------------------------------------- . /// assert!(v.starts_with(&[])); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . pub fn starts_with(&self, needle: &[T]) -> bool . where . T: PartialEq, . { . let n = needle.len(); 29,005 ( 0.00%) self.len() >= n && needle == &self[..n] . } . . /// Returns `true` if `needle` is a suffix of the slice. . /// . /// # Examples . /// . /// ``` . /// let v = [10, 40, 30]; -- line 2158 ---------------------------------------- -- line 2171 ---------------------------------------- . /// assert!(v.ends_with(&[])); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . pub fn ends_with(&self, needle: &[T]) -> bool . where . T: PartialEq, . { . let (m, n) = (self.len(), needle.len()); 15,270 ( 0.00%) m >= n && needle == &self[m - n..] . } . . /// Returns a subslice with the prefix removed. . /// . /// If the slice starts with `prefix`, returns the subslice after the prefix, wrapped in `Some`. . /// If `prefix` is empty, simply returns the original slice. . /// . /// If the slice does not start with `prefix`, returns `None`. -- line 2187 ---------------------------------------- -- line 2293 ---------------------------------------- . /// s.insert(idx, num); . /// assert_eq!(s, [0, 1, 1, 1, 1, 2, 3, 5, 8, 13, 21, 34, 42, 55]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . pub fn binary_search(&self, x: &T) -> Result . where . T: Ord, . { 3 ( 0.00%) self.binary_search_by(|p| p.cmp(x)) . } . . /// Binary searches this sorted slice with a comparator function. . /// . /// The comparator function should implement an order consistent . /// with the sort order of the underlying slice, returning an . /// order code that indicates whether its argument is `Less`, . /// `Equal` or `Greater` the desired target. -- line 2309 ---------------------------------------- -- line 2345 ---------------------------------------- . #[inline] . pub fn binary_search_by<'a, F>(&'a self, mut f: F) -> Result . where . F: FnMut(&'a T) -> Ordering, . { . let mut size = self.len(); . let mut left = 0; . let mut right = size; 15,929,537 ( 0.05%) while left < right { 21,577,745 ( 0.07%) let mid = left + size / 2; . . // SAFETY: the call is made safe by the following invariants: . // - `mid >= 0` . // - `mid < size`: `mid` is limited by `[left; right)` bound. 2,003,062 ( 0.01%) let cmp = f(unsafe { self.get_unchecked(mid) }); . . // The reason why we use if/else control flow rather than match . // is because match reorders comparison operations, which is perf sensitive. . // This is x86 asm for u8: https://rust.godbolt.org/z/8Y8Pra. 6,256,234 ( 0.02%) if cmp == Less { 11,300,111 ( 0.04%) left = mid + 1; 2,822,985 ( 0.01%) } else if cmp == Greater { . right = mid; . } else { . // SAFETY: same as the `get_unchecked` above . unsafe { crate::intrinsics::assume(mid < self.len()) }; . return Ok(mid); . } . 17,803,510 ( 0.06%) size = right - left; . } . Err(left) . } . . /// Binary searches this sorted slice with a key extraction function. . /// . /// Assumes that the slice is sorted by the key, for instance with . /// [`sort_by_key`] using the same key extraction function. -- line 2382 ---------------------------------------- -- line 3203 ---------------------------------------- . #[track_caller] . fn len_mismatch_fail(dst_len: usize, src_len: usize) -> ! { . panic!( . "source slice length ({}) does not match destination slice length ({})", . src_len, dst_len, . ); . } . 875,596 ( 0.00%) if self.len() != src.len() { . len_mismatch_fail(self.len(), src.len()); . } . . // SAFETY: `self` is valid for `self.len()` elements by definition, and `src` was . // checked to have the same length. The slices cannot overlap because . // mutable references are exclusive. . unsafe { . ptr::copy_nonoverlapping(src.as_ptr(), self.as_mut_ptr(), self.len()); -- line 3219 ---------------------------------------- -- line 3382 ---------------------------------------- . } . let gcd: usize = gcd(mem::size_of::(), mem::size_of::()); . let ts: usize = mem::size_of::() / gcd; . let us: usize = mem::size_of::() / gcd; . . // Armed with this knowledge, we can find how many `U`s we can fit! . let us_len = self.len() / ts * us; . // And how many `T`s will be in the trailing slice! 336,770 ( 0.00%) let ts_len = self.len() % ts; . (us_len, ts_len) . } . . /// Transmute the slice to a slice of another type, ensuring alignment of the types is . /// maintained. . /// . /// This method splits the slice into three distinct slices: prefix, correctly aligned middle . /// slice of a new type, and the suffix slice. The method may make the middle slice the greatest -- line 3398 ---------------------------------------- -- line 3429 ---------------------------------------- . return (self, &[], &[]); . } . . // First, find at what point do we split between the first and 2nd slice. Easy with . // ptr.align_offset. . let ptr = self.as_ptr(); . // SAFETY: See the `align_to_mut` method for the detailed safety comment. . let offset = unsafe { crate::ptr::align_offset(ptr, mem::align_of::()) }; 336,770 ( 0.00%) if offset > self.len() { . (self, &[], &[]) . } else { . let (left, rest) = self.split_at(offset); . let (us_len, ts_len) = rest.align_to_offsets::(); . // SAFETY: now `rest` is definitely aligned, so `from_raw_parts` below is okay, . // since the caller guarantees that we can transmute `T` to `U` safely. . unsafe { . ( . left, . from_raw_parts(rest.as_ptr() as *const U, us_len), 336,770 ( 0.00%) from_raw_parts(rest.as_ptr().add(rest.len() - ts_len), ts_len), . ) . } . } . } . . /// Transmute the slice to a slice of another type, ensuring alignment of the types is . /// maintained. . /// -- line 3456 ---------------------------------------- -- line 3731 ---------------------------------------- . /// let v = [1, 2, 3, 3, 5, 6, 7]; . /// let i = v.partition_point(|&x| x < 5); . /// . /// assert_eq!(i, 4); . /// assert!(v[..i].iter().all(|&x| x < 5)); . /// assert!(v[i..].iter().all(|&x| !(x < 5))); . /// ``` . #[stable(feature = "partition_point", since = "1.52.0")] 7 ( 0.00%) pub fn partition_point

(&self, mut pred: P) -> usize . where . P: FnMut(&T) -> bool, . { . self.binary_search_by(|x| if pred(x) { Less } else { Greater }).unwrap_or_else(|i| i) 14 ( 0.00%) } . . /// Removes the subslice corresponding to the given range . /// and returns a reference to it. . /// . /// Returns `None` and does not modify the slice if the given . /// range is out of bounds. . /// . /// Note that this method only accepts one-sided ranges such as -- line 3752 ---------------------------------------- 15,614,989 ( 0.05%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/core/src/num/uint_macros.rs -------------------------------------------------------------------------------- Ir -- line 57 ---------------------------------------- . /// # Examples . /// . /// Basic usage: . /// . /// ``` . #[doc = concat!("assert_eq!(", stringify!($SelfT), "::from_str_radix(\"A\", 16), Ok(10));")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] 4,330 ( 0.00%) pub fn from_str_radix(src: &str, radix: u32) -> Result { 2,165 ( 0.00%) from_str_radix(src, radix) 6,495 ( 0.00%) } . . /// Returns the number of ones in the binary representation of `self`. . /// . /// # Examples . /// . /// Basic usage: . /// . /// ``` -- line 75 ---------------------------------------- -- line 80 ---------------------------------------- . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_math", since = "1.32.0")] . #[doc(alias = "popcount")] . #[doc(alias = "popcnt")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn count_ones(self) -> u32 { 2,485,545 ( 0.01%) intrinsics::ctpop(self as $ActualT) as u32 . } . . /// Returns the number of zeros in the binary representation of `self`. . /// . /// # Examples . /// . /// Basic usage: . /// -- line 96 ---------------------------------------- -- line 118 ---------------------------------------- . /// assert_eq!(n.leading_zeros(), 2); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn leading_zeros(self) -> u32 { 3,519,715 ( 0.01%) intrinsics::ctlz(self as $ActualT) as u32 . } . . /// Returns the number of trailing zeros in the binary representation . /// of `self`. . /// . /// # Examples . /// . /// Basic usage: -- line 134 ---------------------------------------- -- line 139 ---------------------------------------- . /// assert_eq!(n.trailing_zeros(), 3); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn trailing_zeros(self) -> u32 { 3,016,445 ( 0.01%) intrinsics::cttz(self) as u32 . } . . /// Returns the number of leading ones in the binary representation of `self`. . /// . /// # Examples . /// . /// Basic usage: . /// -- line 155 ---------------------------------------- -- line 204 ---------------------------------------- . #[doc = concat!("assert_eq!(n.rotate_left(", $rot, "), m);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn rotate_left(self, n: u32) -> Self { 89,022,946 ( 0.28%) intrinsics::rotate_left(self, n as $SelfT) . } . . /// Shifts the bits to the right by a specified amount, `n`, . /// wrapping the truncated bits to the beginning of the resulting . /// integer. . /// . /// Please note this isn't the same operation as the `>>` shifting operator! . /// -- line 220 ---------------------------------------- -- line 430 ---------------------------------------- . #[doc = concat!("assert_eq!((", stringify!($SelfT), "::MAX - 2).checked_add(3), None);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_checked_int_methods", since = "1.47.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline] . pub const fn checked_add(self, rhs: Self) -> Option { 26 ( 0.00%) let (a, b) = self.overflowing_add(rhs); . if unlikely!(b) {None} else {Some(a)} . } . . /// Unchecked integer addition. Computes `self + rhs`, assuming overflow . /// cannot occur. . /// . /// # Safety . /// -- line 446 ---------------------------------------- -- line 456 ---------------------------------------- . )] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[rustc_const_unstable(feature = "const_inherent_unchecked_arith", issue = "85122")] . #[inline(always)] . pub const unsafe fn unchecked_add(self, rhs: Self) -> Self { . // SAFETY: the caller must uphold the safety contract for . // `unchecked_add`. 6,192,421 ( 0.02%) unsafe { intrinsics::unchecked_add(self, rhs) } . } . . /// Checked addition with a signed integer. Computes `self + rhs`, . /// returning `None` if overflow occurred. . /// . /// # Examples . /// . /// Basic usage: -- line 472 ---------------------------------------- -- line 525 ---------------------------------------- . )] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[rustc_const_unstable(feature = "const_inherent_unchecked_arith", issue = "85122")] . #[inline(always)] . pub const unsafe fn unchecked_sub(self, rhs: Self) -> Self { . // SAFETY: the caller must uphold the safety contract for . // `unchecked_sub`. 520,435 ( 0.00%) unsafe { intrinsics::unchecked_sub(self, rhs) } . } . . /// Checked integer multiplication. Computes `self * rhs`, returning . /// `None` if overflow occurred. . /// . /// # Examples . /// . /// Basic usage: -- line 541 ---------------------------------------- -- line 596 ---------------------------------------- . without modifying the original"] . #[inline] . pub const fn checked_div(self, rhs: Self) -> Option { . if unlikely!(rhs == 0) { . None . } else { . // SAFETY: div by zero has been checked above and unsigned types have no other . // failure modes for division 1,888 ( 0.00%) Some(unsafe { intrinsics::unchecked_div(self, rhs) }) . } . } . . /// Checked Euclidean division. Computes `self.div_euclid(rhs)`, returning `None` . /// if `rhs == 0`. . /// . /// # Examples . /// -- line 612 ---------------------------------------- -- line 1035 ---------------------------------------- . #[doc = concat!("assert_eq!(", stringify!($SelfT), "::MAX.saturating_add(127), ", stringify!($SelfT), "::MAX);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[rustc_const_stable(feature = "const_saturating_int_methods", since = "1.47.0")] . #[inline(always)] . pub const fn saturating_add(self, rhs: Self) -> Self { 1,947,473 ( 0.01%) intrinsics::saturating_add(self, rhs) . } . . /// Saturating addition with a signed integer. Computes `self + rhs`, . /// saturating at the numeric bounds instead of overflowing. . /// . /// # Examples . /// . /// Basic usage: -- line 1051 ---------------------------------------- -- line 1084 ---------------------------------------- . #[doc = concat!("assert_eq!(13", stringify!($SelfT), ".saturating_sub(127), 0);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[rustc_const_stable(feature = "const_saturating_int_methods", since = "1.47.0")] . #[inline(always)] . pub const fn saturating_sub(self, rhs: Self) -> Self { 86,191 ( 0.00%) intrinsics::saturating_sub(self, rhs) . } . . /// Saturating integer multiplication. Computes `self * rhs`, . /// saturating at the numeric bounds instead of overflowing. . /// . /// # Examples . /// . /// Basic usage: -- line 1100 ---------------------------------------- -- line 1175 ---------------------------------------- . #[doc = concat!("assert_eq!(200", stringify!($SelfT), ".wrapping_add(", stringify!($SelfT), "::MAX), 199);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_add(self, rhs: Self) -> Self { 49,552,791 ( 0.15%) intrinsics::wrapping_add(self, rhs) . } . . /// Wrapping (modular) addition with a signed integer. Computes . /// `self + rhs`, wrapping around at the boundary of the type. . /// . /// # Examples . /// . /// Basic usage: -- line 1191 ---------------------------------------- -- line 1217 ---------------------------------------- . #[doc = concat!("assert_eq!(100", stringify!($SelfT), ".wrapping_sub(", stringify!($SelfT), "::MAX), 101);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_sub(self, rhs: Self) -> Self { 13,222,912 ( 0.04%) intrinsics::wrapping_sub(self, rhs) . } . . /// Wrapping (modular) multiplication. Computes `self * . /// rhs`, wrapping around at the boundary of the type. . /// . /// # Examples . /// . /// Basic usage: -- line 1233 ---------------------------------------- -- line 1240 ---------------------------------------- . /// assert_eq!(25u8.wrapping_mul(12), 44); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_mul(self, rhs: Self) -> Self { 46,739,270 ( 0.15%) intrinsics::wrapping_mul(self, rhs) . } . . /// Wrapping (modular) division. Computes `self / rhs`. . /// Wrapped division on unsigned types is just normal division. . /// There's no way wrapping could ever happen. . /// This function exists, so that all operations . /// are accounted for in the wrapping operations. . /// -- line 1256 ---------------------------------------- -- line 1397 ---------------------------------------- . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_shl(self, rhs: u32) -> Self { . // SAFETY: the masking by the bitsize of the type ensures that we do not shift . // out of bounds . unsafe { 45 ( 0.00%) intrinsics::unchecked_shl(self, (rhs & ($BITS - 1)) as $SelfT) . } . } . . /// Panic-free bitwise shift-right; yields `self >> mask(rhs)`, . /// where `mask` removes any high-order bits of `rhs` that . /// would cause the shift to exceed the bitwidth of the type. . /// . /// Note that this is *not* the same as a rotate-right; the -- line 1413 ---------------------------------------- -- line 1491 ---------------------------------------- . #[doc = concat!("assert_eq!(5", stringify!($SelfT), ".overflowing_add(2), (7, false));")] . #[doc = concat!("assert_eq!(", stringify!($SelfT), "::MAX.overflowing_add(1), (0, true));")] . /// ``` . #[stable(feature = "wrapping", since = "1.7.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] 35 ( 0.00%) pub const fn overflowing_add(self, rhs: Self) -> (Self, bool) { 6,507,017 ( 0.02%) let (a, b) = intrinsics::add_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) 70 ( 0.00%) } . . /// Calculates `self + rhs + carry` without the ability to overflow. . /// . /// Performs "ternary addition" which takes in an extra bit to add, and may return an . /// additional bit of overflow. This allows for chaining together multiple additions . /// to create "big integers" which represent larger values. . /// . #[doc = concat!("This can be thought of as a ", stringify!($BITS), "-bit \"full adder\", in the electronics sense.")] -- line 1510 ---------------------------------------- -- line 1587 ---------------------------------------- . #[doc = concat!("assert_eq!(5", stringify!($SelfT), ".overflowing_sub(2), (3, false));")] . #[doc = concat!("assert_eq!(0", stringify!($SelfT), ".overflowing_sub(1), (", stringify!($SelfT), "::MAX, true));")] . /// ``` . #[stable(feature = "wrapping", since = "1.7.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] 6 ( 0.00%) pub const fn overflowing_sub(self, rhs: Self) -> (Self, bool) { 1,125,993 ( 0.00%) let (a, b) = intrinsics::sub_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) 12 ( 0.00%) } . . /// Calculates `self - rhs - borrow` without the ability to overflow. . /// . /// Performs "ternary subtraction" which takes in an extra bit to subtract, and may return . /// an additional bit of overflow. This allows for chaining together multiple subtractions . /// to create "big integers" which represent larger values. . /// . /// # Examples -- line 1606 ---------------------------------------- -- line 1673 ---------------------------------------- . /// assert_eq!(5u32.overflowing_mul(2), (10, false)); . /// assert_eq!(1_000_000_000u32.overflowing_mul(10), (1410065408, true)); . /// ``` . #[stable(feature = "wrapping", since = "1.7.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] 2 ( 0.00%) pub const fn overflowing_mul(self, rhs: Self) -> (Self, bool) { 14,647,635 ( 0.05%) let (a, b) = intrinsics::mul_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) 1 ( 0.00%) } . . /// Calculates the divisor when `self` is divided by `rhs`. . /// . /// Returns a tuple of the divisor along with a boolean indicating . /// whether an arithmetic overflow would occur. Note that for unsigned . /// integers overflow never occurs, so the second value is always . /// `false`. . /// -- line 1692 ---------------------------------------- -- line 1701 ---------------------------------------- . /// ``` . #[doc = concat!("assert_eq!(5", stringify!($SelfT), ".overflowing_div(2), (2, false));")] . /// ``` . #[inline(always)] . #[stable(feature = "wrapping", since = "1.7.0")] . #[rustc_const_stable(feature = "const_overflowing_int_methods", since = "1.52.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] 1 ( 0.00%) pub const fn overflowing_div(self, rhs: Self) -> (Self, bool) { 4 ( 0.00%) (self / rhs, false) 3 ( 0.00%) } . . /// Calculates the quotient of Euclidean division `self.div_euclid(rhs)`. . /// . /// Returns a tuple of the divisor along with a boolean indicating . /// whether an arithmetic overflow would occur. Note that for unsigned . /// integers overflow never occurs, so the second value is always . /// `false`. . /// Since, for the positive integers, all common -- line 1719 ---------------------------------------- -- line 1838 ---------------------------------------- . #[doc = concat!("assert_eq!(0x1", stringify!($SelfT), ".overflowing_shl(132), (0x10, true));")] . /// ``` . #[stable(feature = "wrapping", since = "1.7.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn overflowing_shl(self, rhs: u32) -> (Self, bool) { 15 ( 0.00%) (self.wrapping_shl(rhs), (rhs > ($BITS - 1))) . } . . /// Shifts self right by `rhs` bits. . /// . /// Returns a tuple of the shifted version of self along with a boolean . /// indicating whether the shift value was larger than or equal to the . /// number of bits. If the shift value is too large, then value is . /// masked (N-1) where N is the number of bits, and this value is then -- line 1854 ---------------------------------------- -- line 2132 ---------------------------------------- . #[doc = concat!("assert!(16", stringify!($SelfT), ".is_power_of_two());")] . #[doc = concat!("assert!(!10", stringify!($SelfT), ".is_power_of_two());")] . /// ``` . #[must_use] . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_is_power_of_two", since = "1.32.0")] . #[inline(always)] . pub const fn is_power_of_two(self) -> bool { 204 ( 0.00%) self.count_ones() == 1 . } . . // Returns one less than next power of two. . // (For 8u8 next power of two is 8u8 and for 6u8 it is 8u8) . // . // 8u8.one_less_than_next_power_of_two() == 7 . // 6u8.one_less_than_next_power_of_two() == 7 . // . // This method cannot overflow, as in the `next_power_of_two` . // overflow cases it instead ends up returning the maximum value . // of the type, and can return 0 for 0. . #[inline] . #[rustc_const_stable(feature = "const_int_pow", since = "1.50.0")] . const fn one_less_than_next_power_of_two(self) -> Self { 167,822 ( 0.00%) if self <= 1 { return 0; } . 230,127 ( 0.00%) let p = self - 1; . // SAFETY: Because `p > 0`, it cannot consist entirely of leading zeros. . // That means the shift is always in-bounds, and some processors . // (such as intel pre-haswell) have more efficient ctlz . // intrinsics when the argument is non-zero. 686,236 ( 0.00%) let z = unsafe { intrinsics::ctlz_nonzero(p) }; 233,928 ( 0.00%) <$SelfT>::MAX >> z . } . . /// Returns the smallest power of two greater than or equal to `self`. . /// . /// When return value overflows (i.e., `self > (1 << (N-1))` for type . /// `uN`), it panics in debug mode and the return value is wrapped to 0 in . /// release mode (the only situation in which method can return 0). . /// -- line 2171 ---------------------------------------- -- line 2179 ---------------------------------------- . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_int_pow", since = "1.50.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline] . #[rustc_inherit_overflow_checks] . pub const fn next_power_of_two(self) -> Self { 292,260 ( 0.00%) self.one_less_than_next_power_of_two() + 1 . } . . /// Returns the smallest power of two greater than or equal to `n`. If . /// the next power of two is greater than the type's maximum value, . /// `None` is returned, otherwise the power of two is wrapped in `Some`. . /// . /// # Examples . /// -- line 2195 ---------------------------------------- 962,284 ( 0.00%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_data_structures/src/sip128.rs -------------------------------------------------------------------------------- Ir -- line 91 ---------------------------------------- . // maximum of number bytes needed to fill an 8-byte-sized element on which . // SipHash operates. Note that for variable-sized copies which are known to be . // less than 8 bytes, this function will perform more work than necessary unless . // the compiler is able to optimize the extra work away. . #[inline] . unsafe fn copy_nonoverlapping_small(src: *const u8, dst: *mut u8, count: usize) { . debug_assert!(count <= 8); . 341,883 ( 0.00%) if count == 8 { . ptr::copy_nonoverlapping(src, dst, 8); . return; . } . . let mut i = 0; 360,374 ( 0.00%) if i + 3 < count { . ptr::copy_nonoverlapping(src.add(i), dst.add(i), 4); . i += 4; . } . 796,549 ( 0.00%) if i + 1 < count { . ptr::copy_nonoverlapping(src.add(i), dst.add(i), 2); 80,787 ( 0.00%) i += 2 . } . 360,374 ( 0.00%) if i < count { 217,586 ( 0.00%) *dst.add(i) = *src.add(i); . i += 1; . } . . debug_assert_eq!(i, count); . } . . // # Implementation . // -- line 124 ---------------------------------------- -- line 201 ---------------------------------------- . . hasher . } . . // A specialized write function for values with size <= 8. . #[inline] . fn short_write(&mut self, x: T) { . let size = mem::size_of::(); 5,518,590 ( 0.02%) let nbuf = self.nbuf; . debug_assert!(size <= 8); . debug_assert!(nbuf < BUFFER_SIZE); . debug_assert!(nbuf + size < BUFFER_WITH_SPILL_SIZE); . 38,087,412 ( 0.12%) if nbuf + size < BUFFER_SIZE { . unsafe { . // The memcpy call is optimized away because the size is known. . let dst = (self.buf.as_mut_ptr() as *mut u8).add(nbuf); . ptr::copy_nonoverlapping(&x as *const _ as *const u8, dst, size); . } . 11,900,076 ( 0.04%) self.nbuf = nbuf + size; . . return; . } . 1,988,110 ( 0.01%) unsafe { self.short_write_process_buffer(x) } . } . . // A specialized write function for values with size <= 8 that should only . // be called when the write would cause the buffer to fill. . // . // SAFETY: the write of `x` into `self.buf` starting at byte offset . // `self.nbuf` must cause `self.buf` to become fully initialized (and not . // overflow) if it wasn't already. . #[inline(never)] 597,907 ( 0.00%) unsafe fn short_write_process_buffer(&mut self, x: T) { . let size = mem::size_of::(); 597,907 ( 0.00%) let nbuf = self.nbuf; . debug_assert!(size <= 8); . debug_assert!(nbuf < BUFFER_SIZE); . debug_assert!(nbuf + size >= BUFFER_SIZE); . debug_assert!(nbuf + size < BUFFER_WITH_SPILL_SIZE); . . // Copy first part of input into end of buffer, possibly into spill . // element. The memcpy call is optimized away because the size is known. . let dst = (self.buf.as_mut_ptr() as *mut u8).add(nbuf); . ptr::copy_nonoverlapping(&x as *const _ as *const u8, dst, size); . . // Process buffer. . for i in 0..BUFFER_CAPACITY { 5,979,070 ( 0.02%) let elem = self.buf.get_unchecked(i).assume_init().to_le(); 4,783,256 ( 0.01%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 5,381,163 ( 0.02%) self.state.v0 ^= elem; . } . . // Copy remaining input into start of buffer by copying size - 1 . // elements from spill (at most size - 1 bytes could have overflowed . // into the spill). The memcpy call is optimized away because the size . // is known. And the whole copy is optimized away for size == 1. . let src = self.buf.get_unchecked(BUFFER_SPILL_INDEX) as *const _ as *const u8; . ptr::copy_nonoverlapping(src, self.buf.as_mut_ptr() as *mut u8, size - 1); . . // This function should only be called when the write fills the buffer. . // Therefore, when size == 1, the new `self.nbuf` must be zero. The size . // is statically known, so the branch is optimized away. 2,844,379 ( 0.01%) self.nbuf = if size == 1 { 0 } else { nbuf + size - BUFFER_SIZE }; 2,391,628 ( 0.01%) self.processed += BUFFER_SIZE; 1,195,814 ( 0.00%) } . . // A write function for byte slices. . #[inline] . fn slice_write(&mut self, msg: &[u8]) { . let length = msg.len(); 39,618 ( 0.00%) let nbuf = self.nbuf; . debug_assert!(nbuf < BUFFER_SIZE); . 1,148,614 ( 0.00%) if nbuf + length < BUFFER_SIZE { . unsafe { . let dst = (self.buf.as_mut_ptr() as *mut u8).add(nbuf); . 416,302 ( 0.00%) if length <= 8 { . copy_nonoverlapping_small(msg.as_ptr(), dst, length); . } else { . // This memcpy is *not* optimized away. . ptr::copy_nonoverlapping(msg.as_ptr(), dst, length); . } . } . 211,125 ( 0.00%) self.nbuf = nbuf + length; . . return; . } . 146,497 ( 0.00%) unsafe { self.slice_write_process_buffer(msg) } . } . . // A write function for byte slices that should only be called when the . // write would cause the buffer to fill. . // . // SAFETY: `self.buf` must be initialized up to the byte offset `self.nbuf`, . // and `msg` must contain enough bytes to initialize the rest of the element . // containing the byte offset `self.nbuf`. . #[inline(never)] 86,930 ( 0.00%) unsafe fn slice_write_process_buffer(&mut self, msg: &[u8]) { . let length = msg.len(); 17,386 ( 0.00%) let nbuf = self.nbuf; . debug_assert!(nbuf < BUFFER_SIZE); . debug_assert!(nbuf + length >= BUFFER_SIZE); . . // Always copy first part of input into current element of buffer. . // This function should only be called when the write fills the buffer, . // so we know that there is enough input to fill the current element. 52,158 ( 0.00%) let valid_in_elem = nbuf % ELEM_SIZE; 17,386 ( 0.00%) let needed_in_elem = ELEM_SIZE - valid_in_elem; . . let src = msg.as_ptr(); . let dst = (self.buf.as_mut_ptr() as *mut u8).add(nbuf); . copy_nonoverlapping_small(src, dst, needed_in_elem); . . // Process buffer. . . // Using `nbuf / ELEM_SIZE + 1` rather than `(nbuf + needed_in_elem) / . // ELEM_SIZE` to show the compiler that this loop's upper bound is > 0. . // We know that is true, because last step ensured we have a full . // element in the buffer. 34,772 ( 0.00%) let last = nbuf / ELEM_SIZE + 1; . . for i in 0..last { 133,482 ( 0.00%) let elem = self.buf.get_unchecked(i).assume_init().to_le(); 150,868 ( 0.00%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 266,964 ( 0.00%) self.state.v0 ^= elem; . } . . // Process the remaining element-sized chunks of input. . let mut processed = needed_in_elem; 34,772 ( 0.00%) let input_left = length - processed; 18,654 ( 0.00%) let elems_left = input_left / ELEM_SIZE; . let extra_bytes_left = input_left % ELEM_SIZE; . . for _ in 0..elems_left { 10,592 ( 0.00%) let elem = (msg.as_ptr().add(processed) as *const u64).read_unaligned().to_le(); 10,592 ( 0.00%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 10,592 ( 0.00%) self.state.v0 ^= elem; 21,184 ( 0.00%) processed += ELEM_SIZE; . } . . // Copy remaining input into start of buffer. . let src = msg.as_ptr().add(processed); . let dst = self.buf.as_mut_ptr() as *mut u8; . copy_nonoverlapping_small(src, dst, extra_bytes_left); . 17,386 ( 0.00%) self.nbuf = extra_bytes_left; 86,930 ( 0.00%) self.processed += nbuf + processed; 104,316 ( 0.00%) } . . #[inline] . pub fn finish128(mut self) -> (u64, u64) { . debug_assert!(self.nbuf < BUFFER_SIZE); . . // Process full elements in buffer. 264,963 ( 0.00%) let last = self.nbuf / ELEM_SIZE; . . // Since we're consuming self, avoid updating members for a potential . // performance gain. 353,284 ( 0.00%) let mut state = self.state; . . for i in 0..last { 276,037 ( 0.00%) let elem = unsafe { self.buf.get_unchecked(i).assume_init().to_le() }; 276,037 ( 0.00%) state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut state); 276,037 ( 0.00%) state.v0 ^= elem; . } . . // Get remaining partial element. 176,642 ( 0.00%) let elem = if self.nbuf % ELEM_SIZE != 0 { . unsafe { . // Ensure element is initialized by writing zero bytes. At most . // `ELEM_SIZE - 1` are required given the above check. It's safe . // to write this many because we have the spill and we maintain . // `self.nbuf` such that this write will start before the spill. . let dst = (self.buf.as_mut_ptr() as *mut u8).add(self.nbuf); . ptr::write_bytes(dst, 0, ELEM_SIZE - 1); 80,864 ( 0.00%) self.buf.get_unchecked(last).assume_init().to_le() . } . } else { . 0 . }; . . // Finalize the hash. 253,695 ( 0.00%) let length = self.processed + self.nbuf; 169,002 ( 0.00%) let b: u64 = ((length as u64 & 0xff) << 56) | elem; . 84,501 ( 0.00%) state.v3 ^= b; . Sip24Rounds::c_rounds(&mut state); 84,501 ( 0.00%) state.v0 ^= b; . 84,501 ( 0.00%) state.v2 ^= 0xee; . Sip24Rounds::d_rounds(&mut state); 280,402 ( 0.00%) let _0 = state.v0 ^ state.v1 ^ state.v2 ^ state.v3; . 111,396 ( 0.00%) state.v1 ^= 0xdd; . Sip24Rounds::d_rounds(&mut state); 111,396 ( 0.00%) let _1 = state.v0 ^ state.v1 ^ state.v2 ^ state.v3; . . (_0, _1) . } . } . . impl Hasher for SipHasher128 { . #[inline] . fn write_u8(&mut self, i: u8) { -- line 414 ---------------------------------------- -- line 471 ---------------------------------------- . } . . #[derive(Debug, Clone, Default)] . struct Sip24Rounds; . . impl Sip24Rounds { . #[inline] . fn c_rounds(state: &mut State) { 21,801,537 ( 0.07%) compress!(state); 23,345,639 ( 0.07%) compress!(state); . } . . #[inline] . fn d_rounds(state: &mut State) { 560,796 ( 0.00%) compress!(state); 560,796 ( 0.00%) compress!(state); 560,796 ( 0.00%) compress!(state); 476,297 ( 0.00%) compress!(state); . } . } 4,131,437 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/std/src/sys/unix/alloc.rs -------------------------------------------------------------------------------- Ir -- line 5 ---------------------------------------- . #[stable(feature = "alloc_system_type", since = "1.28.0")] . unsafe impl GlobalAlloc for System { . #[inline] . unsafe fn alloc(&self, layout: Layout) -> *mut u8 { . // jemalloc provides alignment less than MIN_ALIGN for small allocations. . // So only rely on MIN_ALIGN if size >= align. . // Also see and . // . 30,789,882 ( 0.10%) if layout.align() <= MIN_ALIGN && layout.align() <= layout.size() { 23,092,410 ( 0.07%) libc::malloc(layout.size()) as *mut u8 . } else { . #[cfg(target_os = "macos")] . { . if layout.align() > (1 << 31) { . return ptr::null_mut(); . } . } . aligned_malloc(&layout) . } . } . . #[inline] . unsafe fn alloc_zeroed(&self, layout: Layout) -> *mut u8 { . // See the comment above in `alloc` for why this check looks the way it does. 2,227,600 ( 0.01%) if layout.align() <= MIN_ALIGN && layout.align() <= layout.size() { 3,341,400 ( 0.01%) libc::calloc(layout.size(), 1) as *mut u8 . } else { . let ptr = self.alloc(layout); . if !ptr.is_null() { . ptr::write_bytes(ptr, 0, layout.size()); . } . ptr . } . } . . #[inline] . unsafe fn dealloc(&self, ptr: *mut u8, _layout: Layout) { 8,254,360 ( 0.03%) libc::free(ptr as *mut libc::c_void) . } . . #[inline] . unsafe fn realloc(&self, ptr: *mut u8, layout: Layout, new_size: usize) -> *mut u8 { 2,610,168 ( 0.01%) if layout.align() <= MIN_ALIGN && layout.align() <= new_size { 5,220,336 ( 0.02%) libc::realloc(ptr as *mut libc::c_void, new_size) as *mut u8 . } else { . realloc_fallback(self, ptr, layout, new_size) . } . } . } . . cfg_if::cfg_if! { . if #[cfg(any( -- line 56 ---------------------------------------- -- line 84 ---------------------------------------- . } else if #[cfg(target_os = "wasi")] { . #[inline] . unsafe fn aligned_malloc(layout: &Layout) -> *mut u8 { . libc::aligned_alloc(layout.align(), layout.size()) as *mut u8 . } . } else { . #[inline] . unsafe fn aligned_malloc(layout: &Layout) -> *mut u8 { 1 ( 0.00%) let mut out = ptr::null_mut(); . // posix_memalign requires that the alignment be a multiple of `sizeof(void*)`. . // Since these are all powers of 2, we can just use max. . let align = layout.align().max(crate::mem::size_of::()); 2 ( 0.00%) let ret = libc::posix_memalign(&mut out, align, layout.size()); 2 ( 0.00%) if ret != 0 { ptr::null_mut() } else { out as *mut u8 } . } . } . } 1 ( 0.00%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_ast/src/tokenstream.rs -------------------------------------------------------------------------------- Ir -- line 32 ---------------------------------------- . /// . /// If the syntax extension is an MBE macro, it will attempt to match its . /// LHS token tree against the provided token tree, and if it finds a . /// match, will transcribe the RHS token tree, splicing in any captured . /// `macro_parser::matched_nonterminals` into the `SubstNt`s it finds. . /// . /// The RHS of an MBE macro is the only place `SubstNt`s are substituted. . /// Nothing special happens to misnamed or misplaced `SubstNt`s. 15,331,810 ( 0.05%) #[derive(Debug, Clone, PartialEq, Encodable, Decodable, HashStable_Generic)] . pub enum TokenTree { . /// A single token. 5,742,850 ( 0.02%) Token(Token), . /// A delimited sequence of token trees. 529,638 ( 0.00%) Delimited(DelimSpan, DelimToken, TokenStream), . } . . #[derive(Copy, Clone)] . pub enum CanSynthesizeMissingTokens { . Yes, . No, . } . -- line 53 ---------------------------------------- -- line 71 ---------------------------------------- . delim == delim2 && tts.eq_unspanned(&tts2) . } . _ => false, . } . } . . /// Retrieves the `TokenTree`'s span. . pub fn span(&self) -> Span { 32,130 ( 0.00%) match self { 14,271 ( 0.00%) TokenTree::Token(token) => token.span, 12,820 ( 0.00%) TokenTree::Delimited(sp, ..) => sp.entire(), . } 12,871 ( 0.00%) } . . /// Modify the `TokenTree`'s span in-place. . pub fn set_span(&mut self, span: Span) { 32,130 ( 0.00%) match self { 12,871 ( 0.00%) TokenTree::Token(token) => token.span = span, 6,388 ( 0.00%) TokenTree::Delimited(dspan, ..) => *dspan = DelimSpan::from_single(span), . } 16,065 ( 0.00%) } . 30,290 ( 0.00%) pub fn token(kind: TokenKind, span: Span) -> TokenTree { 1,899,028 ( 0.01%) TokenTree::Token(Token::new(kind, span)) 30,290 ( 0.00%) } . . /// Returns the opening delimiter as a token tree. 223,722 ( 0.00%) pub fn open_tt(span: DelimSpan, delim: DelimToken) -> TokenTree { 671,166 ( 0.00%) TokenTree::token(token::OpenDelim(delim), span.open) 223,722 ( 0.00%) } . . /// Returns the closing delimiter as a token tree. 220,745 ( 0.00%) pub fn close_tt(span: DelimSpan, delim: DelimToken) -> TokenTree { 662,235 ( 0.00%) TokenTree::token(token::CloseDelim(delim), span.close) 220,745 ( 0.00%) } . 48,834 ( 0.00%) pub fn uninterpolate(self) -> TokenTree { 32,556 ( 0.00%) match self { 146,502 ( 0.00%) TokenTree::Token(token) => TokenTree::Token(token.uninterpolate().into_owned()), . tt => tt, . } 65,112 ( 0.00%) } . } . . impl HashStable for TokenStream . where . CTX: crate::HashStableContext, . { 57,114 ( 0.00%) fn hash_stable(&self, hcx: &mut CTX, hasher: &mut StableHasher) { 205,276 ( 0.00%) for sub_tt in self.trees() { . sub_tt.hash_stable(hcx, hasher); . } 50,768 ( 0.00%) } . } . . pub trait CreateTokenStream: sync::Send + sync::Sync { . fn create_token_stream(&self) -> AttrAnnotatedTokenStream; . } . . impl CreateTokenStream for AttrAnnotatedTokenStream { . fn create_token_stream(&self) -> AttrAnnotatedTokenStream { 3 ( 0.00%) self.clone() 3 ( 0.00%) } . } . . /// A lazy version of [`TokenStream`], which defers creation . /// of an actual `TokenStream` until it is needed. . /// `Box` is here only to reduce the structure size. . #[derive(Clone)] . pub struct LazyTokenStream(Lrc>); . . impl LazyTokenStream { 940 ( 0.00%) pub fn new(inner: impl CreateTokenStream + 'static) -> LazyTokenStream { . LazyTokenStream(Lrc::new(Box::new(inner))) 940 ( 0.00%) } . . pub fn create_token_stream(&self) -> AttrAnnotatedTokenStream { 6,147 ( 0.00%) self.0.create_token_stream() . } . } . . impl fmt::Debug for LazyTokenStream { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . write!(f, "LazyTokenStream({:?})", self.create_token_stream()) . } . } -- line 156 ---------------------------------------- -- line 177 ---------------------------------------- . /// A `AttrAnnotatedTokenStream` is similar to a `TokenStream`, but with extra . /// information about the tokens for attribute targets. This is used . /// during expansion to perform early cfg-expansion, and to process attributes . /// during proc-macro invocations. . #[derive(Clone, Debug, Default, Encodable, Decodable)] . pub struct AttrAnnotatedTokenStream(pub Lrc>); . . /// Like `TokenTree`, but for `AttrAnnotatedTokenStream` 13,996 ( 0.00%) #[derive(Clone, Debug, Encodable, Decodable)] . pub enum AttrAnnotatedTokenTree { 5,040 ( 0.00%) Token(Token), 554 ( 0.00%) Delimited(DelimSpan, DelimToken, AttrAnnotatedTokenStream), . /// Stores the attributes for an attribute target, . /// along with the tokens for that attribute target. . /// See `AttributesData` for more information . Attributes(AttributesData), . } . . impl AttrAnnotatedTokenStream { 114,544 ( 0.00%) pub fn new(tokens: Vec<(AttrAnnotatedTokenTree, Spacing)>) -> AttrAnnotatedTokenStream { . AttrAnnotatedTokenStream(Lrc::new(tokens)) 114,544 ( 0.00%) } . . /// Converts this `AttrAnnotatedTokenStream` to a plain `TokenStream . /// During conversion, `AttrAnnotatedTokenTree::Attributes` get 'flattened' . /// back to a `TokenStream` of the form `outer_attr attr_target`. . /// If there are inner attributes, they are inserted into the proper . /// place in the attribute target tokens. 982 ( 0.00%) pub fn to_tokenstream(&self) -> TokenStream { 2,289 ( 0.00%) let trees: Vec<_> = self . .0 . .iter() 40,001 ( 0.00%) .flat_map(|tree| match &tree.0 { 22,214 ( 0.00%) AttrAnnotatedTokenTree::Token(inner) => { 55,535 ( 0.00%) smallvec![(TokenTree::Token(inner.clone()), tree.1)].into_iter() . } 26,140 ( 0.00%) AttrAnnotatedTokenTree::Delimited(span, delim, stream) => smallvec![( 3,921 ( 0.00%) TokenTree::Delimited(*span, *delim, stream.to_tokenstream()), 1,307 ( 0.00%) tree.1, . )] . .into_iter(), . AttrAnnotatedTokenTree::Attributes(data) => { . let mut outer_attrs = Vec::new(); . let mut inner_attrs = Vec::new(); . for attr in &data.attrs { 284 ( 0.00%) match attr.style { . crate::AttrStyle::Outer => { . outer_attrs.push(attr); . } . crate::AttrStyle::Inner => { . inner_attrs.push(attr); . } . } . } . 58 ( 0.00%) let mut target_tokens: Vec<_> = data . .tokens . .create_token_stream() . .to_tokenstream() . .0 . .iter() . .cloned() . .collect(); 29 ( 0.00%) if !inner_attrs.is_empty() { . let mut found = false; . // Check the last two trees (to account for a trailing semi) . for (tree, _) in target_tokens.iter_mut().rev().take(2) { . if let TokenTree::Delimited(span, delim, delim_tokens) = tree { . // Inner attributes are only supported on extern blocks, functions, impls, . // and modules. All of these have their inner attributes placed at . // the beginning of the rightmost outermost braced group: . // e.g. fn foo() { #![my_attr} } -- line 248 ---------------------------------------- -- line 269 ---------------------------------------- . . assert!( . found, . "Failed to find trailing delimited group in: {:?}", . target_tokens . ); . } . let mut flat: SmallVec<[_; 1]> = SmallVec::new(); 661 ( 0.00%) for attr in outer_attrs { . // FIXME: Make this more efficient 852 ( 0.00%) flat.extend(attr.tokens().to_tokenstream().0.clone().iter().cloned()); . } 232 ( 0.00%) flat.extend(target_tokens); 290 ( 0.00%) flat.into_iter() 29 ( 0.00%) } . }) . .collect(); . TokenStream::new(trees) 1,964 ( 0.00%) } . } . . /// Stores the tokens for an attribute target, along . /// with its attributes. . /// . /// This is constructed during parsing when we need to capture . /// tokens. . /// -- line 295 ---------------------------------------- -- line 298 ---------------------------------------- . /// and a `tokens` field storing the (unparesd) tokens `struct Foo {}` . #[derive(Clone, Debug, Encodable, Decodable)] . pub struct AttributesData { . /// Attributes, both outer and inner. . /// These are stored in the original order that they were parsed in. . pub attrs: AttrVec, . /// The underlying tokens for the attribute target that `attrs` . /// are applied to 1,256 ( 0.00%) pub tokens: LazyTokenStream, . } . . /// A `TokenStream` is an abstract sequence of tokens, organized into [`TokenTree`]s. . /// . /// The goal is for procedural macros to work with `TokenStream`s and `TokenTree`s . /// instead of a representation of the abstract syntax tree. . /// Today's `TokenTree`s can still contain AST via `token::Interpolated` for . /// backwards compatibility. -- line 314 ---------------------------------------- -- line 316 ---------------------------------------- . pub struct TokenStream(pub(crate) Lrc>); . . pub type TreeAndSpacing = (TokenTree, Spacing); . . // `TokenStream` is used a lot. Make sure it doesn't unintentionally get bigger. . #[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))] . rustc_data_structures::static_assert_size!(TokenStream, 8); . 1,612,134 ( 0.01%) #[derive(Clone, Copy, Debug, PartialEq, Encodable, Decodable)] . pub enum Spacing { . Alone, . Joint, . } . . impl TokenStream { . /// Given a `TokenStream` with a `Stream` of only two arguments, return a new `TokenStream` . /// separating the two arguments with a comma for diagnostic suggestions. -- line 332 ---------------------------------------- -- line 365 ---------------------------------------- . return Some((TokenStream::new(new_stream), sp)); . } . None . } . } . . impl From<(AttrAnnotatedTokenTree, Spacing)> for AttrAnnotatedTokenStream { . fn from((tree, spacing): (AttrAnnotatedTokenTree, Spacing)) -> AttrAnnotatedTokenStream { 390 ( 0.00%) AttrAnnotatedTokenStream::new(vec![(tree, spacing)]) . } . } . . impl From for TokenStream { . fn from(tree: TokenTree) -> TokenStream { 18,725 ( 0.00%) TokenStream::new(vec![(tree, Spacing::Alone)]) . } . } . . impl From for TreeAndSpacing { . fn from(tree: TokenTree) -> TreeAndSpacing { 828,597 ( 0.00%) (tree, Spacing::Alone) . } . } . . impl iter::FromIterator for TokenStream { . fn from_iter>(iter: I) -> Self { 3,276 ( 0.00%) TokenStream::new(iter.into_iter().map(Into::into).collect::>()) . } . } . . impl Eq for TokenStream {} . . impl PartialEq for TokenStream { . fn eq(&self, other: &TokenStream) -> bool { . self.trees().eq(other.trees()) -- line 399 ---------------------------------------- -- line 401 ---------------------------------------- . } . . impl TokenStream { . pub fn new(streams: Vec) -> TokenStream { . TokenStream(Lrc::new(streams)) . } . . pub fn is_empty(&self) -> bool { 13,893 ( 0.00%) self.0.is_empty() 13,893 ( 0.00%) } . . pub fn len(&self) -> usize { 2,086,580 ( 0.01%) self.0.len() 4,767 ( 0.00%) } . . pub fn from_streams(mut streams: SmallVec<[TokenStream; 2]>) -> TokenStream { . match streams.len() { . 0 => TokenStream::default(), . 1 => streams.pop().unwrap(), . _ => { . // We are going to extend the first stream in `streams` with . // the elements from the subsequent streams. This requires -- line 422 ---------------------------------------- -- line 448 ---------------------------------------- . . // Create the final `TokenStream`. . TokenStream(first_stream_lrc) . } . } . } . . pub fn trees(&self) -> Cursor { 19,077 ( 0.00%) self.clone().into_trees() 38,154 ( 0.00%) } . 242,429 ( 0.00%) pub fn into_trees(self) -> Cursor { . Cursor::new(self) 484,858 ( 0.00%) } . . /// Compares two `TokenStream`s, checking equality without regarding span information. . pub fn eq_unspanned(&self, other: &TokenStream) -> bool { . let mut t1 = self.trees(); . let mut t2 = other.trees(); . for (t1, t2) in iter::zip(&mut t1, &mut t2) { . if !t1.eq_unspanned(&t2) { . return false; . } . } . t1.next().is_none() && t2.next().is_none() . } . . pub fn map_enumerated TokenTree>(self, mut f: F) -> TokenStream { 2,215 ( 0.00%) TokenStream(Lrc::new( . self.0 . .iter() . .enumerate() 96,390 ( 0.00%) .map(|(i, (tree, is_joint))| (f(i, tree), *is_joint)) . .collect(), . )) . } . } . . // 99.5%+ of the time we have 1 or 2 elements in this vector. . #[derive(Clone)] . pub struct TokenStreamBuilder(SmallVec<[TokenStream; 2]>); -- line 488 ---------------------------------------- -- line 572 ---------------------------------------- . pub struct Cursor { . pub stream: TokenStream, . index: usize, . } . . impl Iterator for Cursor { . type Item = TokenTree; . 311,766 ( 0.00%) fn next(&mut self) -> Option { 685,725 ( 0.00%) self.next_with_spacing().map(|(tree, _)| tree) 415,688 ( 0.00%) } . } . . impl Cursor { . fn new(stream: TokenStream) -> Self { . Cursor { stream, index: 0 } . } . 9,865,620 ( 0.03%) pub fn next_with_spacing(&mut self) -> Option { 6,231,138 ( 0.02%) if self.index < self.stream.len() { 3,133,534 ( 0.01%) self.index += 1; 10,403,386 ( 0.03%) Some(self.stream.0[self.index - 1].clone()) . } else { 973,852 ( 0.00%) None . } 11,838,744 ( 0.04%) } . . pub fn index(&self) -> usize { . self.index . } . . pub fn append(&mut self, new_stream: TokenStream) { . if new_stream.is_empty() { . return; . } . let index = self.index; . let stream = mem::take(&mut self.stream); . *self = TokenStream::from_streams(smallvec![stream, new_stream]).into_trees(); . self.index = index; . } . 240,204 ( 0.00%) pub fn look_ahead(&self, n: usize) -> Option<&TokenTree> { 480,408 ( 0.00%) self.stream.0[self.index..].get(n).map(|(tree, _)| tree) 480,408 ( 0.00%) } . } . 1,134,241 ( 0.00%) #[derive(Debug, Copy, Clone, PartialEq, Encodable, Decodable, HashStable_Generic)] . pub struct DelimSpan { . pub open: Span, . pub close: Span, . } . . impl DelimSpan { 2,754 ( 0.00%) pub fn from_single(sp: Span) -> Self { . DelimSpan { open: sp, close: sp } 5,508 ( 0.00%) } . 31,148 ( 0.00%) pub fn from_pair(open: Span, close: Span) -> Self { . DelimSpan { open, close } 15,574 ( 0.00%) } . . pub fn dummy() -> Self { . Self::from_single(DUMMY_SP) 48,363 ( 0.00%) } . 131,432 ( 0.00%) pub fn entire(self) -> Span { . self.open.with_hi(self.close.hi()) 98,574 ( 0.00%) } . } 242,241 ( 0.00%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/caching_source_map_view.rs -------------------------------------------------------------------------------- Ir -- line 27 ---------------------------------------- . impl CacheEntry { . #[inline] . fn update( . &mut self, . new_file_and_idx: Option<(Lrc, usize)>, . pos: BytePos, . time_stamp: usize, . ) { 112,524 ( 0.00%) if let Some((file, file_idx)) = new_file_and_idx { 79,997 ( 0.00%) self.file = file; 120,997 ( 0.00%) self.file_index = file_idx; . } . 32,179 ( 0.00%) let line_index = self.file.lookup_line(pos).unwrap(); . let line_bounds = self.file.line_bounds(line_index); 198,354 ( 0.00%) self.line_number = line_index + 1; 297,357 ( 0.00%) self.line = line_bounds; . self.touch(time_stamp); . } . . #[inline] . fn touch(&mut self, time_stamp: usize) { 1,104,412 ( 0.00%) self.time_stamp = time_stamp; . } . } . . #[derive(Clone)] . pub struct CachingSourceMapView<'sm> { . source_map: &'sm SourceMap, . line_cache: [CacheEntry; 3], . time_stamp: usize, . } . . impl<'sm> CachingSourceMapView<'sm> { 50,972 ( 0.00%) pub fn new(source_map: &'sm SourceMap) -> CachingSourceMapView<'sm> { . let files = source_map.files(); 25,486 ( 0.00%) let first_file = files[0].clone(); . let entry = CacheEntry { . time_stamp: 0, . line_number: 0, . line: BytePos(0)..BytePos(0), . file: first_file, . file_index: 0, . }; . 127,430 ( 0.00%) CachingSourceMapView { . source_map, 178,402 ( 0.00%) line_cache: [entry.clone(), entry.clone(), entry], . time_stamp: 0, . } 101,944 ( 0.00%) } . . pub fn byte_pos_to_line_and_col( . &mut self, . pos: BytePos, . ) -> Option<(Lrc, usize, BytePos)> { . self.time_stamp += 1; . . // Check if the position is in one of the cached lines -- line 85 ---------------------------------------- -- line 106 ---------------------------------------- . }; . . let cache_entry = &mut self.line_cache[oldest]; . cache_entry.update(new_file_and_idx, pos, self.time_stamp); . . Some((cache_entry.file.clone(), cache_entry.line_number, pos - cache_entry.line.start)) . } . 4,169,893 ( 0.01%) pub fn span_data_to_lines_and_cols( . &mut self, . span_data: &SpanData, . ) -> Option<(Lrc, usize, BytePos, usize, BytePos)> { 2,382,796 ( 0.01%) self.time_stamp += 1; . . // Check if lo and hi are in the cached lines. 595,699 ( 0.00%) let lo_cache_idx = self.cache_entry_index(span_data.lo); 595,699 ( 0.00%) let hi_cache_idx = self.cache_entry_index(span_data.hi); . 1,022,342 ( 0.00%) if lo_cache_idx != -1 && hi_cache_idx != -1 { . // Cache hit for span lo and hi. Check if they belong to the same file. . let result = { 1,019,042 ( 0.00%) let lo = &self.line_cache[lo_cache_idx as usize]; . let hi = &self.line_cache[hi_cache_idx as usize]; . 3,057,126 ( 0.01%) if lo.file_index != hi.file_index { . return None; . } . . ( 1,018,234 ( 0.00%) lo.file.clone(), . lo.line_number, . span_data.lo - lo.line.start, 509,117 ( 0.00%) hi.line_number, . span_data.hi - hi.line.start, . ) . }; . 509,117 ( 0.00%) self.line_cache[lo_cache_idx as usize].touch(self.time_stamp); 509,117 ( 0.00%) self.line_cache[hi_cache_idx as usize].touch(self.time_stamp); . 2,036,468 ( 0.01%) return Some(result); . } . . // No cache hit or cache hit for only one of span lo and hi. 169,056 ( 0.00%) let oldest = if lo_cache_idx != -1 || hi_cache_idx != -1 { . let avoid_idx = if lo_cache_idx != -1 { lo_cache_idx } else { hi_cache_idx }; . self.oldest_cache_entry_index_avoid(avoid_idx as usize) . } else { . self.oldest_cache_entry_index() . }; . . // If the entry doesn't point to the correct file, get the new file and index. . // Return early if the file containing beginning of span doesn't contain end of span. 674,832 ( 0.00%) let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, span_data.lo) { 269,995 ( 0.00%) let new_file_and_idx = self.file_for_position(span_data.lo)?; 323,994 ( 0.00%) if !file_contains(&new_file_and_idx.0, span_data.hi) { . return None; . } . 215,996 ( 0.00%) Some(new_file_and_idx) . } else { . let file = &self.line_cache[oldest].file; 96,537 ( 0.00%) if !file_contains(&file, span_data.hi) { . return None; . } . 96,537 ( 0.00%) None . }; . . // Update the cache entries. 430,890 ( 0.00%) let (lo_idx, hi_idx) = match (lo_cache_idx, hi_cache_idx) { . // Oldest cache entry is for span_data.lo line. . (-1, -1) => { . let lo = &mut self.line_cache[oldest]; . lo.update(new_file_and_idx, span_data.lo, self.time_stamp); . 214,065 ( 0.00%) if !lo.line.contains(&span_data.hi) { . let new_file_and_idx = Some((lo.file.clone(), lo.file_index)); . let next_oldest = self.oldest_cache_entry_index_avoid(oldest); . let hi = &mut self.line_cache[next_oldest]; . hi.update(new_file_and_idx, span_data.hi, self.time_stamp); . (oldest, next_oldest) . } else { . (oldest, oldest) . } . } . // Oldest cache entry is for span_data.lo line. . (-1, _) => { . let lo = &mut self.line_cache[oldest]; . lo.update(new_file_and_idx, span_data.lo, self.time_stamp); 3,300 ( 0.00%) let hi = &mut self.line_cache[hi_cache_idx as usize]; 4,950 ( 0.00%) hi.touch(self.time_stamp); . (oldest, hi_cache_idx as usize) . } . // Oldest cache entry is for span_data.hi line. . (_, -1) => { . let hi = &mut self.line_cache[oldest]; 13,173 ( 0.00%) hi.update(new_file_and_idx, span_data.hi, self.time_stamp); 26,346 ( 0.00%) let lo = &mut self.line_cache[lo_cache_idx as usize]; 52,692 ( 0.00%) lo.touch(self.time_stamp); . (lo_cache_idx as usize, oldest) . } . _ => { . panic!(); . } . }; . . let lo = &self.line_cache[lo_idx]; . let hi = &self.line_cache[hi_idx]; . . // Span lo and hi may equal line end when last line doesn't . // end in newline, hence the inclusive upper bounds below. 172,356 ( 0.00%) assert!(span_data.lo >= lo.line.start); 86,178 ( 0.00%) assert!(span_data.lo <= lo.line.end); 172,356 ( 0.00%) assert!(span_data.hi >= hi.line.start); 86,178 ( 0.00%) assert!(span_data.hi <= hi.line.end); 430,890 ( 0.00%) assert!(lo.file.contains(span_data.lo)); 258,534 ( 0.00%) assert!(lo.file.contains(span_data.hi)); 258,534 ( 0.00%) assert_eq!(lo.file_index, hi.file_index); . 258,534 ( 0.00%) Some(( 86,178 ( 0.00%) lo.file.clone(), . lo.line_number, . span_data.lo - lo.line.start, 86,178 ( 0.00%) hi.line_number, . span_data.hi - hi.line.start, . )) 5,361,291 ( 0.02%) } . . fn cache_entry_index(&self, pos: BytePos) -> isize { . for (idx, cache_entry) in self.line_cache.iter().enumerate() { 5,876,153 ( 0.02%) if cache_entry.line.contains(&pos) { . return idx as isize; . } . } . . -1 . } . . fn oldest_cache_entry_index(&self) -> usize { . let mut oldest = 0; . . for idx in 1..self.line_cache.len() { 428,130 ( 0.00%) if self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp { . oldest = idx; . } . } . . oldest . } . . fn oldest_cache_entry_index_avoid(&self, avoid_idx: usize) -> usize { . let mut oldest = if avoid_idx != 0 { 0 } else { 1 }; . . for idx in 0..self.line_cache.len() { 165,881 ( 0.00%) if idx != avoid_idx 92,219 ( 0.00%) && self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp . { . oldest = idx; . } . } . . oldest . } . 269,995 ( 0.00%) fn file_for_position(&self, pos: BytePos) -> Option<(Lrc, usize)> { 53,999 ( 0.00%) if !self.source_map.files().is_empty() { 107,998 ( 0.00%) let file_idx = self.source_map.lookup_source_file_idx(pos); . let file = &self.source_map.files()[file_idx]; . 431,992 ( 0.00%) if file_contains(file, pos) { . return Some((file.clone(), file_idx)); . } . } . . None 269,995 ( 0.00%) } . } . . #[inline] . fn file_contains(file: &SourceFile, pos: BytePos) -> bool { . // `SourceMap::lookup_source_file_idx` and `SourceFile::contains` both consider the position . // one past the end of a file to belong to it. Normally, that's what we want. But for the . // purposes of converting a byte position to a line and column number, we can't come up with a . // line and column number if the file is empty, because an empty file doesn't contain any -- line 290 ---------------------------------------- 8,150,529 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs -------------------------------------------------------------------------------- Ir -- line 84 ---------------------------------------- . pub struct SessionGlobals { . symbol_interner: symbol::Interner, . span_interner: Lock, . hygiene_data: Lock, . source_map: Lock>>, . } . . impl SessionGlobals { 12 ( 0.00%) pub fn new(edition: Edition) -> SessionGlobals { 50 ( 0.00%) SessionGlobals { 2 ( 0.00%) symbol_interner: symbol::Interner::fresh(), . span_interner: Lock::new(span_encoding::SpanInterner::default()), 6 ( 0.00%) hygiene_data: Lock::new(hygiene::HygieneData::new(edition)), . source_map: Lock::new(None), . } 10 ( 0.00%) } . } . . #[inline] . pub fn create_session_globals_then(edition: Edition, f: impl FnOnce() -> R) -> R { 1 ( 0.00%) assert!( . !SESSION_GLOBALS.is_set(), . "SESSION_GLOBALS should never be overwritten! \ . Use another thread if you need another SessionGlobals" . ); 3 ( 0.00%) let session_globals = SessionGlobals::new(edition); 7 ( 0.00%) SESSION_GLOBALS.set(&session_globals, f) 1 ( 0.00%) } . . #[inline] . pub fn set_session_globals_then(session_globals: &SessionGlobals, f: impl FnOnce() -> R) -> R { . assert!( . !SESSION_GLOBALS.is_set(), . "SESSION_GLOBALS should never be overwritten! \ . Use another thread if you need another SessionGlobals" . ); -- line 119 ---------------------------------------- -- line 120 ---------------------------------------- . SESSION_GLOBALS.set(session_globals, f) . } . . #[inline] . pub fn create_default_session_if_not_set_then(f: F) -> R . where . F: FnOnce(&SessionGlobals) -> R, . { 4 ( 0.00%) create_session_if_not_set_then(edition::DEFAULT_EDITION, f) . } . . #[inline] . pub fn create_session_if_not_set_then(edition: Edition, f: F) -> R . where . F: FnOnce(&SessionGlobals) -> R, . { 1 ( 0.00%) if !SESSION_GLOBALS.is_set() { 3 ( 0.00%) let session_globals = SessionGlobals::new(edition); 11 ( 0.00%) SESSION_GLOBALS.set(&session_globals, || SESSION_GLOBALS.with(f)) 1 ( 0.00%) } else { . SESSION_GLOBALS.with(f) . } . } . . #[inline] . pub fn with_session_globals(f: F) -> R . where . F: FnOnce(&SessionGlobals) -> R, . { 9,073,359 ( 0.03%) SESSION_GLOBALS.with(f) . } . . #[inline] . pub fn create_default_session_globals_then(f: impl FnOnce() -> R) -> R { . create_session_globals_then(edition::DEFAULT_EDITION, f) . } . . // If this ever becomes non thread-local, `decode_syntax_context` . // and `decode_expn_id` will need to be updated to handle concurrent . // deserialization. . scoped_tls::scoped_thread_local!(static SESSION_GLOBALS: SessionGlobals); . . // FIXME: We should use this enum or something like it to get rid of the . // use of magic `/rust/1.x/...` paths across the board. 117 ( 0.00%) #[derive(Debug, Eq, PartialEq, Clone, Ord, PartialOrd)] 1,174 ( 0.00%) #[derive(Decodable)] . pub enum RealFileName { . LocalPath(PathBuf), . /// For remapped paths (namely paths into libstd that have been mapped . /// to the appropriate spot on the local host's file system, and local file . /// system paths that have been remapped with `FilePathMapping`), . Remapped { . /// `local_path` is the (host-dependent) local path to the file. This is . /// None if the file was imported from another crate -- line 173 ---------------------------------------- -- line 179 ---------------------------------------- . } . . impl Hash for RealFileName { . fn hash(&self, state: &mut H) { . // To prevent #70924 from happening again we should only hash the . // remapped (virtualized) path if that exists. This is because . // virtualized paths to sysroot crates (/rust/$hash or /rust/$version) . // remain stable even if the corresponding local_path changes 3,948 ( 0.00%) self.remapped_path_if_available().hash(state) . } . } . . // This is functionally identical to #[derive(Encodable)], with the exception of . // an added assert statement . impl Encodable for RealFileName { . fn encode(&self, encoder: &mut S) -> Result<(), S::Error> { 106 ( 0.00%) encoder.emit_enum(|encoder| match *self { . RealFileName::LocalPath(ref local_path) => { 424 ( 0.00%) encoder.emit_enum_variant("LocalPath", 0, 1, |encoder| { . encoder.emit_enum_variant_arg(true, |encoder| local_path.encode(encoder))?; . Ok(()) . }) . } . . RealFileName::Remapped { ref local_path, ref virtual_name } => encoder . .emit_enum_variant("Remapped", 1, 2, |encoder| { . // For privacy and build reproducibility, we must not embed host-dependant path in artifacts -- line 205 ---------------------------------------- -- line 213 ---------------------------------------- . } . } . . impl RealFileName { . /// Returns the path suitable for reading from the file system on the local host, . /// if this information exists. . /// Avoid embedding this in build artifacts; see `remapped_path_if_available()` for that. . pub fn local_path(&self) -> Option<&Path> { 4 ( 0.00%) match self { . RealFileName::LocalPath(p) => Some(p), . RealFileName::Remapped { local_path: p, virtual_name: _ } => { . p.as_ref().map(PathBuf::as_path) . } . } . } . . /// Returns the path suitable for reading from the file system on the local host, . /// if this information exists. . /// Avoid embedding this in build artifacts; see `remapped_path_if_available()` for that. 2 ( 0.00%) pub fn into_local_path(self) -> Option { 2 ( 0.00%) match self { . RealFileName::LocalPath(p) => Some(p), . RealFileName::Remapped { local_path: p, virtual_name: _ } => p, . } 3 ( 0.00%) } . . /// Returns the path suitable for embedding into build artifacts. This would still . /// be a local path if it has not been remapped. A remapped path will not correspond . /// to a valid file system path: see `local_path_if_available()` for something that . /// is more likely to return paths into the local host file system. . pub fn remapped_path_if_available(&self) -> &Path { 6,116 ( 0.00%) match self { . RealFileName::LocalPath(p) . | RealFileName::Remapped { local_path: _, virtual_name: p } => &p, . } 54 ( 0.00%) } . . /// Returns the path suitable for reading from the file system on the local host, . /// if this information exists. Otherwise returns the remapped name. . /// Avoid embedding this in build artifacts; see `remapped_path_if_available()` for that. . pub fn local_path_if_available(&self) -> &Path { 53 ( 0.00%) match self { . RealFileName::LocalPath(path) . | RealFileName::Remapped { local_path: None, virtual_name: path } . | RealFileName::Remapped { local_path: Some(path), virtual_name: _ } => path, . } . } . . pub fn to_string_lossy(&self, display_pref: FileNameDisplayPreference) -> Cow<'_, str> { 1,617 ( 0.00%) match display_pref { . FileNameDisplayPreference::Local => self.local_path_if_available().to_string_lossy(), . FileNameDisplayPreference::Remapped => { . self.remapped_path_if_available().to_string_lossy() . } . } . } . } . . /// Differentiates between real files and common virtual files. 8,319 ( 0.00%) #[derive(Debug, Eq, PartialEq, Clone, Ord, PartialOrd, Hash)] 7,783 ( 0.00%) #[derive(Decodable, Encodable)] . pub enum FileName { . Real(RealFileName), . /// Call to `quote!`. . QuoteExpansion(u64), . /// Command line. . Anon(u64), . /// Hack in `src/librustc_ast/parse.rs`. . // FIXME(jseyfried) -- line 281 ---------------------------------------- -- line 288 ---------------------------------------- . /// Custom sources for explicit parser calls from plugins and drivers. . Custom(String), . DocTest(PathBuf, isize), . /// Post-substitution inline assembly from LLVM. . InlineAsm(u64), . } . . impl From for FileName { 371 ( 0.00%) fn from(p: PathBuf) -> Self { 106 ( 0.00%) assert!(!p.to_string_lossy().ends_with('>')); 318 ( 0.00%) FileName::Real(RealFileName::LocalPath(p)) 371 ( 0.00%) } . } . 34 ( 0.00%) #[derive(Clone, Copy, Eq, PartialEq, Hash, Debug)] . pub enum FileNameDisplayPreference { . Remapped, . Local, . } . . pub struct FileNameDisplay<'a> { . inner: &'a FileName, . display_pref: FileNameDisplayPreference, . } . . impl fmt::Display for FileNameDisplay<'_> { 432 ( 0.00%) fn fmt(&self, fmt: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { . use FileName::*; 648 ( 0.00%) match *self.inner { . Real(ref name) => { 648 ( 0.00%) write!(fmt, "{}", name.to_string_lossy(self.display_pref)) . } . QuoteExpansion(_) => write!(fmt, ""), . MacroExpansion(_) => write!(fmt, ""), . Anon(_) => write!(fmt, ""), . ProcMacroSourceCode(_) => write!(fmt, ""), . CfgSpec(_) => write!(fmt, ""), . CliCrateAttr(_) => write!(fmt, ""), . Custom(ref s) => write!(fmt, "<{}>", s), . DocTest(ref path, _) => write!(fmt, "{}", path.display()), . InlineAsm(_) => write!(fmt, ""), . } 540 ( 0.00%) } . } . . impl FileNameDisplay<'_> { 6,036 ( 0.00%) pub fn to_string_lossy(&self) -> Cow<'_, str> { 4,527 ( 0.00%) match self.inner { 1,509 ( 0.00%) FileName::Real(ref inner) => inner.to_string_lossy(self.display_pref), . _ => Cow::from(format!("{}", self)), . } 6,036 ( 0.00%) } . } . . impl FileName { . pub fn is_real(&self) -> bool { . use FileName::*; 1,268 ( 0.00%) match *self { . Real(_) => true, . Anon(_) . | MacroExpansion(_) . | ProcMacroSourceCode(_) . | CfgSpec(_) . | CliCrateAttr(_) . | Custom(_) . | QuoteExpansion(_) . | DocTest(_, _) . | InlineAsm(_) => false, . } . } . 1,509 ( 0.00%) pub fn prefer_remapped(&self) -> FileNameDisplay<'_> { . FileNameDisplay { inner: self, display_pref: FileNameDisplayPreference::Remapped } 3,018 ( 0.00%) } . . // This may include transient local filesystem information. . // Must not be embedded in build outputs. 53 ( 0.00%) pub fn prefer_local(&self) -> FileNameDisplay<'_> { . FileNameDisplay { inner: self, display_pref: FileNameDisplayPreference::Local } 106 ( 0.00%) } . . pub fn display(&self, display_pref: FileNameDisplayPreference) -> FileNameDisplay<'_> { . FileNameDisplay { inner: self, display_pref } . } . . pub fn macro_expansion_source_code(src: &str) -> FileName { . let mut hasher = StableHasher::new(); . src.hash(&mut hasher); -- line 375 ---------------------------------------- -- line 423 ---------------------------------------- . /// that the length of the span is equal to `span.hi - span.lo`; there may be space in the . /// [`BytePos`] range between files. . /// . /// `SpanData` is public because `Span` uses a thread-local interner and can't be . /// sent to other threads, but some pieces of performance infra run in a separate thread. . /// Using `Span` is generally preferred. . #[derive(Clone, Copy, Hash, PartialEq, Eq)] . pub struct SpanData { 539 ( 0.00%) pub lo: BytePos, 539 ( 0.00%) pub hi: BytePos, . /// Information about where the macro came from, if this piece of . /// code was created by a macro expansion. 1,369 ( 0.00%) pub ctxt: SyntaxContext, 446 ( 0.00%) pub parent: Option, . } . . // Order spans by position in the file. . impl Ord for SpanData { . fn cmp(&self, other: &Self) -> Ordering { . let SpanData { . lo: s_lo, . hi: s_hi, -- line 444 ---------------------------------------- -- line 485 ---------------------------------------- . } . #[inline] . pub fn with_parent(&self, parent: Option) -> Span { . Span::new(self.lo, self.hi, self.ctxt, parent) . } . /// Returns `true` if this is a dummy span with any hygienic context. . #[inline] . pub fn is_dummy(self) -> bool { 3,456,677 ( 0.01%) self.lo.0 == 0 && self.hi.0 == 0 . } . /// Returns `true` if `self` fully encloses `other`. . pub fn contains(self, other: Self) -> bool { 9,615 ( 0.00%) self.lo <= other.lo && other.hi <= self.hi . } . } . . // The interner is pointed to by a thread local value which is only set on the main thread . // with parallelization is disabled. So we don't allow `Span` to transfer between threads . // to avoid panics and other errors, even though it would be memory safe to do so. . #[cfg(not(parallel_compiler))] . impl !Send for Span {} . #[cfg(not(parallel_compiler))] . impl !Sync for Span {} . . impl PartialOrd for Span { 331,112 ( 0.00%) fn partial_cmp(&self, rhs: &Self) -> Option { 248,334 ( 0.00%) PartialOrd::partial_cmp(&self.data(), &rhs.data()) 331,112 ( 0.00%) } . } . impl Ord for Span { . fn cmp(&self, rhs: &Self) -> Ordering { . Ord::cmp(&self.data(), &rhs.data()) . } . } . . /// A collection of `Span`s. -- line 520 ---------------------------------------- -- line 532 ---------------------------------------- . } . . impl Span { . #[inline] . pub fn lo(self) -> BytePos { . self.data().lo . } . #[inline] 445,446 ( 0.00%) pub fn with_lo(self, lo: BytePos) -> Span { . self.data().with_lo(lo) 296,964 ( 0.00%) } . #[inline] 65,112 ( 0.00%) pub fn hi(self) -> BytePos { . self.data().hi 65,112 ( 0.00%) } . #[inline] 224,469 ( 0.00%) pub fn with_hi(self, hi: BytePos) -> Span { . self.data().with_hi(hi) 149,646 ( 0.00%) } . #[inline] . pub fn ctxt(self) -> SyntaxContext { . self.data_untracked().ctxt . } . #[inline] 96,170 ( 0.00%) pub fn with_ctxt(self, ctxt: SyntaxContext) -> Span { . self.data_untracked().with_ctxt(ctxt) 57,702 ( 0.00%) } . #[inline] . pub fn parent(self) -> Option { . self.data().parent . } . #[inline] 18 ( 0.00%) pub fn with_parent(self, ctxt: Option) -> Span { . self.data().with_parent(ctxt) 12 ( 0.00%) } . . /// Returns `true` if this is a dummy span with any hygienic context. . #[inline] . pub fn is_dummy(self) -> bool { . self.data_untracked().is_dummy() . } . . /// Returns `true` if this span comes from a macro or desugaring. . #[inline] 264 ( 0.00%) pub fn from_expansion(self) -> bool { . self.ctxt() != SyntaxContext::root() 176 ( 0.00%) } . . /// Returns `true` if `span` originates in a derive-macro's expansion. . pub fn in_derive_expansion(self) -> bool { . matches!(self.ctxt().outer_expn_data().kind, ExpnKind::Macro(MacroKind::Derive, _)) . } . . /// Gate suggestions that would not be appropriate in a context the user didn't write. . pub fn can_be_used_for_suggestions(self) -> bool { -- line 586 ---------------------------------------- -- line 600 ---------------------------------------- . /// Returns a new span representing an empty span at the beginning of this span. . #[inline] . pub fn shrink_to_lo(self) -> Span { . let span = self.data_untracked(); . span.with_hi(span.lo) . } . /// Returns a new span representing an empty span at the end of this span. . #[inline] 3,519 ( 0.00%) pub fn shrink_to_hi(self) -> Span { . let span = self.data_untracked(); . span.with_lo(span.hi) 2,346 ( 0.00%) } . . #[inline] . /// Returns `true` if `hi == lo`. . pub fn is_empty(self) -> bool { . let span = self.data_untracked(); . span.hi == span.lo . } . . /// Returns `self` if `self` is not the dummy span, and `other` otherwise. . pub fn substitute_dummy(self, other: Span) -> Span { . if self.is_dummy() { other } else { self } . } . . /// Returns `true` if `self` fully encloses `other`. 28,845 ( 0.00%) pub fn contains(self, other: Span) -> bool { . let span = self.data(); . let other = other.data(); . span.contains(other) 19,230 ( 0.00%) } . . /// Returns `true` if `self` touches `other`. . pub fn overlaps(self, other: Span) -> bool { . let span = self.data(); . let other = other.data(); . span.lo < other.hi && other.lo < span.hi . } . -- line 638 ---------------------------------------- -- line 663 ---------------------------------------- . /// The `Span` for the tokens in the previous macro expansion from which `self` was generated, . /// if any. . pub fn parent_callsite(self) -> Option { . let expn_data = self.ctxt().outer_expn_data(); . if !expn_data.is_root() { Some(expn_data.call_site) } else { None } . } . . /// Walk down the expansion ancestors to find a span that's contained within `outer`. 15,750 ( 0.00%) pub fn find_ancestor_inside(mut self, outer: Span) -> Option { 7,875 ( 0.00%) while !outer.contains(self) { . self = self.parent_callsite()?; . } . Some(self) 17,325 ( 0.00%) } . . /// Edition of the crate from which this span came. 146,262 ( 0.00%) pub fn edition(self) -> edition::Edition { . self.ctxt().edition() 97,508 ( 0.00%) } . . #[inline] . pub fn rust_2015(self) -> bool { 29,012 ( 0.00%) self.edition() == edition::Edition::Edition2015 . } . . #[inline] . pub fn rust_2018(self) -> bool { 21,289 ( 0.00%) self.edition() >= edition::Edition::Edition2018 . } . . #[inline] . pub fn rust_2021(self) -> bool { 17,074 ( 0.00%) self.edition() >= edition::Edition::Edition2021 . } . . /// Returns the source callee. . /// . /// Returns `None` if the supplied span has no expansion trace, . /// else returns the `ExpnData` for the macro definition . /// corresponding to the source callsite. . pub fn source_callee(self) -> Option { -- line 703 ---------------------------------------- -- line 707 ---------------------------------------- . } . let expn_data = self.ctxt().outer_expn_data(); . if !expn_data.is_root() { Some(source_callee(expn_data)) } else { None } . } . . /// Checks if a span is "internal" to a macro in which `#[unstable]` . /// items can be used (that is, a macro marked with . /// `#[allow_internal_unstable]`). 8,390 ( 0.00%) pub fn allows_unstable(self, feature: Symbol) -> bool { 1,678 ( 0.00%) self.ctxt() . .outer_expn_data() . .allow_internal_unstable . .map_or(false, |features| features.iter().any(|&f| f == feature)) 6,712 ( 0.00%) } . . /// Checks if this span arises from a compiler desugaring of kind `kind`. 109,634 ( 0.00%) pub fn is_desugaring(self, kind: DesugaringKind) -> bool { 93,972 ( 0.00%) match self.ctxt().outer_expn_data().kind { . ExpnKind::Desugaring(k) => k == kind, . _ => false, . } 78,310 ( 0.00%) } . . /// Returns the compiler desugaring that created this span, or `None` . /// if this span is not from a desugaring. 3,355 ( 0.00%) pub fn desugaring_kind(self) -> Option { 4,026 ( 0.00%) match self.ctxt().outer_expn_data().kind { . ExpnKind::Desugaring(k) => Some(k), . _ => None, . } 2,684 ( 0.00%) } . . /// Checks if a span is "internal" to a macro in which `unsafe` . /// can be used without triggering the `unsafe_code` lint. . // (that is, a macro marked with `#[allow_internal_unsafe]`). 2,292 ( 0.00%) pub fn allows_unsafe(self) -> bool { 573 ( 0.00%) self.ctxt().outer_expn_data().allow_internal_unsafe 2,292 ( 0.00%) } . . pub fn macro_backtrace(mut self) -> impl Iterator { . let mut prev_span = DUMMY_SP; . std::iter::from_fn(move || { . loop { . let expn_data = self.ctxt().outer_expn_data(); . if expn_data.is_root() { . return None; -- line 752 ---------------------------------------- -- line 767 ---------------------------------------- . . /// Returns a `Span` that would enclose both `self` and `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^^^^^^^^ . /// ``` 3,350,039 ( 0.01%) pub fn to(self, end: Span) -> Span { . let span_data = self.data(); . let end_data = end.data(); . // FIXME(jseyfried): `self.ctxt` should always equal `end.ctxt` here (cf. issue #23480). . // Return the macro span on its own to avoid weird diagnostic output. It is preferable to . // have an incomplete span than a completely nonsensical one. 593,858 ( 0.00%) if span_data.ctxt != end_data.ctxt { 15,240 ( 0.00%) if span_data.ctxt == SyntaxContext::root() { . return end; 14,723 ( 0.00%) } else if end_data.ctxt == SyntaxContext::root() { . return self; . } . // Both spans fall within a macro. . // FIXME(estebank): check if it is the *same* macro. . } . Span::new( . cmp::min(span_data.lo, end_data.lo), . cmp::max(span_data.hi, end_data.hi), . if span_data.ctxt == SyntaxContext::root() { end_data.ctxt } else { span_data.ctxt }, 2,048,235 ( 0.01%) if span_data.parent == end_data.parent { span_data.parent } else { None }, . ) 2,740,941 ( 0.01%) } . . /// Returns a `Span` between the end of `self` to the beginning of `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^ . /// ``` 12,826 ( 0.00%) pub fn between(self, end: Span) -> Span { . let span = self.data(); . let end = end.data(); . Span::new( . span.hi, . end.lo, . if end.ctxt == SyntaxContext::root() { end.ctxt } else { span.ctxt }, 8,162 ( 0.00%) if span.parent == end.parent { span.parent } else { None }, . ) 9,328 ( 0.00%) } . . /// Returns a `Span` from the beginning of `self` until the beginning of `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^^^^^ . /// ``` 26,499 ( 0.00%) pub fn until(self, end: Span) -> Span { . // Most of this function's body is copied from `to`. . // We can't just do `self.to(end.shrink_to_lo())`, . // because to also does some magic where it uses min/max so . // it can handle overlapping spans. Some advanced mis-use of . // `until` with different ctxts makes this visible. . let span_data = self.data(); . let end_data = end.data(); . // FIXME(jseyfried): `self.ctxt` should always equal `end.ctxt` here (cf. issue #23480). . // Return the macro span on its own to avoid weird diagnostic output. It is preferable to . // have an incomplete span than a completely nonsensical one. 4,818 ( 0.00%) if span_data.ctxt != end_data.ctxt { . if span_data.ctxt == SyntaxContext::root() { . return end; . } else if end_data.ctxt == SyntaxContext::root() { . return self; . } . // Both spans fall within a macro. . // FIXME(estebank): check if it is the *same* macro. . } . Span::new( . span_data.lo, . end_data.lo, . if end_data.ctxt == SyntaxContext::root() { end_data.ctxt } else { span_data.ctxt }, 16,863 ( 0.00%) if span_data.parent == end_data.parent { span_data.parent } else { None }, . ) 21,681 ( 0.00%) } . 484 ( 0.00%) pub fn from_inner(self, inner: InnerSpan) -> Span { . let span = self.data(); . Span::new( . span.lo + BytePos::from_usize(inner.start), . span.lo + BytePos::from_usize(inner.end), . span.ctxt, . span.parent, . ) 308 ( 0.00%) } . . /// Equivalent of `Span::def_site` from the proc macro API, . /// except that the location is taken from the `self` span. . pub fn with_def_site_ctxt(self, expn_id: ExpnId) -> Span { 16,694 ( 0.00%) self.with_ctxt_from_mark(expn_id, Transparency::Opaque) . } . . /// Equivalent of `Span::call_site` from the proc macro API, . /// except that the location is taken from the `self` span. . pub fn with_call_site_ctxt(self, expn_id: ExpnId) -> Span { 82 ( 0.00%) self.with_ctxt_from_mark(expn_id, Transparency::Transparent) . } . . /// Equivalent of `Span::mixed_site` from the proc macro API, . /// except that the location is taken from the `self` span. . pub fn with_mixed_site_ctxt(self, expn_id: ExpnId) -> Span { . self.with_ctxt_from_mark(expn_id, Transparency::SemiTransparent) . } . . /// Produces a span with the same location as `self` and context produced by a macro with the . /// given ID and transparency, assuming that macro was defined directly and not produced by . /// some other macro (which is the case for built-in and procedural macros). 100,656 ( 0.00%) pub fn with_ctxt_from_mark(self, expn_id: ExpnId, transparency: Transparency) -> Span { . self.with_ctxt(SyntaxContext::root().apply_mark(expn_id, transparency)) 58,716 ( 0.00%) } . . #[inline] . pub fn apply_mark(self, expn_id: ExpnId, transparency: Transparency) -> Span { . let span = self.data(); 2,168,802 ( 0.01%) span.with_ctxt(span.ctxt.apply_mark(expn_id, transparency)) . } . . #[inline] . pub fn remove_mark(&mut self) -> ExpnId { . let mut span = self.data(); . let mark = span.ctxt.remove_mark(); . *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark -- line 897 ---------------------------------------- -- line 901 ---------------------------------------- . pub fn adjust(&mut self, expn_id: ExpnId) -> Option { . let mut span = self.data(); . let mark = span.ctxt.adjust(expn_id); . *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark . } . . #[inline] 579,321 ( 0.00%) pub fn normalize_to_macros_2_0_and_adjust(&mut self, expn_id: ExpnId) -> Option { 386,214 ( 0.00%) let mut span = self.data(); 315,303 ( 0.00%) let mark = span.ctxt.normalize_to_macros_2_0_and_adjust(expn_id); 579,321 ( 0.00%) *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark 637,148 ( 0.00%) } . . #[inline] . pub fn glob_adjust(&mut self, expn_id: ExpnId, glob_span: Span) -> Option> { 460 ( 0.00%) let mut span = self.data(); 690 ( 0.00%) let mark = span.ctxt.glob_adjust(expn_id, glob_span); 1,840 ( 0.00%) *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark . } . . #[inline] 1,458 ( 0.00%) pub fn reverse_glob_adjust( . &mut self, . expn_id: ExpnId, . glob_span: Span, . ) -> Option> { 2,592 ( 0.00%) let mut span = self.data(); 4,050 ( 0.00%) let mark = span.ctxt.reverse_glob_adjust(expn_id, glob_span); 7,938 ( 0.00%) *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark 1,620 ( 0.00%) } . . #[inline] 419,024 ( 0.00%) pub fn normalize_to_macros_2_0(self) -> Span { . let span = self.data(); . span.with_ctxt(span.ctxt.normalize_to_macros_2_0()) 366,646 ( 0.00%) } . . #[inline] . pub fn normalize_to_macro_rules(self) -> Span { . let span = self.data(); . span.with_ctxt(span.ctxt.normalize_to_macro_rules()) . } . } . -- line 948 ---------------------------------------- -- line 958 ---------------------------------------- . . /// What label should we attach to this span (if any)? . pub label: Option, . } . . impl Default for Span { . fn default() -> Self { . DUMMY_SP 2 ( 0.00%) } . } . . impl Encodable for Span { . default fn encode(&self, s: &mut E) -> Result<(), E::Error> { . let span = self.data(); . s.emit_struct(false, |s| { . s.emit_struct_field("lo", true, |s| span.lo.encode(s))?; . s.emit_struct_field("hi", false, |s| span.hi.encode(s)) -- line 974 ---------------------------------------- -- line 990 ---------------------------------------- . /// any spans that are debug-printed during the closure's execution. . /// . /// Normally, the global `TyCtxt` is used to retrieve the `SourceMap` . /// (see `rustc_interface::callbacks::span_debug1`). However, some parts . /// of the compiler (e.g. `rustc_parse`) may debug-print `Span`s before . /// a `TyCtxt` is available. In this case, we fall back to . /// the `SourceMap` provided to this function. If that is not available, . /// we fall back to printing the raw `Span` field values. 9 ( 0.00%) pub fn with_source_map T>(source_map: Lrc, f: F) -> T { . with_session_globals(|session_globals| { 2 ( 0.00%) *session_globals.source_map.borrow_mut() = Some(source_map); . }); . struct ClearSourceMap; . impl Drop for ClearSourceMap { . fn drop(&mut self) { . with_session_globals(|session_globals| { 1 ( 0.00%) session_globals.source_map.borrow_mut().take(); . }); . } . } . . let _guard = ClearSourceMap; 4 ( 0.00%) f() 8 ( 0.00%) } . . pub fn debug_with_source_map( . span: Span, . f: &mut fmt::Formatter<'_>, . source_map: &SourceMap, . ) -> fmt::Result { . write!(f, "{} ({:?})", source_map.span_to_diagnostic_string(span), span.ctxt()) . } -- line 1021 ---------------------------------------- -- line 1048 ---------------------------------------- . . impl MultiSpan { . #[inline] . pub fn new() -> MultiSpan { . MultiSpan { primary_spans: vec![], span_labels: vec![] } . } . . pub fn from_span(primary_span: Span) -> MultiSpan { 105,325 ( 0.00%) MultiSpan { primary_spans: vec![primary_span], span_labels: vec![] } . } . . pub fn from_spans(mut vec: Vec) -> MultiSpan { . vec.sort(); 2,220 ( 0.00%) MultiSpan { primary_spans: vec, span_labels: vec![] } . } . . pub fn push_span_label(&mut self, span: Span, label: String) { . self.span_labels.push((span, label)); . } . . /// Selects the first primary span (if any). . pub fn primary_span(&self) -> Option { . self.primary_spans.first().cloned() 18,177 ( 0.00%) } . . /// Returns all primary spans. . pub fn primary_spans(&self) -> &[Span] { . &self.primary_spans . } . . /// Returns `true` if any of the primary spans are displayable. . pub fn has_primary_spans(&self) -> bool { -- line 1079 ---------------------------------------- -- line 1139 ---------------------------------------- . . /// Returns `true` if any of the span labels is displayable. . pub fn has_span_labels(&self) -> bool { . self.span_labels.iter().any(|(sp, _)| !sp.is_dummy()) . } . } . . impl From for MultiSpan { 105,325 ( 0.00%) fn from(span: Span) -> MultiSpan { . MultiSpan::from_span(span) 105,325 ( 0.00%) } . } . . impl From> for MultiSpan { 2,220 ( 0.00%) fn from(spans: Vec) -> MultiSpan { 1,776 ( 0.00%) MultiSpan::from_spans(spans) 2,220 ( 0.00%) } . } . . /// Identifies an offset of a multi-byte character in a `SourceFile`. 55 ( 0.00%) #[derive(Copy, Clone, Encodable, Decodable, Eq, PartialEq, Debug)] . pub struct MultiByteChar { . /// The absolute offset of the character in the `SourceMap`. . pub pos: BytePos, . /// The number of bytes, `>= 2`. . pub bytes: u8, . } . . /// Identifies an offset of a non-narrow character in a `SourceFile`. 312 ( 0.00%) #[derive(Copy, Clone, Encodable, Decodable, Eq, PartialEq, Debug)] . pub enum NonNarrowChar { . /// Represents a zero-width character. . ZeroWidth(BytePos), . /// Represents a wide (full-width) character. . Wide(BytePos), . /// Represents a tab character, represented visually with a width of 4 characters. . Tab(BytePos), . } -- line 1176 ---------------------------------------- -- line 1201 ---------------------------------------- . } . } . } . . impl Add for NonNarrowChar { . type Output = Self; . . fn add(self, rhs: BytePos) -> Self { 540 ( 0.00%) match self { . NonNarrowChar::ZeroWidth(pos) => NonNarrowChar::ZeroWidth(pos + rhs), . NonNarrowChar::Wide(pos) => NonNarrowChar::Wide(pos + rhs), . NonNarrowChar::Tab(pos) => NonNarrowChar::Tab(pos + rhs), . } . } . } . . impl Sub for NonNarrowChar { . type Output = Self; . 156 ( 0.00%) fn sub(self, rhs: BytePos) -> Self { 540 ( 0.00%) match self { . NonNarrowChar::ZeroWidth(pos) => NonNarrowChar::ZeroWidth(pos - rhs), . NonNarrowChar::Wide(pos) => NonNarrowChar::Wide(pos - rhs), . NonNarrowChar::Tab(pos) => NonNarrowChar::Tab(pos - rhs), . } 468 ( 0.00%) } . } . . /// Identifies an offset of a character that was normalized away from `SourceFile`. . #[derive(Copy, Clone, Encodable, Decodable, Eq, PartialEq, Debug)] . pub struct NormalizedPos { . /// The absolute offset of the character in the `SourceMap`. . pub pos: BytePos, . /// The difference between original and normalized string at position. . pub diff: u32, . } . 159 ( 0.00%) #[derive(PartialEq, Eq, Clone, Debug)] . pub enum ExternalSource { . /// No external source has to be loaded, since the `SourceFile` represents a local crate. . Unneeded, . Foreign { . kind: ExternalSourceKind, . /// This SourceFile's byte-offset within the source_map of its original crate. . original_start_pos: BytePos, . /// The end of this SourceFile within the source_map of its original crate. -- line 1246 ---------------------------------------- -- line 1257 ---------------------------------------- . AbsentOk, . /// A failed attempt has been made to load the external source. . AbsentErr, . Unneeded, . } . . impl ExternalSource { . pub fn get_source(&self) -> Option<&Lrc> { 37,155 ( 0.00%) match self { . ExternalSource::Foreign { kind: ExternalSourceKind::Present(ref src), .. } => Some(src), . _ => None, . } . } . } . . #[derive(Debug)] . pub struct OffsetOverflowError; . 1,194 ( 0.00%) #[derive(Copy, Clone, Debug, PartialEq, Eq, PartialOrd, Ord, Hash, Encodable, Decodable)] . pub enum SourceFileHashAlgorithm { . Md5, . Sha1, . Sha256, . } . . impl FromStr for SourceFileHashAlgorithm { . type Err = (); -- line 1283 ---------------------------------------- -- line 1290 ---------------------------------------- . _ => Err(()), . } . } . } . . rustc_data_structures::impl_stable_hash_via_hash!(SourceFileHashAlgorithm); . . /// The hash of the on-disk source file used for debug info. 318 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Debug)] 2,388 ( 0.00%) #[derive(HashStable_Generic, Encodable, Decodable)] . pub struct SourceFileHash { . pub kind: SourceFileHashAlgorithm, . value: [u8; 32], . } . . impl SourceFileHash { . pub fn new(kind: SourceFileHashAlgorithm, src: &str) -> SourceFileHash { 2 ( 0.00%) let mut hash = SourceFileHash { kind, value: Default::default() }; . let len = hash.hash_len(); . let value = &mut hash.value[..len]; . let data = src.as_bytes(); . match kind { . SourceFileHashAlgorithm::Md5 => { 165 ( 0.00%) value.copy_from_slice(&Md5::digest(data)); . } . SourceFileHashAlgorithm::Sha1 => { . value.copy_from_slice(&Sha1::digest(data)); . } . SourceFileHashAlgorithm::Sha256 => { . value.copy_from_slice(&Sha256::digest(data)); . } . } . hash . } . . /// Check if the stored hash matches the hash of the string. . pub fn matches(&self, src: &str) -> bool { 2 ( 0.00%) Self::new(self.kind, src) == *self . } . . /// The bytes of the hash. . pub fn hash_bytes(&self) -> &[u8] { . let len = self.hash_len(); . &self.value[..len] . } . . fn hash_len(&self) -> usize { 163 ( 0.00%) match self.kind { . SourceFileHashAlgorithm::Md5 => 16, . SourceFileHashAlgorithm::Sha1 => 20, . SourceFileHashAlgorithm::Sha256 => 32, . } . } . } . . /// A single source in the [`SourceMap`]. 3,074 ( 0.00%) #[derive(Clone)] . pub struct SourceFile { . /// The name of the file that the source came from. Source that doesn't . /// originate from files has names between angle brackets by convention . /// (e.g., ``). . pub name: FileName, . /// The complete source code. 53 ( 0.00%) pub src: Option>, . /// The source code's hash. . pub src_hash: SourceFileHash, . /// The external source code (used for external crates, which will have a `None` . /// value as `self.src`. . pub external_src: Lock, . /// The start position of this source in the `SourceMap`. . pub start_pos: BytePos, . /// The end position of this source in the `SourceMap`. -- line 1361 ---------------------------------------- -- line 1364 ---------------------------------------- . pub lines: Vec, . /// Locations of multi-byte characters in the source code. . pub multibyte_chars: Vec, . /// Width of characters that are not narrow in the source code. . pub non_narrow_chars: Vec, . /// Locations of characters removed during normalization. . pub normalized_pos: Vec, . /// A hash of the filename, used for speeding up hashing in incremental compilation. 53 ( 0.00%) pub name_hash: u128, . /// Indicates which crate this `SourceFile` was imported from. 53 ( 0.00%) pub cnum: CrateNum, . } . . impl Encodable for SourceFile { . fn encode(&self, s: &mut S) -> Result<(), S::Error> { . s.emit_struct(false, |s| { . s.emit_struct_field("name", true, |s| self.name.encode(s))?; . s.emit_struct_field("src_hash", false, |s| self.src_hash.encode(s))?; . s.emit_struct_field("start_pos", false, |s| self.start_pos.encode(s))?; . s.emit_struct_field("end_pos", false, |s| self.end_pos.encode(s))?; . s.emit_struct_field("lines", false, |s| { . let lines = &self.lines[..]; . // Store the length. . s.emit_u32(lines.len() as u32)?; . 212 ( 0.00%) if !lines.is_empty() { . // In order to preserve some space, we exploit the fact that . // the lines list is sorted and individual lines are . // probably not that long. Because of that we can store lines . // as a difference list, using as little space as possible . // for the differences. . let max_line_length = if lines.len() == 1 { . 0 . } else { -- line 1397 ---------------------------------------- -- line 1399 ---------------------------------------- . .array_windows() . .map(|&[fst, snd]| snd - fst) . .map(|bp| bp.to_usize()) . .max() . .unwrap() . }; . . let bytes_per_diff: u8 = match max_line_length { 106 ( 0.00%) 0..=0xFF => 1, . 0x100..=0xFFFF => 2, . _ => 4, . }; . . // Encode the number of bytes used per diff. . bytes_per_diff.encode(s)?; . . // Encode the first element. . lines[0].encode(s)?; . . let diff_iter = lines.array_windows().map(|&[fst, snd]| snd - fst); . 106 ( 0.00%) match bytes_per_diff { . 1 => { . for diff in diff_iter { . (diff.0 as u8).encode(s)? . } . } . 2 => { . for diff in diff_iter { . (diff.0 as u16).encode(s)? -- line 1428 ---------------------------------------- -- line 1436 ---------------------------------------- . _ => unreachable!(), . } . } . . Ok(()) . })?; . s.emit_struct_field("multibyte_chars", false, |s| self.multibyte_chars.encode(s))?; . s.emit_struct_field("non_narrow_chars", false, |s| self.non_narrow_chars.encode(s))?; 159 ( 0.00%) s.emit_struct_field("name_hash", false, |s| self.name_hash.encode(s))?; . s.emit_struct_field("normalized_pos", false, |s| self.normalized_pos.encode(s))?; 583 ( 0.00%) s.emit_struct_field("cnum", false, |s| self.cnum.encode(s)) . }) . } . } . . impl Decodable for SourceFile { 5,373 ( 0.00%) fn decode(d: &mut D) -> SourceFile { . d.read_struct(|d| { . let name: FileName = d.read_struct_field("name", |d| Decodable::decode(d)); . let src_hash: SourceFileHash = . d.read_struct_field("src_hash", |d| Decodable::decode(d)); . let start_pos: BytePos = d.read_struct_field("start_pos", |d| Decodable::decode(d)); . let end_pos: BytePos = d.read_struct_field("end_pos", |d| Decodable::decode(d)); . let lines: Vec = d.read_struct_field("lines", |d| { . let num_lines: u32 = Decodable::decode(d); 597 ( 0.00%) let mut lines = Vec::with_capacity(num_lines as usize); . . if num_lines > 0 { . // Read the number of bytes used per diff. . let bytes_per_diff: u8 = Decodable::decode(d); . . // Read the first element. . let mut line_start: BytePos = Decodable::decode(d); . lines.push(line_start); . . for _ in 1..num_lines { 931,556 ( 0.00%) let diff = match bytes_per_diff { . 1 => d.read_u8() as u32, . 2 => d.read_u16() as u32, . 4 => d.read_u32(), . _ => unreachable!(), . }; . . line_start = line_start + BytePos(diff); . -- line 1480 ---------------------------------------- -- line 1483 ---------------------------------------- . } . . lines . }); . let multibyte_chars: Vec = . d.read_struct_field("multibyte_chars", |d| Decodable::decode(d)); . let non_narrow_chars: Vec = . d.read_struct_field("non_narrow_chars", |d| Decodable::decode(d)); 1,194 ( 0.00%) let name_hash: u128 = d.read_struct_field("name_hash", |d| Decodable::decode(d)); . let normalized_pos: Vec = . d.read_struct_field("normalized_pos", |d| Decodable::decode(d)); . let cnum: CrateNum = d.read_struct_field("cnum", |d| Decodable::decode(d)); 6,567 ( 0.00%) SourceFile { 4,776 ( 0.00%) name, . start_pos, . end_pos, . src: None, 2,388 ( 0.00%) src_hash, . // Unused - the metadata decoder will construct . // a new SourceFile, filling in `external_src` properly . external_src: Lock::new(ExternalSource::Unneeded), 2,388 ( 0.00%) lines, 2,388 ( 0.00%) multibyte_chars, 2,388 ( 0.00%) non_narrow_chars, 2,388 ( 0.00%) normalized_pos, . name_hash, . cnum, . } . }) 5,373 ( 0.00%) } . } . . impl fmt::Debug for SourceFile { . fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { . write!(fmt, "SourceFile({:?})", self.name) . } . } . . impl SourceFile { 583 ( 0.00%) pub fn new( . name: FileName, . mut src: String, . start_pos: BytePos, . hash_kind: SourceFileHashAlgorithm, . ) -> Self { . // Compute the file hash before any normalization. . let src_hash = SourceFileHash::new(hash_kind, &src); 159 ( 0.00%) let normalized_pos = normalize_src(&mut src, start_pos); . . let name_hash = { . let mut hasher: StableHasher = StableHasher::new(); 106 ( 0.00%) name.hash(&mut hasher); . hasher.finish::() . }; 106 ( 0.00%) let end_pos = start_pos.to_usize() + src.len(); 159 ( 0.00%) assert!(end_pos <= u32::MAX as usize); . 636 ( 0.00%) let (lines, multibyte_chars, non_narrow_chars) = 106 ( 0.00%) analyze_source_file::analyze_source_file(&src, start_pos); . 901 ( 0.00%) SourceFile { . name, . src: Some(Lrc::new(src)), 583 ( 0.00%) src_hash, . external_src: Lock::new(ExternalSource::Unneeded), . start_pos, . end_pos: Pos::from_usize(end_pos), 212 ( 0.00%) lines, 212 ( 0.00%) multibyte_chars, 212 ( 0.00%) non_narrow_chars, 212 ( 0.00%) normalized_pos, . name_hash, . cnum: LOCAL_CRATE, . } 477 ( 0.00%) } . . /// Returns the `BytePos` of the beginning of the current line. . pub fn line_begin_pos(&self, pos: BytePos) -> BytePos { . let line_index = self.lookup_line(pos).unwrap(); . self.lines[line_index] . } . . /// Add externally loaded source. . /// If the hash of the input doesn't match or no input is supplied via None, . /// it is interpreted as an error and the corresponding enum variant is set. . /// The return value signifies whether some kind of source is present. 43,050 ( 0.00%) pub fn add_external_src(&self, get_src: F) -> bool . where . F: FnOnce() -> Option, . { 12,238 ( 0.00%) if matches!( 12,300 ( 0.00%) *self.external_src.borrow(), . ExternalSource::Foreign { kind: ExternalSourceKind::AbsentOk, .. } . ) { 2 ( 0.00%) let src = get_src(); . let mut external_src = self.external_src.borrow_mut(); . // Check that no-one else have provided the source while we were getting it 6 ( 0.00%) if let ExternalSource::Foreign { . kind: src_kind @ ExternalSourceKind::AbsentOk, .. . } = &mut *external_src . { 10 ( 0.00%) if let Some(mut src) = src { . // The src_hash needs to be computed on the pre-normalized src. 2 ( 0.00%) if self.src_hash.matches(&src) { 6 ( 0.00%) normalize_src(&mut src, BytePos::from_usize(0)); 16 ( 0.00%) *src_kind = ExternalSourceKind::Present(Lrc::new(src)); . return true; . } . } else { . *src_kind = ExternalSourceKind::AbsentErr; . } . . false . } else { . self.src.is_some() || external_src.get_source().is_some() . } . } else { 6,148 ( 0.00%) self.src.is_some() || self.external_src.borrow().get_source().is_some() . } 55,350 ( 0.00%) } . . /// Gets a line from the list of pre-computed line-beginnings. . /// The line number here is 0-based. . pub fn get_line(&self, line_number: usize) -> Option> { . fn get_until_newline(src: &str, begin: usize) -> &str { . // We can't use `lines.get(line_number+1)` because we might . // be parsing when we call this function and thus the current . // line is the last one we have line info for. -- line 1610 ---------------------------------------- -- line 1627 ---------------------------------------- . Some(Cow::Owned(String::from(get_until_newline(src, begin)))) . } else { . None . } . } . . pub fn is_real_file(&self) -> bool { . self.name.is_real() 634 ( 0.00%) } . . pub fn is_imported(&self) -> bool { . self.src.is_none() 269,792 ( 0.00%) } . . pub fn count_lines(&self) -> usize { . self.lines.len() . } . . /// Finds the line containing the given position. The return value is the . /// index into the `lines` array of this `SourceFile`, not the 1-based line . /// number. If the source_file is empty or the position is located before the . /// first line, `None` is returned. . pub fn lookup_line(&self, pos: BytePos) -> Option { 112,805 ( 0.00%) match self.lines.binary_search(&pos) { . Ok(idx) => Some(idx), . Err(0) => None, . Err(idx) => Some(idx - 1), . } . } . . pub fn line_bounds(&self, line_index: usize) -> Range { 310,530 ( 0.00%) if self.is_empty() { . return self.start_pos..self.end_pos; . } . 211,527 ( 0.00%) assert!(line_index < self.lines.len()); 297,531 ( 0.00%) if line_index == (self.lines.len() - 1) { 1,828 ( 0.00%) self.lines[line_index]..self.end_pos . } else { 197,106 ( 0.00%) self.lines[line_index]..self.lines[line_index + 1] . } . } . . /// Returns whether or not the file contains the given `SourceMap` byte . /// position. The position one past the end of the file is considered to be . /// contained by the file. This implies that files for which `is_empty` . /// returns true still contain one byte position according to this function. . #[inline] -- line 1674 ---------------------------------------- -- line 1692 ---------------------------------------- . Err(i) if i == 0 => 0, . Err(i) => self.normalized_pos[i - 1].diff, . }; . . BytePos::from_u32(pos.0 - self.start_pos.0 + diff) . } . . /// Converts an absolute `BytePos` to a `CharPos` relative to the `SourceFile`. 3,240 ( 0.00%) pub fn bytepos_to_file_charpos(&self, bpos: BytePos) -> CharPos { . // The number of extra bytes due to multibyte chars in the `SourceFile`. . let mut total_extra_bytes = 0; . 9,720 ( 0.00%) for mbc in self.multibyte_chars.iter() { . debug!("{}-byte char at {:?}", mbc.bytes, mbc.pos); 1,192 ( 0.00%) if mbc.pos < bpos { . // Every character is at least one byte, so we only . // count the actual extra bytes. 2,424 ( 0.00%) total_extra_bytes += mbc.bytes as u32 - 1; . // We should never see a byte position in the middle of a . // character. 2,020 ( 0.00%) assert!(bpos.to_u32() >= mbc.pos.to_u32() + mbc.bytes as u32); . } else { . break; . } . } . 19,440 ( 0.00%) assert!(self.start_pos.to_u32() + total_extra_bytes <= bpos.to_u32()); 16,200 ( 0.00%) CharPos(bpos.to_usize() - self.start_pos.to_usize() - total_extra_bytes as usize) 6,480 ( 0.00%) } . . /// Looks up the file's (1-based) line number and (0-based `CharPos`) column offset, for a . /// given `BytePos`. 11,340 ( 0.00%) pub fn lookup_file_pos(&self, pos: BytePos) -> (usize, CharPos) { 3,240 ( 0.00%) let chpos = self.bytepos_to_file_charpos(pos); 473 ( 0.00%) match self.lookup_line(pos) { . Some(a) => { . let line = a + 1; // Line numbers start at 1 1,620 ( 0.00%) let linebpos = self.lines[a]; 3,240 ( 0.00%) let linechpos = self.bytepos_to_file_charpos(linebpos); . let col = chpos - linechpos; . debug!("byte pos {:?} is on the line at byte pos {:?}", pos, linebpos); . debug!("char pos {:?} is on the line at char pos {:?}", chpos, linechpos); . debug!("byte is on line: {}", line); 1,620 ( 0.00%) assert!(chpos >= linechpos); . (line, col) . } . None => (0, chpos), . } 12,960 ( 0.00%) } . . /// Looks up the file's (1-based) line number, (0-based `CharPos`) column offset, and (0-based) . /// column offset when displayed, for a given `BytePos`. 12,960 ( 0.00%) pub fn lookup_file_pos_with_col_display(&self, pos: BytePos) -> (usize, CharPos, usize) { 4,860 ( 0.00%) let (line, col_or_chpos) = self.lookup_file_pos(pos); 3,240 ( 0.00%) if line > 0 { . let col = col_or_chpos; 1,620 ( 0.00%) let linebpos = self.lines[line - 1]; . let col_display = { . let start_width_idx = self . .non_narrow_chars . .binary_search_by_key(&linebpos, |x| x.pos()) . .unwrap_or_else(|x| x); . let end_width_idx = self . .non_narrow_chars . .binary_search_by_key(&pos, |x| x.pos()) . .unwrap_or_else(|x| x); 6 ( 0.00%) let special_chars = end_width_idx - start_width_idx; . let non_narrow: usize = self.non_narrow_chars[start_width_idx..end_width_idx] . .iter() . .map(|x| x.width()) . .sum(); 8,100 ( 0.00%) col.0 - special_chars + non_narrow . }; . (line, col, col_display) . } else { . let chpos = col_or_chpos; . let col_display = { . let end_width_idx = self . .non_narrow_chars . .binary_search_by_key(&pos, |x| x.pos()) . .unwrap_or_else(|x| x); . let non_narrow: usize = . self.non_narrow_chars[0..end_width_idx].iter().map(|x| x.width()).sum(); . chpos.0 - end_width_idx + non_narrow . }; . (0, chpos, col_display) . } 11,340 ( 0.00%) } . } . . /// Normalizes the source code and records the normalizations. 550 ( 0.00%) fn normalize_src(src: &mut String, start_pos: BytePos) -> Vec { . let mut normalized_pos = vec![]; . remove_bom(src, &mut normalized_pos); . normalize_newlines(src, &mut normalized_pos); . . // Offset all the positions by start_pos to match the final file positions. . for np in &mut normalized_pos { . np.pos.0 += start_pos.0; . } . . normalized_pos 495 ( 0.00%) } . . /// Removes UTF-8 BOM, if any. . fn remove_bom(src: &mut String, normalized_pos: &mut Vec) { 55 ( 0.00%) if src.starts_with('\u{feff}') { . src.drain(..3); . normalized_pos.push(NormalizedPos { pos: BytePos(0), diff: 3 }); . } . } . . /// Replaces `\r\n` with `\n` in-place in `src`. . /// . /// Returns error if there's a lone `\r` in the string. . fn normalize_newlines(src: &mut String, normalized_pos: &mut Vec) { 55 ( 0.00%) if !src.as_bytes().contains(&b'\r') { . return; . } . . // We replace `\r\n` with `\n` in-place, which doesn't break utf-8 encoding. . // While we *can* call `as_mut_vec` and do surgery on the live string . // directly, let's rather steal the contents of `src`. This makes the code . // safe even if a panic occurs. . -- line 1816 ---------------------------------------- -- line 1877 ---------------------------------------- . ( . $( . $(#[$attr:meta])* . $vis:vis struct $ident:ident($inner_vis:vis $inner_ty:ty); . )* . ) => { . $( . $(#[$attr])* 407,378 ( 0.00%) $vis struct $ident($inner_vis $inner_ty); . . impl Pos for $ident { . #[inline(always)] . fn from_usize(n: usize) -> $ident { 19,397 ( 0.00%) $ident(n as $inner_ty) . } . . #[inline(always)] . fn to_usize(&self) -> usize { 407,030 ( 0.00%) self.0 as usize . } . . #[inline(always)] . fn from_u32(n: u32) -> $ident { . $ident(n as $inner_ty) . } . . #[inline(always)] -- line 1903 ---------------------------------------- -- line 1906 ---------------------------------------- . } . } . . impl Add for $ident { . type Output = $ident; . . #[inline(always)] . fn add(self, rhs: $ident) -> $ident { 3,361,658 ( 0.01%) $ident(self.0 + rhs.0) . } . } . . impl Sub for $ident { . type Output = $ident; . . #[inline(always)] . fn sub(self, rhs: $ident) -> $ident { 7,578,838 ( 0.02%) $ident(self.0 - rhs.0) . } . } . )* . }; . } . . impl_pos! { . /// A byte offset. -- line 1931 ---------------------------------------- -- line 1946 ---------------------------------------- . impl Encodable for BytePos { . fn encode(&self, s: &mut S) -> Result<(), S::Error> { . s.emit_u32(self.0) . } . } . . impl Decodable for BytePos { . fn decode(d: &mut D) -> BytePos { 723,866 ( 0.00%) BytePos(d.read_u32()) . } . } . . // _____________________________________________________________________________ . // Loc, SourceFileAndLine, SourceFileAndBytePos . // . . /// A source code location used for error reporting. -- line 1962 ---------------------------------------- -- line 2042 ---------------------------------------- . /// Range inside of a `Span` used for diagnostics when we only have access to relative positions. . #[derive(Copy, Clone, PartialEq, Eq, Debug)] . pub struct InnerSpan { . pub start: usize, . pub end: usize, . } . . impl InnerSpan { 240 ( 0.00%) pub fn new(start: usize, end: usize) -> InnerSpan { . InnerSpan { start, end } 120 ( 0.00%) } . } . . /// Requirements for a `StableHashingContext` to be used in this crate. . /// . /// This is a hack to allow using the [`HashStable_Generic`] derive macro . /// instead of implementing everything in rustc_middle. . pub trait HashStableContext { . fn def_path_hash(&self, def_id: DefId) -> DefPathHash; -- line 2060 ---------------------------------------- -- line 2079 ---------------------------------------- . /// offsets into the `SourceMap`). Instead, we hash the (file name, line, column) . /// triple, which stays the same even if the containing `SourceFile` has moved . /// within the `SourceMap`. . /// . /// Also note that we are hashing byte offsets for the column, not unicode . /// codepoint offsets. For the purpose of the hash that's sufficient. . /// Also, hashing filenames is expensive so we avoid doing it twice when the . /// span starts and ends in the same file, which is almost always the case. 4,352,138 ( 0.01%) fn hash_stable(&self, ctx: &mut CTX, hasher: &mut StableHasher) { . const TAG_VALID_SPAN: u8 = 0; . const TAG_INVALID_SPAN: u8 = 1; . const TAG_RELATIVE_SPAN: u8 = 2; . 819,346 ( 0.00%) if !ctx.hash_spans() { . return; . } . 3,532,792 ( 0.01%) let span = self.data_untracked(); 1,272,398 ( 0.00%) span.ctxt.hash_stable(ctx, hasher); 1,865,202 ( 0.01%) span.parent.hash_stable(ctx, hasher); . 1,269,503 ( 0.00%) if span.is_dummy() { . Hash::hash(&TAG_INVALID_SPAN, hasher); . return; . } . 1,191,398 ( 0.00%) if let Some(parent) = span.parent { . let def_span = ctx.def_span(parent).data_untracked(); . if def_span.contains(span) { . // This span is enclosed in a definition: only hash the relative position. . Hash::hash(&TAG_RELATIVE_SPAN, hasher); . (span.lo - def_span.lo).to_u32().hash_stable(ctx, hasher); . (span.hi - def_span.lo).to_u32().hash_stable(ctx, hasher); . return; . } . } . . // If this is not an empty or invalid span, we want to hash the last . // position that belongs to it, as opposed to hashing the first . // position past it. 2,382,392 ( 0.01%) let (file, line_lo, col_lo, line_hi, col_hi) = match ctx.span_data_to_lines_and_cols(&span) . { 1,190,590 ( 0.00%) Some(pos) => pos, . None => { . Hash::hash(&TAG_INVALID_SPAN, hasher); . return; . } . }; . . Hash::hash(&TAG_VALID_SPAN, hasher); . // We truncate the stable ID hash and line and column numbers. The chances -- line 2129 ---------------------------------------- -- line 2134 ---------------------------------------- . // hash only the length, for example, then two otherwise equal spans with . // different end locations will have the same hash. This can cause a problem . // during incremental compilation wherein a previous result for a query that . // depends on the end location of a span will be incorrectly reused when the . // end location of the span it depends on has changed (see issue #74890). A . // similar analysis applies if some query depends specifically on the length . // of the span, but we only hash the end location. So hash both. . 595,295 ( 0.00%) let col_lo_trunc = (col_lo.0 as u64) & 0xFF; . let line_lo_trunc = ((line_lo as u64) & 0xFF_FF_FF) << 8; . let col_hi_trunc = (col_hi.0 as u64) & 0xFF << 32; . let line_hi_trunc = ((line_hi as u64) & 0xFF_FF_FF) << 40; . let col_line = col_lo_trunc | line_lo_trunc | col_hi_trunc | line_hi_trunc; 595,295 ( 0.00%) let len = (span.hi - span.lo).0; . Hash::hash(&col_line, hasher); . Hash::hash(&len, hasher); 4,973,872 ( 0.02%) } . } 10,997,075 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs -------------------------------------------------------------------------------- Ir -- line 21 ---------------------------------------- . use rustc_target::spec::abi; . use std::borrow::Cow; . use std::cmp::Ordering; . use std::marker::PhantomData; . use std::ops::Range; . use ty::util::IntTypeExt; . . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 91 ( 0.00%) #[derive(HashStable, TypeFoldable, Lift)] . pub struct TypeAndMut<'tcx> { 28,826 ( 0.00%) pub ty: Ty<'tcx>, 144,090 ( 0.00%) pub mutbl: hir::Mutability, . } . . #[derive(Clone, PartialEq, PartialOrd, Eq, Ord, Hash, TyEncodable, TyDecodable, Copy)] . #[derive(HashStable)] . /// A "free" region `fr` can be interpreted as "some region . /// at least as big as the scope `fr.scope`". . pub struct FreeRegion { 291,803 ( 0.00%) pub scope: DefId, 435,666 ( 0.00%) pub bound_region: BoundRegionKind, . } . 1,858,935 ( 0.01%) #[derive(Clone, PartialEq, PartialOrd, Eq, Ord, Hash, TyEncodable, TyDecodable, Copy)] 107 ( 0.00%) #[derive(HashStable)] . pub enum BoundRegionKind { . /// An anonymous region parameter for a given fn (&T) 61,558 ( 0.00%) BrAnon(u32), . . /// Named region parameters for functions (a in &'a T) . /// . /// The `DefId` is needed to distinguish free regions in . /// the event of shadowing. 730 ( 0.00%) BrNamed(DefId, Symbol), . . /// Anonymous region for the implicit env pointer parameter . /// to a closure . BrEnv, . } . 3,671 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Hash, TyEncodable, TyDecodable, Debug, PartialOrd, Ord)] . #[derive(HashStable)] . pub struct BoundRegion { 314,787 ( 0.00%) pub var: BoundVar, 254,411 ( 0.00%) pub kind: BoundRegionKind, . } . . impl BoundRegionKind { . pub fn is_named(&self) -> bool { . match *self { . BoundRegionKind::BrNamed(_, name) => name != kw::UnderscoreLifetime, . _ => false, . } . } . } . . /// Defines the kinds of types. . /// . /// N.B., if you change this, you'll probably want to change the corresponding . /// AST structure in `rustc_ast/src/ast.rs` as well. 39,182,301 ( 0.12%) #[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable, Debug)] 231,259 ( 0.00%) #[derive(HashStable)] . #[rustc_diagnostic_item = "TyKind"] . pub enum TyKind<'tcx> { . /// The primitive boolean type. Written as `bool`. . Bool, . . /// The primitive character type; holds a Unicode scalar value . /// (a non-surrogate code point). Written as `char`. . Char, -- line 90 ---------------------------------------- -- line 99 ---------------------------------------- . Float(ty::FloatTy), . . /// Algebraic data types (ADT). For example: structures, enumerations and unions. . /// . /// InternalSubsts here, possibly against intuition, *may* contain `Param`s. . /// That is, even after substitution it is possible that there are type . /// variables. This happens when the `Adt` corresponds to an ADT . /// definition and not a concrete use of it. 4,563,668 ( 0.01%) Adt(&'tcx AdtDef, SubstsRef<'tcx>), . . /// An unsized FFI type that is opaque to Rust. Written as `extern type T`. . Foreign(DefId), . . /// The pointee of a string slice. Written as `str`. . Str, . . /// An array with the given length. Written as `[T; n]`. 23,960 ( 0.00%) Array(Ty<'tcx>, &'tcx ty::Const<'tcx>), . . /// The pointee of an array slice. Written as `[T]`. . Slice(Ty<'tcx>), . . /// A raw pointer. Written as `*mut T` or `*const T` . RawPtr(TypeAndMut<'tcx>), . . /// A reference; a pointer with an associated lifetime. Written as . /// `&'a mut T` or `&'a T`. 4,728,421 ( 0.01%) Ref(Region<'tcx>, Ty<'tcx>, hir::Mutability), . . /// The anonymous type of a function declaration/definition. Each . /// function has a unique type, which is output (for a function . /// named `foo` returning an `i32`) as `fn() -> i32 {foo}`. . /// . /// For example the type of `bar` here: . /// . /// ```rust -- line 134 ---------------------------------------- -- line 143 ---------------------------------------- . /// . /// ```rust . /// fn foo() -> i32 { 1 } . /// let bar: fn() -> i32 = foo; . /// ``` . FnPtr(PolyFnSig<'tcx>), . . /// A trait object. Written as `dyn for<'b> Trait<'b, Assoc = u32> + Send + 'a`. 49,420 ( 0.00%) Dynamic(&'tcx List>>, ty::Region<'tcx>), . . /// The anonymous type of a closure. Used to represent the type of . /// `|a| a`. . Closure(DefId, SubstsRef<'tcx>), . . /// The anonymous type of a generator. Used to represent the type of . /// `|a| yield a`. . Generator(DefId, SubstsRef<'tcx>, hir::Movability), -- line 159 ---------------------------------------- -- line 180 ---------------------------------------- . /// The substitutions are for the generics of the function in question. . /// After typeck, the concrete type can be found in the `types` map. . Opaque(DefId, SubstsRef<'tcx>), . . /// A type parameter; for example, `T` in `fn f(x: T) {}`. . Param(ParamTy), . . /// Bound type variable, used only when preparing a trait query. 19,469 ( 0.00%) Bound(ty::DebruijnIndex, BoundTy), . . /// A placeholder type - universally quantified higher-ranked type. . Placeholder(ty::PlaceholderType), . . /// A type variable used during type checking. . Infer(InferTy), . . /// A placeholder for a type which could not be computed; this is -- line 196 ---------------------------------------- -- line 330 ---------------------------------------- . pub closure_kind_ty: T, . pub closure_sig_as_fn_ptr_ty: T, . pub tupled_upvars_ty: T, . } . . impl<'tcx> ClosureSubsts<'tcx> { . /// Construct `ClosureSubsts` from `ClosureSubstsParts`, containing `Substs` . /// for the closure parent, alongside additional closure-specific components. 152 ( 0.00%) pub fn new( . tcx: TyCtxt<'tcx>, . parts: ClosureSubstsParts<'tcx, Ty<'tcx>>, . ) -> ClosureSubsts<'tcx> { . ClosureSubsts { . substs: tcx.mk_substs( 304 ( 0.00%) parts.parent_substs.iter().copied().chain( 608 ( 0.00%) [parts.closure_kind_ty, parts.closure_sig_as_fn_ptr_ty, parts.tupled_upvars_ty] . .iter() . .map(|&ty| ty.into()), . ), . ), . } 304 ( 0.00%) } . . /// Divides the closure substs into their respective components. . /// The ordering assumed here must match that used by `ClosureSubsts::new` above. 3,287 ( 0.00%) fn split(self) -> ClosureSubstsParts<'tcx, GenericArg<'tcx>> { . match self.substs[..] { 24,326 ( 0.00%) [ 6,671 ( 0.00%) ref parent_substs @ .., 7,044 ( 0.00%) closure_kind_ty, 3,220 ( 0.00%) closure_sig_as_fn_ptr_ty, 5,187 ( 0.00%) tupled_upvars_ty, 13,148 ( 0.00%) ] => ClosureSubstsParts { . parent_substs, . closure_kind_ty, . closure_sig_as_fn_ptr_ty, . tupled_upvars_ty, . }, . _ => bug!("closure substs missing synthetics"), . } 9,861 ( 0.00%) } . . /// Returns `true` only if enough of the synthetic types are known to . /// allow using all of the methods on `ClosureSubsts` without panicking. . /// . /// Used primarily by `ty::print::pretty` to be able to handle closure . /// types that haven't had their synthetic types substituted in. 1 ( 0.00%) pub fn is_valid(self) -> bool { 2 ( 0.00%) self.substs.len() >= 3 2 ( 0.00%) && matches!(self.split().tupled_upvars_ty.expect_ty().kind(), Tuple(_)) 2 ( 0.00%) } . . /// Returns the substitutions of the closure's parent. . pub fn parent_substs(self) -> &'tcx [GenericArg<'tcx>] { . self.split().parent_substs . } . . /// Returns an iterator over the list of types of captured paths by the closure. . /// In case there was a type error in figuring out the types of the captured path, an . /// empty iterator is returned. . #[inline] 846 ( 0.00%) pub fn upvar_tys(self) -> impl Iterator> + 'tcx { 2,079 ( 0.00%) match self.tupled_upvars_ty().kind() { . TyKind::Error(_) => None, 947 ( 0.00%) TyKind::Tuple(..) => Some(self.tupled_upvars_ty().tuple_fields()), . TyKind::Infer(_) => bug!("upvar_tys called before capture types are inferred"), . ty => bug!("Unexpected representation of upvar types tuple {:?}", ty), . } . .into_iter() . .flatten() 564 ( 0.00%) } . . /// Returns the tuple type representing the upvars for this closure. . #[inline] . pub fn tupled_upvars_ty(self) -> Ty<'tcx> { 15,139 ( 0.00%) self.split().tupled_upvars_ty.expect_ty() . } . . /// Returns the closure kind for this closure; may return a type . /// variable during inference. To get the closure kind during . /// inference, use `infcx.closure_kind(substs)`. 1,532 ( 0.00%) pub fn kind_ty(self) -> Ty<'tcx> { . self.split().closure_kind_ty.expect_ty() 3,064 ( 0.00%) } . . /// Returns the `fn` pointer type representing the closure signature for this . /// closure. . // FIXME(eddyb) this should be unnecessary, as the shallowly resolved . // type is known at the time of the creation of `ClosureSubsts`, . // see `rustc_typeck::check::closure`. . pub fn sig_as_fn_ptr_ty(self) -> Ty<'tcx> { . self.split().closure_sig_as_fn_ptr_ty.expect_ty() . } . . /// Returns the closure kind for this closure; only usable outside . /// of an inference context, because in that context we know that . /// there are no type variables. . /// . /// If you have an inference context, use `infcx.closure_kind()`. 71 ( 0.00%) pub fn kind(self) -> ty::ClosureKind { 150 ( 0.00%) self.kind_ty().to_opt_closure_kind().unwrap() 142 ( 0.00%) } . . /// Extracts the signature from the closure. 1,528 ( 0.00%) pub fn sig(self) -> ty::PolyFnSig<'tcx> { . let ty = self.sig_as_fn_ptr_ty(); 3,056 ( 0.00%) match ty.kind() { 6,112 ( 0.00%) ty::FnPtr(sig) => *sig, . _ => bug!("closure_sig_as_fn_ptr_ty is not a fn-ptr: {:?}", ty.kind()), . } 4,584 ( 0.00%) } . } . . /// Similar to `ClosureSubsts`; see the above documentation for more. . #[derive(Copy, Clone, Debug, TypeFoldable)] . pub struct GeneratorSubsts<'tcx> { . pub substs: SubstsRef<'tcx>, . } . -- line 448 ---------------------------------------- -- line 676 ---------------------------------------- . } . . impl<'tcx> UpvarSubsts<'tcx> { . /// Returns an iterator over the list of types of captured paths by the closure/generator. . /// In case there was a type error in figuring out the types of the captured path, an . /// empty iterator is returned. . #[inline] . pub fn upvar_tys(self) -> impl Iterator> + 'tcx { 446 ( 0.00%) let tupled_tys = match self { 598 ( 0.00%) UpvarSubsts::Closure(substs) => substs.as_closure().tupled_upvars_ty(), . UpvarSubsts::Generator(substs) => substs.as_generator().tupled_upvars_ty(), . }; . 973 ( 0.00%) match tupled_tys.kind() { . TyKind::Error(_) => None, 821 ( 0.00%) TyKind::Tuple(..) => Some(self.tupled_upvars_ty().tuple_fields()), . TyKind::Infer(_) => bug!("upvar_tys called before capture types are inferred"), . ty => bug!("Unexpected representation of upvar types tuple {:?}", ty), . } . .into_iter() . .flatten() . } . . #[inline] . pub fn tupled_upvars_ty(self) -> Ty<'tcx> { 750 ( 0.00%) match self { 907 ( 0.00%) UpvarSubsts::Closure(substs) => substs.as_closure().tupled_upvars_ty(), . UpvarSubsts::Generator(substs) => substs.as_generator().tupled_upvars_ty(), . } . } . } . . /// An inline const is modeled like . /// . /// const InlineConst<'l0...'li, T0...Tj, R>: R; -- line 710 ---------------------------------------- -- line 760 ---------------------------------------- . } . . /// Returns the type of this inline const. . pub fn ty(self) -> Ty<'tcx> { . self.split().ty.expect_ty() . } . } . 41,398 ( 0.00%) #[derive(Debug, Copy, Clone, PartialEq, PartialOrd, Ord, Eq, Hash, TyEncodable, TyDecodable)] 43,125 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub enum ExistentialPredicate<'tcx> { . /// E.g., `Iterator`. . Trait(ExistentialTraitRef<'tcx>), . /// E.g., `Iterator::Item = T`. . Projection(ExistentialProjection<'tcx>), . /// E.g., `Send`. 82 ( 0.00%) AutoTrait(DefId), . } . . impl<'tcx> ExistentialPredicate<'tcx> { . /// Compares via an ordering that will not change if modules are reordered or other changes are . /// made to the tree. In particular, this ordering is preserved across incremental compilations. 1,470 ( 0.00%) pub fn stable_cmp(&self, tcx: TyCtxt<'tcx>, other: &Self) -> Ordering { . use self::ExistentialPredicate::*; 1,952 ( 0.00%) match (*self, *other) { . (Trait(_), Trait(_)) => Ordering::Equal, . (Projection(ref a), Projection(ref b)) => { . tcx.def_path_hash(a.item_def_id).cmp(&tcx.def_path_hash(b.item_def_id)) . } . (AutoTrait(ref a), AutoTrait(ref b)) => { . tcx.def_path_hash(*a).cmp(&tcx.def_path_hash(*b)) . } . (Trait(_), _) => Ordering::Less, . (Projection(_), Trait(_)) => Ordering::Greater, . (Projection(_), _) => Ordering::Less, . (AutoTrait(_), _) => Ordering::Greater, . } 1,764 ( 0.00%) } . } . . impl<'tcx> Binder<'tcx, ExistentialPredicate<'tcx>> { 4,689 ( 0.00%) pub fn with_self_ty(&self, tcx: TyCtxt<'tcx>, self_ty: Ty<'tcx>) -> ty::Predicate<'tcx> { . use crate::ty::ToPredicate; 2,605 ( 0.00%) match self.skip_binder() { . ExistentialPredicate::Trait(tr) => { . self.rebind(tr).with_self_ty(tcx, self_ty).without_const().to_predicate(tcx) . } . ExistentialPredicate::Projection(p) => { . self.rebind(p.with_self_ty(tcx, self_ty)).to_predicate(tcx) . } . ExistentialPredicate::AutoTrait(did) => { . let trait_ref = self.rebind(ty::TraitRef { . def_id: did, . substs: tcx.mk_substs_trait(self_ty, &[]), . }); . trait_ref.without_const().to_predicate(tcx) . } . } 4,168 ( 0.00%) } . } . . impl<'tcx> List>> { . /// Returns the "principal `DefId`" of this set of existential predicates. . /// . /// A Rust trait object type consists (in addition to a lifetime bound) . /// of a set of trait bounds, which are separated into any number . /// of auto-trait bounds, and at most one non-auto-trait bound. The -- line 826 ---------------------------------------- -- line 839 ---------------------------------------- . /// are the set `{Sync}`. . /// . /// It is also possible to have a "trivial" trait object that . /// consists only of auto traits, with no principal - for example, . /// `dyn Send + Sync`. In that case, the set of auto-trait bounds . /// is `{Send, Sync}`, while there is no principal. These trait objects . /// have a "trivial" vtable consisting of just the size, alignment, . /// and destructor. 443 ( 0.00%) pub fn principal(&self) -> Option>> { 3,386 ( 0.00%) self[0] 2,057 ( 0.00%) .map_bound(|this| match this { . ExistentialPredicate::Trait(tr) => Some(tr), . _ => None, 1,772 ( 0.00%) }) . .transpose() 1,329 ( 0.00%) } . 528 ( 0.00%) pub fn principal_def_id(&self) -> Option { . self.principal().map(|trait_ref| trait_ref.skip_binder().def_id) 1,056 ( 0.00%) } . . #[inline] . pub fn projection_bounds<'a>( . &'a self, . ) -> impl Iterator>> + 'a { . self.iter().filter_map(|predicate| { 60 ( 0.00%) predicate 100 ( 0.00%) .map_bound(|pred| match pred { 20 ( 0.00%) ExistentialPredicate::Projection(projection) => Some(projection), . _ => None, . }) . .transpose() . }) . } . . #[inline] . pub fn auto_traits<'a>(&'a self) -> impl Iterator + 'a { 4 ( 0.00%) self.iter().filter_map(|predicate| match predicate.skip_binder() { . ExistentialPredicate::AutoTrait(did) => Some(did), . _ => None, . }) . } . } . . /// A complete reference to a trait. These take numerous guises in syntax, . /// but perhaps the most recognizable form is in a where-clause: -- line 884 ---------------------------------------- -- line 886 ---------------------------------------- . /// T: Foo . /// . /// This would be represented by a trait-reference where the `DefId` is the . /// `DefId` for the trait `Foo` and the substs define `T` as parameter 0, . /// and `U` as parameter 1. . /// . /// Trait references also appear in object types like `Foo`, but in . /// that case the `Self` parameter is absent from the substitutions. 46,543 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 3,464,641 ( 0.01%) #[derive(HashStable, TypeFoldable)] . pub struct TraitRef<'tcx> { 4,739 ( 0.00%) pub def_id: DefId, 2,579,985 ( 0.01%) pub substs: SubstsRef<'tcx>, . } . . impl<'tcx> TraitRef<'tcx> { 14,746 ( 0.00%) pub fn new(def_id: DefId, substs: SubstsRef<'tcx>) -> TraitRef<'tcx> { . TraitRef { def_id, substs } 58,984 ( 0.00%) } . . /// Returns a `TraitRef` of the form `P0: Foo` where `Pi` . /// are the parameters defined on trait. 2,655 ( 0.00%) pub fn identity(tcx: TyCtxt<'tcx>, def_id: DefId) -> Binder<'tcx, TraitRef<'tcx>> { 1,180 ( 0.00%) ty::Binder::dummy(TraitRef { . def_id, 1,770 ( 0.00%) substs: InternalSubsts::identity_for_item(tcx, def_id), . }) 2,360 ( 0.00%) } . . #[inline] 3 ( 0.00%) pub fn self_ty(&self) -> Ty<'tcx> { . self.substs.type_at(0) 2 ( 0.00%) } . 19,616 ( 0.00%) pub fn from_method( . tcx: TyCtxt<'tcx>, . trait_id: DefId, . substs: SubstsRef<'tcx>, . ) -> ty::TraitRef<'tcx> { . let defs = tcx.generics_of(trait_id); . 2,452 ( 0.00%) ty::TraitRef { def_id: trait_id, substs: tcx.intern_substs(&substs[..defs.params.len()]) } 26,972 ( 0.00%) } . } . . pub type PolyTraitRef<'tcx> = Binder<'tcx, TraitRef<'tcx>>; . . impl<'tcx> PolyTraitRef<'tcx> { . pub fn self_ty(&self) -> Binder<'tcx, Ty<'tcx>> { . self.map_bound_ref(|tr| tr.self_ty()) . } . . pub fn def_id(&self) -> DefId { 7,011 ( 0.00%) self.skip_binder().def_id 2,337 ( 0.00%) } . 11,040 ( 0.00%) pub fn to_poly_trait_predicate(&self) -> ty::PolyTraitPredicate<'tcx> { 22,080 ( 0.00%) self.map_bound(|trait_ref| ty::TraitPredicate { . trait_ref, . constness: ty::BoundConstness::NotConst, . polarity: ty::ImplPolarity::Positive, . }) 11,040 ( 0.00%) } . } . . /// An existential reference to a trait, where `Self` is erased. . /// For example, the trait object `Trait<'a, 'b, X, Y>` is: . /// . /// exists T. T: Trait<'a, 'b, X, Y> . /// . /// The substitutions don't include the erased `Self`, only trait . /// type and lifetime parameters (`[X, Y]` and `['a, 'b]` above). 108 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 20,073 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct ExistentialTraitRef<'tcx> { 2,832 ( 0.00%) pub def_id: DefId, 24,310 ( 0.00%) pub substs: SubstsRef<'tcx>, . } . . impl<'tcx> ExistentialTraitRef<'tcx> { 584 ( 0.00%) pub fn erase_self_ty( . tcx: TyCtxt<'tcx>, . trait_ref: ty::TraitRef<'tcx>, . ) -> ty::ExistentialTraitRef<'tcx> { . // Assert there is a Self. . trait_ref.substs.type_at(0); . . ty::ExistentialTraitRef { . def_id: trait_ref.def_id, . substs: tcx.intern_substs(&trait_ref.substs[1..]), . } 584 ( 0.00%) } . . /// Object types don't have a self type specified. Therefore, when . /// we convert the principal trait-ref into a normal trait-ref, . /// you must give *some* self type. A common choice is `mk_err()` . /// or some placeholder type. 44 ( 0.00%) pub fn with_self_ty(&self, tcx: TyCtxt<'tcx>, self_ty: Ty<'tcx>) -> ty::TraitRef<'tcx> { . // otherwise the escaping vars would be captured by the binder . // debug_assert!(!self_ty.has_escaping_bound_vars()); . 22 ( 0.00%) ty::TraitRef { def_id: self.def_id, substs: tcx.mk_substs_trait(self_ty, self.substs) } 110 ( 0.00%) } . } . . pub type PolyExistentialTraitRef<'tcx> = Binder<'tcx, ExistentialTraitRef<'tcx>>; . . impl<'tcx> PolyExistentialTraitRef<'tcx> { . pub fn def_id(&self) -> DefId { . self.skip_binder().def_id . } . . /// Object types don't have a self type specified. Therefore, when . /// we convert the principal trait-ref into a normal trait-ref, . /// you must give *some* self type. A common choice is `mk_err()` . /// or some placeholder type. 657 ( 0.00%) pub fn with_self_ty(&self, tcx: TyCtxt<'tcx>, self_ty: Ty<'tcx>) -> ty::PolyTraitRef<'tcx> { 1,165 ( 0.00%) self.map_bound(|trait_ref| trait_ref.with_self_ty(tcx, self_ty)) 876 ( 0.00%) } . } . 246,607 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 220 ( 0.00%) #[derive(HashStable)] . pub enum BoundVariableKind { . Ty(BoundTyKind), . Region(BoundRegionKind), . Const, . } . . /// Binder is a binder for higher-ranked lifetimes or types. It is part of the . /// compiler's representation for things like `for<'a> Fn(&'a isize)` . /// (which would be represented by the type `PolyTraitRef == . /// Binder<'tcx, TraitRef>`). Note that when we instantiate, . /// erase, or otherwise "discharge" these bound vars, we change the . /// type from `Binder<'tcx, T>` to just `T` (see . /// e.g., `liberate_late_bound_regions`). . /// . /// `Decodable` and `Encodable` are implemented for `Binder` using the `impl_binder_encode_decode!` macro. 76,421 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)] 1,541,882 ( 0.00%) pub struct Binder<'tcx, T>(T, &'tcx List); . . impl<'tcx, T> Binder<'tcx, T> . where . T: TypeFoldable<'tcx>, . { . /// Wraps `value` in a binder, asserting that `value` does not . /// contain any bound vars that would be bound by the . /// binder. This is commonly used to 'inject' a value T into a . /// different binding level. 148,844 ( 0.00%) pub fn dummy(value: T) -> Binder<'tcx, T> { 681,894 ( 0.00%) assert!(!value.has_escaping_bound_vars()); 1,619,641 ( 0.01%) Binder(value, ty::List::empty()) 148,519 ( 0.00%) } . . pub fn bind_with_vars(value: T, vars: &'tcx List) -> Binder<'tcx, T> { . if cfg!(debug_assertions) { . let mut validator = ValidateBoundVars::new(vars); . value.visit_with(&mut validator); . } 60,689 ( 0.00%) Binder(value, vars) . } . } . . impl<'tcx, T> Binder<'tcx, T> { . /// Skips the binder and returns the "bound" value. This is a . /// risky thing to do because it's easy to get confused about . /// De Bruijn indices and the like. It is usually better to . /// discharge the binder using `no_bound_vars` or -- line 1053 ---------------------------------------- -- line 1059 ---------------------------------------- . /// accounting. . /// . /// Some examples where `skip_binder` is reasonable: . /// . /// - extracting the `DefId` from a PolyTraitRef; . /// - comparing the self type of a PolyTraitRef to see if it is equal to . /// a type parameter `X`, since the type `X` does not reference any regions . pub fn skip_binder(self) -> T { 4,804,542 ( 0.01%) self.0 . } . . pub fn bound_vars(&self) -> &'tcx List { 2,234 ( 0.00%) self.1 . } . . pub fn as_ref(&self) -> Binder<'tcx, &T> { 18,964 ( 0.00%) Binder(&self.0, self.1) . } . . pub fn map_bound_ref_unchecked(&self, f: F) -> Binder<'tcx, U> . where . F: FnOnce(&T) -> U, . { . let value = f(&self.0); . Binder(value, self.1) -- line 1083 ---------------------------------------- -- line 1085 ---------------------------------------- . . pub fn map_bound_ref>(&self, f: F) -> Binder<'tcx, U> . where . F: FnOnce(&T) -> U, . { . self.as_ref().map_bound(f) . } . 1,292 ( 0.00%) pub fn map_bound>(self, f: F) -> Binder<'tcx, U> . where . F: FnOnce(T) -> U, . { 124,288 ( 0.00%) let value = f(self.0); . if cfg!(debug_assertions) { . let mut validator = ValidateBoundVars::new(self.1); . value.visit_with(&mut validator); . } 1,220,816 ( 0.00%) Binder(value, self.1) 1,284 ( 0.00%) } . . pub fn try_map_bound, E>(self, f: F) -> Result, E> . where . F: FnOnce(T) -> Result, . { . let value = f(self.0)?; . if cfg!(debug_assertions) { . let mut validator = ValidateBoundVars::new(self.1); . value.visit_with(&mut validator); . } 16,695 ( 0.00%) Ok(Binder(value, self.1)) . } . . /// Wraps a `value` in a binder, using the same bound variables as the . /// current `Binder`. This should not be used if the new value *changes* . /// the bound variables. Note: the (old or new) value itself does not . /// necessarily need to *name* all the bound variables. . /// . /// This currently doesn't do anything different than `bind`, because we -- line 1122 ---------------------------------------- -- line 1126 ---------------------------------------- . pub fn rebind(&self, value: U) -> Binder<'tcx, U> . where . U: TypeFoldable<'tcx>, . { . if cfg!(debug_assertions) { . let mut validator = ValidateBoundVars::new(self.bound_vars()); . value.visit_with(&mut validator); . } 26,454 ( 0.00%) Binder(value, self.1) . } . . /// Unwraps and returns the value within, but only if it contains . /// no bound vars at all. (In other words, if this binder -- . /// and indeed any enclosing binder -- doesn't bind anything at . /// all.) Otherwise, returns `None`. . /// . /// (One could imagine having a method that just unwraps a single -- line 1142 ---------------------------------------- -- line 1143 ---------------------------------------- . /// binder, but permits late-bound vars bound by enclosing . /// binders, but that would require adjusting the debruijn . /// indices, and given the shallow binding structure we often use, . /// would not be that useful.) . pub fn no_bound_vars(self) -> Option . where . T: TypeFoldable<'tcx>, . { 777,597 ( 0.00%) if self.0.has_escaping_bound_vars() { None } else { Some(self.skip_binder()) } 800 ( 0.00%) } . . /// Splits the contents into two things that share the same binder . /// level as the original, returning two distinct binders. . /// . /// `f` should consider bound regions at depth 1 to be free, and . /// anything it produces with bound regions at depth 1 will be . /// bound in the resulting return values. . pub fn split(self, f: F) -> (Binder<'tcx, U>, Binder<'tcx, V>) -- line 1160 ---------------------------------------- -- line 1170 ---------------------------------------- . pub fn transpose(self) -> Option> { . let bound_vars = self.1; . self.0.map(|v| Binder(v, bound_vars)) . } . } . . /// Represents the projection of an associated type. In explicit UFCS . /// form this would be written `>::N`. 1,711 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 247,760 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct ProjectionTy<'tcx> { . /// The parameters of the associated item. 127,599 ( 0.00%) pub substs: SubstsRef<'tcx>, . . /// The `DefId` of the `TraitItem` for the associated type `N`. . /// . /// Note that this is not the `DefId` of the `TraitRef` containing this . /// associated type, which is in `tcx.associated_item(item_def_id).container`. 159,005 ( 0.00%) pub item_def_id: DefId, . } . . impl<'tcx> ProjectionTy<'tcx> { 73,458 ( 0.00%) pub fn trait_def_id(&self, tcx: TyCtxt<'tcx>) -> DefId { 20,988 ( 0.00%) tcx.associated_item(self.item_def_id).container.id() 83,952 ( 0.00%) } . . /// Extracts the underlying trait reference and own substs from this projection. . /// For example, if this is a projection of `::Item<'a>`, . /// then this function would return a `T: Iterator` trait reference and `['a]` as the own substs 26,999 ( 0.00%) pub fn trait_ref_and_own_substs( . &self, . tcx: TyCtxt<'tcx>, . ) -> (ty::TraitRef<'tcx>, &'tcx [ty::GenericArg<'tcx>]) { 11,571 ( 0.00%) let def_id = tcx.associated_item(self.item_def_id).container.id(); . let trait_generics = tcx.generics_of(def_id); 19,285 ( 0.00%) ( . ty::TraitRef { def_id, substs: self.substs.truncate_to(tcx, trait_generics) }, . &self.substs[trait_generics.count()..], . ) 34,713 ( 0.00%) } . . /// Extracts the underlying trait reference from this projection. . /// For example, if this is a projection of `::Item`, . /// then this function would return a `T: Iterator` trait reference. . /// . /// WARNING: This will drop the substs for generic associated types . /// consider calling [Self::trait_ref_and_own_substs] to get those . /// as well. 93,078 ( 0.00%) pub fn trait_ref(&self, tcx: TyCtxt<'tcx>) -> ty::TraitRef<'tcx> { 10,342 ( 0.00%) let def_id = self.trait_def_id(tcx); 10,342 ( 0.00%) ty::TraitRef { def_id, substs: self.substs.truncate_to(tcx, tcx.generics_of(def_id)) } 113,762 ( 0.00%) } . 20,208 ( 0.00%) pub fn self_ty(&self) -> Ty<'tcx> { 60,624 ( 0.00%) self.substs.type_at(0) 40,416 ( 0.00%) } . } . . #[derive(Copy, Clone, Debug, TypeFoldable)] . pub struct GenSig<'tcx> { . pub resume_ty: Ty<'tcx>, . pub yield_ty: Ty<'tcx>, . pub return_ty: Ty<'tcx>, . } -- line 1233 ---------------------------------------- -- line 1235 ---------------------------------------- . pub type PolyGenSig<'tcx> = Binder<'tcx, GenSig<'tcx>>; . . /// Signature of a function type, which we have arbitrarily . /// decided to use to refer to the input/output types. . /// . /// - `inputs`: is the list of arguments and their modes. . /// - `output`: is the return type. . /// - `c_variadic`: indicates whether this is a C-variadic function. 341,578 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 175,484 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct FnSig<'tcx> { 15,680 ( 0.00%) pub inputs_and_output: &'tcx List>, 165,637 ( 0.00%) pub c_variadic: bool, 35,969 ( 0.00%) pub unsafety: hir::Unsafety, 138,345 ( 0.00%) pub abi: abi::Abi, . } . . impl<'tcx> FnSig<'tcx> { 161,834 ( 0.00%) pub fn inputs(&self) -> &'tcx [Ty<'tcx>] { 683,564 ( 0.00%) &self.inputs_and_output[..self.inputs_and_output.len() - 1] 323,668 ( 0.00%) } . 98,802 ( 0.00%) pub fn output(&self) -> Ty<'tcx> { 737,852 ( 0.00%) self.inputs_and_output[self.inputs_and_output.len() - 1] 197,604 ( 0.00%) } . . // Creates a minimal `FnSig` to be used when encountering a `TyKind::Error` in a fallible . // method. . fn fake() -> FnSig<'tcx> { . FnSig { . inputs_and_output: List::empty(), . c_variadic: false, . unsafety: hir::Unsafety::Normal, -- line 1267 ---------------------------------------- -- line 1270 ---------------------------------------- . } . } . . pub type PolyFnSig<'tcx> = Binder<'tcx, FnSig<'tcx>>; . . impl<'tcx> PolyFnSig<'tcx> { . #[inline] . pub fn inputs(&self) -> Binder<'tcx, &'tcx [Ty<'tcx>]> { 36,870 ( 0.00%) self.map_bound_ref_unchecked(|fn_sig| fn_sig.inputs()) . } . #[inline] . pub fn input(&self, index: usize) -> ty::Binder<'tcx, Ty<'tcx>> { 51,936 ( 0.00%) self.map_bound_ref(|fn_sig| fn_sig.inputs()[index]) . } . pub fn inputs_and_output(&self) -> ty::Binder<'tcx, &'tcx List>> { . self.map_bound_ref(|fn_sig| fn_sig.inputs_and_output) 4,618 ( 0.00%) } . #[inline] . pub fn output(&self) -> ty::Binder<'tcx, Ty<'tcx>> { 38,617 ( 0.00%) self.map_bound_ref(|fn_sig| fn_sig.output()) . } . pub fn c_variadic(&self) -> bool { 9,236 ( 0.00%) self.skip_binder().c_variadic 4,618 ( 0.00%) } . pub fn unsafety(&self) -> hir::Unsafety { 21,526 ( 0.00%) self.skip_binder().unsafety 10,763 ( 0.00%) } . pub fn abi(&self) -> abi::Abi { 204,084 ( 0.00%) self.skip_binder().abi 51,021 ( 0.00%) } . } . . pub type CanonicalPolyFnSig<'tcx> = Canonical<'tcx, Binder<'tcx, FnSig<'tcx>>>; . 124 ( 0.00%) #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 888 ( 0.00%) #[derive(HashStable)] . pub struct ParamTy { 656 ( 0.00%) pub index: u32, . pub name: Symbol, . } . . impl<'tcx> ParamTy { 858 ( 0.00%) pub fn new(index: u32, name: Symbol) -> ParamTy { . ParamTy { index, name } 429 ( 0.00%) } . . pub fn for_def(def: &ty::GenericParamDef) -> ParamTy { 38 ( 0.00%) ParamTy::new(def.index, def.name) 19 ( 0.00%) } . . #[inline] . pub fn to_ty(self, tcx: TyCtxt<'tcx>) -> Ty<'tcx> { . tcx.mk_ty_param(self.index, self.name) . } . } . . #[derive(Copy, Clone, Hash, TyEncodable, TyDecodable, Eq, PartialEq, Ord, PartialOrd)] 22 ( 0.00%) #[derive(HashStable)] . pub struct ParamConst { 198 ( 0.00%) pub index: u32, 198 ( 0.00%) pub name: Symbol, . } . . impl ParamConst { . pub fn new(index: u32, name: Symbol) -> ParamConst { . ParamConst { index, name } . } . . pub fn for_def(def: &ty::GenericParamDef) -> ParamConst { -- line 1338 ---------------------------------------- -- line 1440 ---------------------------------------- . /// the inference variable is supposed to satisfy the relation . /// *for every value of the placeholder region*. To ensure that doesn't . /// happen, you can use `leak_check`. This is more clearly explained . /// by the [rustc dev guide]. . /// . /// [1]: https://smallcultfollowing.com/babysteps/blog/2013/10/29/intermingled-parameter-lists/ . /// [2]: https://smallcultfollowing.com/babysteps/blog/2013/11/04/intermingled-parameter-lists/ . /// [rustc dev guide]: https://rustc-dev-guide.rust-lang.org/traits/hrtb.html 14,036,257 ( 0.04%) #[derive(Clone, PartialEq, Eq, Hash, Copy, TyEncodable, TyDecodable, PartialOrd, Ord)] 1,700 ( 0.00%) pub enum RegionKind { . /// Region bound in a type or fn declaration which will be . /// substituted 'early' -- that is, at the same time when type . /// parameters are substituted. . ReEarlyBound(EarlyBoundRegion), . . /// Region bound in a function scope, which will be substituted when the . /// function is called. 508,424 ( 0.00%) ReLateBound(ty::DebruijnIndex, BoundRegion), . . /// When checking a function body, the types of all arguments and so forth . /// that refer to bound region parameters are modified to refer to free . /// region parameters. . ReFree(FreeRegion), . . /// Static data that has an "infinite" lifetime. Top in the region lattice. . ReStatic, -- line 1465 ---------------------------------------- -- line 1478 ---------------------------------------- . /// regions visible from `U`, but not less than regions not visible . /// from `U`. . ReEmpty(ty::UniverseIndex), . . /// Erased region, used by trait selection, in MIR and during codegen. . ReErased, . } . 32,062 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Hash, TyEncodable, TyDecodable, Debug, PartialOrd, Ord)] . pub struct EarlyBoundRegion { 16,578 ( 0.00%) pub def_id: DefId, 37,808 ( 0.00%) pub index: u32, 52,181 ( 0.00%) pub name: Symbol, . } . . /// A **`const`** **v**ariable **ID**. . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] . pub struct ConstVid<'tcx> { 10,160 ( 0.00%) pub index: u32, 1,384 ( 0.00%) pub phantom: PhantomData<&'tcx ()>, . } . . rustc_index::newtype_index! { . /// A **region** (lifetime) **v**ariable **ID**. . pub struct RegionVid { . DEBUG_FORMAT = custom, . } . } -- line 1505 ---------------------------------------- -- line 1513 ---------------------------------------- . rustc_index::newtype_index! { . pub struct BoundVar { .. } . } . . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] . #[derive(HashStable)] . pub struct BoundTy { . pub var: BoundVar, 19,469 ( 0.00%) pub kind: BoundTyKind, . } . 331,081 ( 0.00%) #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] . #[derive(HashStable)] . pub enum BoundTyKind { . Anon, . Param(Symbol), . } . . impl From for BoundTy { . fn from(var: BoundVar) -> Self { . BoundTy { var, kind: BoundTyKind::Anon } . } . } . . /// A `ProjectionPredicate` for an `ExistentialTraitRef`. 26 ( 0.00%) #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 1,357 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct ExistentialProjection<'tcx> { 140 ( 0.00%) pub item_def_id: DefId, 1,310 ( 0.00%) pub substs: SubstsRef<'tcx>, 324 ( 0.00%) pub term: Term<'tcx>, . } . . pub type PolyExistentialProjection<'tcx> = Binder<'tcx, ExistentialProjection<'tcx>>; . . impl<'tcx> ExistentialProjection<'tcx> { . /// Extracts the underlying existential trait reference from this projection. . /// For example, if this is a projection of `exists T. ::Item == X`, . /// then this function would return an `exists T. T: Iterator` existential trait . /// reference. 336 ( 0.00%) pub fn trait_ref(&self, tcx: TyCtxt<'tcx>) -> ty::ExistentialTraitRef<'tcx> { 144 ( 0.00%) let def_id = tcx.associated_item(self.item_def_id).container.id(); 96 ( 0.00%) let subst_count = tcx.generics_of(def_id).count() - 1; 48 ( 0.00%) let substs = tcx.intern_substs(&self.substs[..subst_count]); . ty::ExistentialTraitRef { def_id, substs } 432 ( 0.00%) } . . pub fn with_self_ty( . &self, . tcx: TyCtxt<'tcx>, . self_ty: Ty<'tcx>, . ) -> ty::ProjectionPredicate<'tcx> { . // otherwise the escaping regions would be captured by the binders . debug_assert!(!self_ty.has_escaping_bound_vars()); -- line 1566 ---------------------------------------- -- line 1569 ---------------------------------------- . projection_ty: ty::ProjectionTy { . item_def_id: self.item_def_id, . substs: tcx.mk_substs_trait(self_ty, self.substs), . }, . term: self.term, . } . } . 20 ( 0.00%) pub fn erase_self_ty( . tcx: TyCtxt<'tcx>, . projection_predicate: ty::ProjectionPredicate<'tcx>, . ) -> Self { . // Assert there is a Self. 12 ( 0.00%) projection_predicate.projection_ty.substs.type_at(0); . 16 ( 0.00%) Self { 8 ( 0.00%) item_def_id: projection_predicate.projection_ty.item_def_id, . substs: tcx.intern_substs(&projection_predicate.projection_ty.substs[1..]), 4 ( 0.00%) term: projection_predicate.term, . } 28 ( 0.00%) } . } . . impl<'tcx> PolyExistentialProjection<'tcx> { 50 ( 0.00%) pub fn with_self_ty( . &self, . tcx: TyCtxt<'tcx>, . self_ty: Ty<'tcx>, . ) -> ty::PolyProjectionPredicate<'tcx> { 50 ( 0.00%) self.map_bound(|p| p.with_self_ty(tcx, self_ty)) 60 ( 0.00%) } . . pub fn item_def_id(&self) -> DefId { 20 ( 0.00%) self.skip_binder().item_def_id 10 ( 0.00%) } . } . . /// Region utilities . impl RegionKind { . /// Is this region named by the user? . pub fn has_name(&self) -> bool { . match *self { . RegionKind::ReEarlyBound(ebr) => ebr.has_name(), -- line 1611 ---------------------------------------- -- line 1616 ---------------------------------------- . RegionKind::RePlaceholder(placeholder) => placeholder.name.is_named(), . RegionKind::ReEmpty(_) => false, . RegionKind::ReErased => false, . } . } . . #[inline] . pub fn is_late_bound(&self) -> bool { 12,304 ( 0.00%) matches!(*self, ty::ReLateBound(..)) . } . . #[inline] . pub fn is_placeholder(&self) -> bool { . matches!(*self, ty::RePlaceholder(..)) . } . . #[inline] . pub fn bound_at_or_above_binder(&self, index: ty::DebruijnIndex) -> bool { 337,146 ( 0.00%) match *self { . ty::ReLateBound(debruijn, _) => debruijn >= index, . _ => false, . } . } . . pub fn type_flags(&self) -> TypeFlags { . let mut flags = TypeFlags::empty(); . 528,288 ( 0.00%) match *self { . ty::ReVar(..) => { . flags = flags | TypeFlags::HAS_FREE_REGIONS; . flags = flags | TypeFlags::HAS_FREE_LOCAL_REGIONS; . flags = flags | TypeFlags::HAS_RE_INFER; . } . ty::RePlaceholder(..) => { . flags = flags | TypeFlags::HAS_FREE_REGIONS; . flags = flags | TypeFlags::HAS_FREE_LOCAL_REGIONS; -- line 1651 ---------------------------------------- -- line 1669 ---------------------------------------- . ty::ReErased => { . flags = flags | TypeFlags::HAS_RE_ERASED; . } . } . . debug!("type_flags({:?}) = {:?}", self, flags); . . flags 31,765 ( 0.00%) } . . /// Given an early-bound or free region, returns the `DefId` where it was bound. . /// For example, consider the regions in this snippet of code: . /// . /// ``` . /// impl<'a> Foo { . /// ^^ -- early bound, declared on an impl . /// -- line 1685 ---------------------------------------- -- line 1713 ---------------------------------------- . . #[inline(always)] . pub fn flags(&self) -> TypeFlags { . self.flags . } . . #[inline] . pub fn is_unit(&self) -> bool { 29,314 ( 0.00%) match self.kind() { 8,032 ( 0.00%) Tuple(ref tys) => tys.is_empty(), . _ => false, . } . } . . #[inline] . pub fn is_never(&self) -> bool { 283,958 ( 0.00%) matches!(self.kind(), Never) . } . . #[inline] . pub fn is_primitive(&self) -> bool { . self.kind().is_primitive() . } . . #[inline] -- line 1737 ---------------------------------------- -- line 1741 ---------------------------------------- . . #[inline] . pub fn is_ref(&self) -> bool { . matches!(self.kind(), Ref(..)) . } . . #[inline] . pub fn is_ty_var(&self) -> bool { 365,555 ( 0.00%) matches!(self.kind(), Infer(TyVar(_))) . } . . #[inline] . pub fn ty_vid(&self) -> Option { 263,564 ( 0.00%) match self.kind() { 51,367 ( 0.00%) &Infer(TyVar(vid)) => Some(vid), . _ => None, . } . } . . #[inline] . pub fn is_ty_infer(&self) -> bool { 456 ( 0.00%) matches!(self.kind(), Infer(_)) . } . . #[inline] . pub fn is_phantom_data(&self) -> bool { 9 ( 0.00%) if let Adt(def, _) = self.kind() { def.is_phantom_data() } else { false } . } . . #[inline] . pub fn is_bool(&self) -> bool { 7,380 ( 0.00%) *self.kind() == Bool . } . . /// Returns `true` if this type is a `str`. . #[inline] . pub fn is_str(&self) -> bool { . *self.kind() == Str . } . . #[inline] . pub fn is_param(&self, index: u32) -> bool { 183 ( 0.00%) match self.kind() { . ty::Param(ref data) => data.index == index, . _ => false, . } . } . . #[inline] . pub fn is_slice(&self) -> bool { . match self.kind() { . RawPtr(TypeAndMut { ty, .. }) | Ref(_, ty, _) => matches!(ty.kind(), Slice(_) | Str), . _ => false, . } . } . . #[inline] . pub fn is_array(&self) -> bool { 605 ( 0.00%) matches!(self.kind(), Array(..)) . } . . #[inline] . pub fn is_simd(&self) -> bool { 18 ( 0.00%) match self.kind() { 9 ( 0.00%) Adt(def, _) => def.repr.simd(), . _ => false, . } . } . 160 ( 0.00%) pub fn sequence_element_type(&self, tcx: TyCtxt<'tcx>) -> Ty<'tcx> { 320 ( 0.00%) match self.kind() { . Array(ty, _) | Slice(ty) => ty, . Str => tcx.mk_mach_uint(ty::UintTy::U8), . _ => bug!("`sequence_element_type` called on non-sequence value: {}", self), . } 160 ( 0.00%) } . . pub fn simd_size_and_type(&self, tcx: TyCtxt<'tcx>) -> (u64, Ty<'tcx>) { . match self.kind() { . Adt(def, substs) => { . assert!(def.repr.simd(), "`simd_size_and_type` called on non-SIMD type"); . let variant = def.non_enum_variant(); . let f0_ty = variant.fields[0].ty(tcx, substs); . -- line 1824 ---------------------------------------- -- line 1838 ---------------------------------------- . } . } . _ => bug!("`simd_size_and_type` called on invalid type"), . } . } . . #[inline] . pub fn is_region_ptr(&self) -> bool { 428 ( 0.00%) matches!(self.kind(), Ref(..)) . } . . #[inline] . pub fn is_mutable_ptr(&self) -> bool { 39 ( 0.00%) matches!( 26 ( 0.00%) self.kind(), . RawPtr(TypeAndMut { mutbl: hir::Mutability::Mut, .. }) . | Ref(_, _, hir::Mutability::Mut) . ) . } . . /// Get the mutability of the reference or `None` when not a reference . #[inline] . pub fn ref_mutability(&self) -> Option { -- line 1860 ---------------------------------------- -- line 1861 ---------------------------------------- . match self.kind() { . Ref(_, _, mutability) => Some(*mutability), . _ => None, . } . } . . #[inline] . pub fn is_unsafe_ptr(&self) -> bool { 25,633 ( 0.00%) matches!(self.kind(), RawPtr(_)) . } . . /// Tests if this is any kind of primitive pointer type (reference, raw pointer, fn pointer). . #[inline] . pub fn is_any_ptr(&self) -> bool { 72 ( 0.00%) self.is_region_ptr() || self.is_unsafe_ptr() || self.is_fn_ptr() . } . . #[inline] . pub fn is_box(&self) -> bool { 280,362 ( 0.00%) match self.kind() { 58,390 ( 0.00%) Adt(def, _) => def.is_box(), . _ => false, . } . } . . /// Panics if called on any type other than `Box`. 510 ( 0.00%) pub fn boxed_ty(&self) -> Ty<'tcx> { 510 ( 0.00%) match self.kind() { 1,275 ( 0.00%) Adt(def, substs) if def.is_box() => substs.type_at(0), . _ => bug!("`boxed_ty` is called on non-box type {:?}", self), . } 510 ( 0.00%) } . . /// A scalar type is one that denotes an atomic datum, with no sub-components. . /// (A RawPtr is scalar because it represents a non-managed pointer, so its . /// contents are abstract to rustc.) . #[inline] . pub fn is_scalar(&self) -> bool { 13,936 ( 0.00%) matches!( 31,777 ( 0.00%) self.kind(), . Bool | Char . | Int(_) . | Float(_) . | Uint(_) . | FnDef(..) . | FnPtr(_) . | RawPtr(_) . | Infer(IntVar(_) | FloatVar(_)) . ) . } . . /// Returns `true` if this type is a floating point type. . #[inline] . pub fn is_floating_point(&self) -> bool { 11,124 ( 0.00%) matches!(self.kind(), Float(_) | Infer(FloatVar(_))) . } . . #[inline] . pub fn is_trait(&self) -> bool { 860 ( 0.00%) matches!(self.kind(), Dynamic(..)) . } . . #[inline] . pub fn is_enum(&self) -> bool { 10,908 ( 0.00%) matches!(self.kind(), Adt(adt_def, _) if adt_def.is_enum()) . } . . #[inline] . pub fn is_union(&self) -> bool { 74,506 ( 0.00%) matches!(self.kind(), Adt(adt_def, _) if adt_def.is_union()) . } . . #[inline] . pub fn is_closure(&self) -> bool { 4,680 ( 0.00%) matches!(self.kind(), Closure(..)) . } . . #[inline] . pub fn is_generator(&self) -> bool { 17,244 ( 0.00%) matches!(self.kind(), Generator(..)) . } . . #[inline] . pub fn is_integral(&self) -> bool { 92,466 ( 0.00%) matches!(self.kind(), Infer(IntVar(_)) | Int(_) | Uint(_)) . } . . #[inline] . pub fn is_fresh_ty(&self) -> bool { . matches!(self.kind(), Infer(FreshTy(_))) . } . . #[inline] . pub fn is_fresh(&self) -> bool { 13,253 ( 0.00%) matches!(self.kind(), Infer(FreshTy(_) | FreshIntTy(_) | FreshFloatTy(_))) . } . . #[inline] . pub fn is_char(&self) -> bool { . matches!(self.kind(), Char) . } . . #[inline] . pub fn is_numeric(&self) -> bool { . self.is_integral() || self.is_floating_point() . } . . #[inline] . pub fn is_signed(&self) -> bool { 2,300 ( 0.00%) matches!(self.kind(), Int(_)) . } . . #[inline] . pub fn is_ptr_sized_integral(&self) -> bool { 11,532 ( 0.00%) matches!(self.kind(), Int(ty::IntTy::Isize) | Uint(ty::UintTy::Usize)) . } . . #[inline] . pub fn has_concrete_skeleton(&self) -> bool { . !matches!(self.kind(), Param(_) | Infer(_) | Error(_)) . } . . /// Returns the type and mutability of `*ty`. . /// . /// The parameter `explicit` indicates if this is an *explicit* dereference. . /// Some types -- notably unsafe ptrs -- can only be dereferenced explicitly. 60,031 ( 0.00%) pub fn builtin_deref(&self, explicit: bool) -> Option> { 364,671 ( 0.00%) match self.kind() { 6,734 ( 0.00%) Adt(def, _) if def.is_box() => { 258 ( 0.00%) Some(TypeAndMut { ty: self.boxed_ty(), mutbl: hir::Mutability::Not }) . } 220,998 ( 0.00%) Ref(_, ty, mutbl) => Some(TypeAndMut { ty, mutbl: *mutbl }), 4,288 ( 0.00%) RawPtr(mt) if explicit => Some(*mt), . _ => None, . } 120,062 ( 0.00%) } . . /// Returns the type of `ty[i]`. . pub fn builtin_index(&self) -> Option> { 2,011 ( 0.00%) match self.kind() { . Array(ty, _) | Slice(ty) => Some(ty), . _ => None, . } 169 ( 0.00%) } . 580,328 ( 0.00%) pub fn fn_sig(&self, tcx: TyCtxt<'tcx>) -> PolyFnSig<'tcx> { 290,164 ( 0.00%) match self.kind() { 217,623 ( 0.00%) FnDef(def_id, substs) => tcx.fn_sig(*def_id).subst(tcx, substs), . FnPtr(f) => *f, . Error(_) => { . // ignore errors (#54954) . ty::Binder::dummy(FnSig::fake()) . } . Closure(..) => bug!( . "to get the signature of a closure, use `substs.as_closure().sig()` not `fn_sig()`", . ), . _ => bug!("Ty::fn_sig() called on non-fn type: {:?}", self), . } 652,869 ( 0.00%) } . . #[inline] . pub fn is_fn(&self) -> bool { 18,789 ( 0.00%) matches!(self.kind(), FnDef(..) | FnPtr(_)) . } . . #[inline] . pub fn is_fn_ptr(&self) -> bool { . matches!(self.kind(), FnPtr(_)) . } . . #[inline] . pub fn is_impl_trait(&self) -> bool { . matches!(self.kind(), Opaque(..)) . } . . #[inline] . pub fn ty_adt_def(&self) -> Option<&'tcx AdtDef> { 21,212 ( 0.00%) match self.kind() { . Adt(adt, _) => Some(adt), . _ => None, . } . } . . /// Iterates over tuple fields. . /// Panics when called on anything but a tuple. 875 ( 0.00%) pub fn tuple_fields(&self) -> impl DoubleEndedIterator> { 10,468 ( 0.00%) match self.kind() { 7,212 ( 0.00%) Tuple(substs) => substs.iter().map(|field| field.expect_ty()), . _ => bug!("tuple_fields called on non-tuple"), . } 1,750 ( 0.00%) } . . /// Get the `i`-th element of a tuple. . /// Panics when called on anything but a tuple. 451 ( 0.00%) pub fn tuple_element_ty(&self, i: usize) -> Option> { 902 ( 0.00%) match self.kind() { 902 ( 0.00%) Tuple(substs) => substs.iter().nth(i).map(|field| field.expect_ty()), . _ => bug!("tuple_fields called on non-tuple"), . } 902 ( 0.00%) } . . /// If the type contains variants, returns the valid range of variant indices. . // . // FIXME: This requires the optimized MIR in the case of generators. . #[inline] . pub fn variant_range(&self, tcx: TyCtxt<'tcx>) -> Option> { . match self.kind() { . TyKind::Adt(adt, _) => Some(adt.variant_range()), -- line 2068 ---------------------------------------- -- line 2073 ---------------------------------------- . } . } . . /// If the type contains variants, returns the variant for `variant_index`. . /// Panics if `variant_index` is out of range. . // . // FIXME: This requires the optimized MIR in the case of generators. . #[inline] 30,300 ( 0.00%) pub fn discriminant_for_variant( . &self, . tcx: TyCtxt<'tcx>, . variant_index: VariantIdx, . ) -> Option> { 46,860 ( 0.00%) match self.kind() { 16,676 ( 0.00%) TyKind::Adt(adt, _) if adt.variants.is_empty() => { . // This can actually happen during CTFE, see . // https://github.com/rust-lang/rust/issues/89765. . None . } 8,338 ( 0.00%) TyKind::Adt(adt, _) if adt.is_enum() => { . Some(adt.discriminant_for_variant(tcx, variant_index)) . } . TyKind::Generator(def_id, substs, _) => { . Some(substs.as_generator().discriminant_for_variant(*def_id, tcx, variant_index)) . } . _ => None, . } 24,240 ( 0.00%) } . . /// Returns the type of the discriminant of this type. 79,720 ( 0.00%) pub fn discriminant_ty(&'tcx self, tcx: TyCtxt<'tcx>) -> Ty<'tcx> { 39,860 ( 0.00%) match self.kind() { 63,776 ( 0.00%) ty::Adt(adt, _) if adt.is_enum() => adt.repr.discr_type().to_ty(tcx), . ty::Generator(_, substs, _) => substs.as_generator().discr_ty(tcx), . . ty::Param(_) | ty::Projection(_) | ty::Opaque(..) | ty::Infer(ty::TyVar(_)) => { . let assoc_items = tcx.associated_item_def_ids( . tcx.require_lang_item(hir::LangItem::DiscriminantKind, None), . ); . tcx.mk_projection(assoc_items[0], tcx.intern_substs(&[self.into()])) . } -- line 2113 ---------------------------------------- -- line 2135 ---------------------------------------- . | ty::Infer(IntVar(_) | FloatVar(_)) => tcx.types.u8, . . ty::Bound(..) . | ty::Placeholder(_) . | ty::Infer(FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)) => { . bug!("`discriminant_ty` applied to unexpected type: {:?}", self) . } . } 63,776 ( 0.00%) } . . /// Returns the type of metadata for (potentially fat) pointers to this type. 234 ( 0.00%) pub fn ptr_metadata_ty( . &'tcx self, . tcx: TyCtxt<'tcx>, . normalize: impl FnMut(Ty<'tcx>) -> Ty<'tcx>, . ) -> Ty<'tcx> { 234 ( 0.00%) let tail = tcx.struct_tail_with_normalize(self, normalize); 130 ( 0.00%) match tail.kind() { . // Sized types . ty::Infer(ty::IntVar(_) | ty::FloatVar(_)) . | ty::Uint(_) . | ty::Int(_) . | ty::Bool . | ty::Float(_) . | ty::FnDef(..) . | ty::FnPtr(_) -- line 2160 ---------------------------------------- -- line 2170 ---------------------------------------- . | ty::Foreign(..) . // If returned by `struct_tail_without_normalization` this is a unit struct . // without any fields, or not a struct, and therefore is Sized. . | ty::Adt(..) . // If returned by `struct_tail_without_normalization` this is the empty tuple, . // a.k.a. unit type, which is Sized . | ty::Tuple(..) => tcx.types.unit, . 52 ( 0.00%) ty::Str | ty::Slice(_) => tcx.types.usize, . ty::Dynamic(..) => { . let dyn_metadata = tcx.lang_items().dyn_metadata().unwrap(); . tcx.type_of(dyn_metadata).subst(tcx, &[tail.into()]) . }, . . ty::Projection(_) . | ty::Param(_) . | ty::Opaque(..) . | ty::Infer(ty::TyVar(_)) . | ty::Bound(..) . | ty::Placeholder(..) . | ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)) => { . bug!("`ptr_metadata_ty` applied to unexpected type: {:?}", tail) . } . } 208 ( 0.00%) } . . /// When we create a closure, we record its kind (i.e., what trait . /// it implements) into its `ClosureSubsts` using a type . /// parameter. This is kind of a phantom type, except that the . /// most convenient thing for us to are the integral types. This . /// function converts such a special type into the closure . /// kind. To go the other way, use . /// `tcx.closure_kind_ty(closure_kind)`. . /// . /// Note that during type checking, we use an inference variable . /// to represent the closure kind, because it has not yet been . /// inferred. Once upvar inference (in `rustc_typeck/src/check/upvar.rs`) . /// is complete, that type variable will be unified. 4,130 ( 0.00%) pub fn to_opt_closure_kind(&self) -> Option { 8,260 ( 0.00%) match self.kind() { 8,260 ( 0.00%) Int(int_ty) => match int_ty { . ty::IntTy::I8 => Some(ty::ClosureKind::Fn), . ty::IntTy::I16 => Some(ty::ClosureKind::FnMut), . ty::IntTy::I32 => Some(ty::ClosureKind::FnOnce), . _ => bug!("cannot convert type `{:?}` to a closure kind", self), . }, . . // "Bound" types appear in canonical queries when the . // closure type is not yet known . Bound(..) | Infer(_) => None, . . Error(_) => Some(ty::ClosureKind::Fn), . . _ => bug!("cannot convert type `{:?}` to a closure kind", self), . } 4,130 ( 0.00%) } . . /// Fast path helper for testing if a type is `Sized`. . /// . /// Returning true means the type is known to be sized. Returning . /// `false` means nothing -- could be sized, might not be. . /// . /// Note that we could never rely on the fact that a type such as `[_]` is . /// trivially `!Sized` because we could be in a type environment with a . /// bound such as `[_]: Copy`. A function with such a bound obviously never . /// can be called, but that doesn't mean it shouldn't typecheck. This is why . /// this method doesn't return `Option`. 1,067,976 ( 0.00%) pub fn is_trivially_sized(&self, tcx: TyCtxt<'tcx>) -> bool { 711,984 ( 0.00%) match self.kind() { . ty::Infer(ty::IntVar(_) | ty::FloatVar(_)) . | ty::Uint(_) . | ty::Int(_) . | ty::Bool . | ty::Float(_) . | ty::FnDef(..) . | ty::FnPtr(_) . | ty::RawPtr(..) -- line 2246 ---------------------------------------- -- line 2250 ---------------------------------------- . | ty::GeneratorWitness(..) . | ty::Array(..) . | ty::Closure(..) . | ty::Never . | ty::Error(_) => true, . . ty::Str | ty::Slice(_) | ty::Dynamic(..) | ty::Foreign(..) => false, . 12,346 ( 0.00%) ty::Tuple(tys) => tys.iter().all(|ty| ty.expect_ty().is_trivially_sized(tcx)), . 87,795 ( 0.00%) ty::Adt(def, _substs) => def.sized_constraint(tcx).is_empty(), . . ty::Projection(_) | ty::Param(_) | ty::Opaque(..) => false, . . ty::Infer(ty::TyVar(_)) => false, . . ty::Bound(..) . | ty::Placeholder(..) . | ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)) => { . bug!("`is_trivially_sized` applied to unexpected type: {:?}", self) . } . } 1,067,976 ( 0.00%) } . } . . /// Extra information about why we ended up with a particular variance. . /// This is only used to add more information to error messages, and . /// has no effect on soundness. While choosing the 'wrong' `VarianceDiagInfo` . /// may lead to confusing notes in error messages, it will never cause . /// a miscompilation or unsoundness. . /// . /// When in doubt, use `VarianceDiagInfo::default()` 435 ( 0.00%) #[derive(Copy, Clone, Debug, Default, PartialEq, Eq, PartialOrd, Ord)] . pub enum VarianceDiagInfo<'tcx> { . /// No additional information - this is the default. . /// We will not add any additional information to error messages. . #[default] . None, . /// We switched our variance because a generic argument occurs inside . /// the invariant generic argument of another type. . Invariant { -- line 2290 ---------------------------------------- -- line 2295 ---------------------------------------- . /// (e.g. `0` for `*mut T`, `1` for `MyStruct<'CovariantParam, 'InvariantParam>`) . param_index: u32, . }, . } . . impl<'tcx> VarianceDiagInfo<'tcx> { . /// Mirrors `Variance::xform` - used to 'combine' the existing . /// and new `VarianceDiagInfo`s when our variance changes. 157,160 ( 0.00%) pub fn xform(self, other: VarianceDiagInfo<'tcx>) -> VarianceDiagInfo<'tcx> { . // For now, just use the first `VarianceDiagInfo::Invariant` that we see 235,740 ( 0.00%) match self { . VarianceDiagInfo::None => other, . VarianceDiagInfo::Invariant { .. } => self, . } 78,580 ( 0.00%) } . } 55,027,540 ( 0.17%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs -------------------------------------------------------------------------------- Ir -- line 111 ---------------------------------------- . const EMPTY: u8 = 0b1111_1111; . . /// Control byte value for a deleted bucket. . const DELETED: u8 = 0b1000_0000; . . /// Checks whether a control byte represents a full bucket (top bit is clear). . #[inline] . fn is_full(ctrl: u8) -> bool { 11,932,670 ( 0.04%) ctrl & 0x80 == 0 . } . . /// Checks whether a control byte represents a special value (top bit is set). . #[inline] . fn is_special(ctrl: u8) -> bool { . ctrl & 0x80 != 0 . } . . /// Checks whether a special control value is EMPTY (just check 1 bit). . #[inline] . fn special_is_empty(ctrl: u8) -> bool { . debug_assert!(is_special(ctrl)); 973,756 ( 0.00%) ctrl & 0x01 != 0 . } . . /// Primary hash function, used to select the initial bucket to probe from. . #[inline] . #[allow(clippy::cast_possible_truncation)] . fn h1(hash: u64) -> usize { . // On 32-bit platforms we simply ignore the higher hash bits. . hash as usize -- line 140 ---------------------------------------- -- line 143 ---------------------------------------- . /// Secondary hash function, saved in the low 7 bits of the control byte. . #[inline] . #[allow(clippy::cast_possible_truncation)] . fn h2(hash: u64) -> u8 { . // Grab the top 7 bits of the hash. While the hash is normally a full 64-bit . // value, some hash functions (such as FxHash) produce a usize result . // instead, which means that the top 32 bits are 0 on 32-bit platforms. . let hash_len = usize::min(mem::size_of::(), mem::size_of::()); 226,821,197 ( 0.71%) let top7 = hash >> (hash_len * 8 - 7); . (top7 & 0x7f) as u8 // truncation . } . . /// Probe sequence based on triangular numbers, which is guaranteed (since our . /// table size is a power of two) to visit every group of elements exactly once. . /// . /// A triangular probe has us jump by 1 more group every time. So first we . /// jump by 1 group (meaning we just continue our linear scan), then 2 groups -- line 159 ---------------------------------------- -- line 170 ---------------------------------------- . #[inline] . fn move_next(&mut self, bucket_mask: usize) { . // We should have found an empty bucket by now and ended the probe. . debug_assert!( . self.stride <= bucket_mask, . "Went past end of probe sequence" . ); . 1,887,194 ( 0.01%) self.stride += Group::WIDTH; 1,887,194 ( 0.01%) self.pos += self.stride; 1,709,912 ( 0.01%) self.pos &= bucket_mask; . } . } . . /// Returns the number of buckets needed to hold the given number of items, . /// taking the maximum load factor into account. . /// . /// Returns `None` if an overflow occurs. . // Workaround for emscripten bug emscripten-core/emscripten-fastcomp#258 . #[cfg_attr(target_os = "emscripten", inline(never))] . #[cfg_attr(not(target_os = "emscripten"), inline)] . fn capacity_to_buckets(cap: usize) -> Option { . debug_assert_ne!(cap, 0); . . // For small tables we require at least 1 empty bucket so that lookups are . // guaranteed to terminate if an element doesn't exist in the table. 1,169,934 ( 0.00%) if cap < 8 { . // We don't bother with a table size of 2 buckets since that can only . // hold a single element. Instead we skip directly to a 4 bucket table . // which can hold 3 elements. 2,597,025 ( 0.01%) return Some(if cap < 4 { 4 } else { 8 }); . } . . // Otherwise require 1/8 buckets to be empty (87.5% load) . // . // Be careful when modifying this, calculate_layout relies on the . // overflow check here. 393,372 ( 0.00%) let adjusted_cap = cap.checked_mul(8)? / 7; . . // Any overflows will have been caught by the checked_mul. Also, any . // rounding errors from the division above will be cleaned up by . // next_power_of_two (which can't overflow because of the previous division). . Some(adjusted_cap.next_power_of_two()) . } . . /// Returns the maximum effective capacity for the given bucket mask, taking . /// the maximum load factor into account. . #[inline] . fn bucket_mask_to_capacity(bucket_mask: usize) -> usize { 3,037,066 ( 0.01%) if bucket_mask < 8 { . // For tables with 1/2/4/8 buckets, we always reserve one empty slot. . // Keep in mind that the bucket mask is one less than the bucket count. . bucket_mask . } else { . // For larger tables we reserve 12.5% of the slots as empty. 530,482 ( 0.00%) ((bucket_mask + 1) / 8) * 7 . } . } . . /// Helper which allows the max calculation for ctrl_align to be statically computed for each T . /// while keeping the rest of `calculate_layout_for` independent of `T` . #[derive(Copy, Clone)] . struct TableLayout { . size: usize, -- line 233 ---------------------------------------- -- line 246 ---------------------------------------- . . #[inline] . fn calculate_layout_for(self, buckets: usize) -> Option<(Layout, usize)> { . debug_assert!(buckets.is_power_of_two()); . . let TableLayout { size, ctrl_align } = self; . // Manual layout calculation since Layout methods are not yet stable. . let ctrl_offset = 2,427,175 ( 0.01%) size.checked_mul(buckets)?.checked_add(ctrl_align - 1)? & !(ctrl_align - 1); 3,216,091 ( 0.01%) let len = ctrl_offset.checked_add(buckets + Group::WIDTH)?; . . Some(( . unsafe { Layout::from_size_align_unchecked(len, ctrl_align) }, . ctrl_offset, . )) . } . } . -- line 263 ---------------------------------------- -- line 337 ---------------------------------------- . } . } . #[cfg_attr(feature = "inline-more", inline)] . pub unsafe fn drop(&self) { . self.as_ptr().drop_in_place(); . } . #[inline] . pub unsafe fn read(&self) -> T { 20,308 ( 0.00%) self.as_ptr().read() . } . #[inline] . pub unsafe fn write(&self, val: T) { . self.as_ptr().write(val); . } . #[inline] . pub unsafe fn as_ref<'a>(&self) -> &'a T { . &*self.as_ptr() -- line 353 ---------------------------------------- -- line 422 ---------------------------------------- . /// Creates a new empty hash table without allocating any memory, using the . /// given allocator. . /// . /// In effect this returns a table with exactly 1 bucket. However we can . /// leave the data pointer dangling since that bucket is never written to . /// due to our load factor forcing us to always have at least 1 free bucket. . #[inline] . pub fn new_in(alloc: A) -> Self { 51,582 ( 0.00%) Self { . table: RawTableInner::new_in(alloc), . marker: PhantomData, . } . } . . /// Allocates a new hash table with the given number of buckets. . /// . /// The control bytes are left uninitialized. -- line 438 ---------------------------------------- -- line 440 ---------------------------------------- . unsafe fn new_uninitialized( . alloc: A, . buckets: usize, . fallibility: Fallibility, . ) -> Result { . debug_assert!(buckets.is_power_of_two()); . . Ok(Self { 1,015 ( 0.00%) table: RawTableInner::new_uninitialized( . alloc, . TableLayout::new::(), . buckets, . fallibility, . )?, . marker: PhantomData, . }) . } -- line 456 ---------------------------------------- -- line 458 ---------------------------------------- . /// Attempts to allocate a new hash table with at least enough capacity . /// for inserting the given number of elements without reallocating. . fn fallible_with_capacity( . alloc: A, . capacity: usize, . fallibility: Fallibility, . ) -> Result { . Ok(Self { 69,537 ( 0.00%) table: RawTableInner::fallible_with_capacity( . alloc, . TableLayout::new::(), . capacity, . fallibility, . )?, . marker: PhantomData, . }) . } -- line 474 ---------------------------------------- -- line 527 ---------------------------------------- . debug_assert_ne!(self.table.bucket_mask, 0); . debug_assert!(index < self.buckets()); . Bucket::from_base_index(self.data_end(), index) . } . . /// Erases an element from the table without dropping it. . #[cfg_attr(feature = "inline-more", inline)] . #[deprecated(since = "0.8.1", note = "use erase or remove instead")] 158,491 ( 0.00%) pub unsafe fn erase_no_drop(&mut self, item: &Bucket) { 158,491 ( 0.00%) let index = self.bucket_index(item); . self.table.erase(index); 316,982 ( 0.00%) } . . /// Erases an element from the table, dropping it in place. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::needless_pass_by_value)] . #[allow(deprecated)] . pub unsafe fn erase(&mut self, item: Bucket) { . // Erase the element from the table first since drop might panic. 110,128 ( 0.00%) self.erase_no_drop(&item); . item.drop(); . } . . /// Finds and erases an element from the table, dropping it in place. . /// Returns true if an element was found. . #[cfg(feature = "raw")] . #[cfg_attr(feature = "inline-more", inline)] . pub fn erase_entry(&mut self, hash: u64, eq: impl FnMut(&T) -> bool) -> bool { -- line 554 ---------------------------------------- -- line 563 ---------------------------------------- . } . } . . /// Removes an element from the table, returning it. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::needless_pass_by_value)] . #[allow(deprecated)] . pub unsafe fn remove(&mut self, item: Bucket) -> T { 206,854 ( 0.00%) self.erase_no_drop(&item); 2,500 ( 0.00%) item.read() . } . . /// Finds and removes an element from the table, returning it. . #[cfg_attr(feature = "inline-more", inline)] 5,023,630 ( 0.02%) pub fn remove_entry(&mut self, hash: u64, eq: impl FnMut(&T) -> bool) -> Option { . // Avoid `Option::map` because it bloats LLVM IR. 19,814 ( 0.00%) match self.find(hash, eq) { 99,428 ( 0.00%) Some(bucket) => Some(unsafe { self.remove(bucket) }), 1,172,136 ( 0.00%) None => None, . } 7,135,060 ( 0.02%) } . . /// Marks all table buckets as empty without dropping their contents. . #[cfg_attr(feature = "inline-more", inline)] . pub fn clear_no_drop(&mut self) { . self.table.clear_no_drop(); . } . . /// Removes all elements from the table without freeing the backing memory. . #[cfg_attr(feature = "inline-more", inline)] . pub fn clear(&mut self) { . // Ensure that the table is reset even if one of the drops panic . let mut self_ = guard(self, |self_| self_.clear_no_drop()); . unsafe { 1 ( 0.00%) self_.drop_elements(); . } . } . 7 ( 0.00%) unsafe fn drop_elements(&mut self) { 144,560 ( 0.00%) if mem::needs_drop::() && !self.is_empty() { . for item in self.iter() { . item.drop(); . } . } 8 ( 0.00%) } . . /// Shrinks the table to fit `max(self.len(), min_size)` elements. . #[cfg_attr(feature = "inline-more", inline)] . pub fn shrink_to(&mut self, min_size: usize, hasher: impl Fn(&T) -> u64) { . // Calculate the minimal number of elements that we need to reserve . // space for. . let min_size = usize::max(self.table.items, min_size); . if min_size == 0 { -- line 615 ---------------------------------------- -- line 642 ---------------------------------------- . } . } . } . . /// Ensures that at least `additional` items can be inserted into the table . /// without reallocation. . #[cfg_attr(feature = "inline-more", inline)] . pub fn reserve(&mut self, additional: usize, hasher: impl Fn(&T) -> u64) { 2,689,683 ( 0.01%) if additional > self.table.growth_left { . // Avoid `Result::unwrap_or_else` because it bloats LLVM IR. 2,011,918 ( 0.01%) if self . .reserve_rehash(additional, hasher, Fallibility::Infallible) . .is_err() . { . unsafe { hint::unreachable_unchecked() } . } . } . } . -- line 660 ---------------------------------------- -- line 671 ---------------------------------------- . } else { . Ok(()) . } . } . . /// Out-of-line slow path for `reserve` and `try_reserve`. . #[cold] . #[inline(never)] 4,704,477 ( 0.01%) fn reserve_rehash( . &mut self, . additional: usize, . hasher: impl Fn(&T) -> u64, . fallibility: Fallibility, . ) -> Result<(), TryReserveError> { . unsafe { . self.table.reserve_rehash_inner( . additional, -- line 687 ---------------------------------------- -- line 690 ---------------------------------------- . TableLayout::new::(), . if mem::needs_drop::() { . Some(mem::transmute(ptr::drop_in_place:: as unsafe fn(*mut T))) . } else { . None . }, . ) . } 3,560,816 ( 0.01%) } . . /// Allocates a new table of a different size and moves the contents of the . /// current table into it. . fn resize( . &mut self, . capacity: usize, . hasher: impl Fn(&T) -> u64, . fallibility: Fallibility, -- line 706 ---------------------------------------- -- line 714 ---------------------------------------- . ) . } . } . . /// Inserts a new element into the table, and returns its raw bucket. . /// . /// This does not check if the given element already exists in the table. . #[cfg_attr(feature = "inline-more", inline)] 17,717,546 ( 0.06%) pub fn insert(&mut self, hash: u64, value: T, hasher: impl Fn(&T) -> u64) -> Bucket { . unsafe { . let mut index = self.table.find_insert_slot(hash); . . // We can avoid growing the table once we have reached our load . // factor if we are replacing a tombstone. This works since the . // number of EMPTY slots does not change in this case. 48,868 ( 0.00%) let old_ctrl = *self.table.ctrl(index); 11,714,832 ( 0.04%) if unlikely(self.table.growth_left == 0 && special_is_empty(old_ctrl)) { . self.reserve(1, hasher); . index = self.table.find_insert_slot(hash); . } . . self.table.record_item_insert_at(index, old_ctrl, hash); . . let bucket = self.bucket(index); 4 ( 0.00%) bucket.write(value); . bucket . } 13,048,509 ( 0.04%) } . . /// Attempts to insert a new element without growing the table and return its raw bucket. . /// . /// Returns an `Err` containing the given element if inserting it would require growing the . /// table. . /// . /// This does not check if the given element already exists in the table. . #[cfg(feature = "raw")] -- line 749 ---------------------------------------- -- line 760 ---------------------------------------- . } . } . } . . /// Inserts a new element into the table, and returns a mutable reference to it. . /// . /// This does not check if the given element already exists in the table. . #[cfg_attr(feature = "inline-more", inline)] 2,652,848 ( 0.01%) pub fn insert_entry(&mut self, hash: u64, value: T, hasher: impl Fn(&T) -> u64) -> &mut T { 198 ( 0.00%) unsafe { self.insert(hash, value, hasher).as_mut() } 1,989,636 ( 0.01%) } . . /// Inserts a new element into the table, without growing the table. . /// . /// There must be enough space in the table to insert the new element. . /// . /// This does not check if the given element already exists in the table. . #[cfg_attr(feature = "inline-more", inline)] . #[cfg(any(feature = "raw", feature = "rustc-internal-api"))] 19,646 ( 0.00%) pub unsafe fn insert_no_grow(&mut self, hash: u64, value: T) -> Bucket { 2,710,478 ( 0.01%) let (index, old_ctrl) = self.table.prepare_insert_slot(hash); 97,358 ( 0.00%) let bucket = self.table.bucket(index); . . // If we are replacing a DELETED entry then we don't need to update . // the load counter. 5,678,479 ( 0.02%) self.table.growth_left -= special_is_empty(old_ctrl) as usize; . . bucket.write(value); 4,545,149 ( 0.01%) self.table.items += 1; . bucket 38,167 ( 0.00%) } . . /// Temporary removes a bucket, applying the given function to the removed . /// element and optionally put back the returned value in the same bucket. . /// . /// Returns `true` if the bucket still contains an element . /// . /// This does not check if the given bucket is actually occupied. . #[cfg_attr(feature = "inline-more", inline)] -- line 798 ---------------------------------------- -- line 813 ---------------------------------------- . true . } else { . false . } . } . . /// Searches for an element in the table. . #[inline] 228,321 ( 0.00%) pub fn find(&self, hash: u64, mut eq: impl FnMut(&T) -> bool) -> Option> { 123,113 ( 0.00%) let result = self.table.find_inner(hash, &mut |index| unsafe { 229,226 ( 0.00%) eq(self.bucket(index).as_ref()) 36,855 ( 0.00%) }); . . // Avoid `Option::map` because it bloats LLVM IR. . match result { 13,129 ( 0.00%) Some(index) => Some(unsafe { self.bucket(index) }), . None => None, . } 255,144 ( 0.00%) } . . /// Gets a reference to an element in the table. . #[inline] . pub fn get(&self, hash: u64, eq: impl FnMut(&T) -> bool) -> Option<&T> { . // Avoid `Option::map` because it bloats LLVM IR. 579,568 ( 0.00%) match self.find(hash, eq) { . Some(bucket) => Some(unsafe { bucket.as_ref() }), . None => None, . } . } . . /// Gets a mutable reference to an element in the table. . #[inline] 8,827 ( 0.00%) pub fn get_mut(&mut self, hash: u64, eq: impl FnMut(&T) -> bool) -> Option<&mut T> { . // Avoid `Option::map` because it bloats LLVM IR. 114,829 ( 0.00%) match self.find(hash, eq) { . Some(bucket) => Some(unsafe { bucket.as_mut() }), . None => None, . } 10,088 ( 0.00%) } . . /// Attempts to get mutable references to `N` entries in the table at once. . /// . /// Returns an array of length `N` with the results of each query. . /// . /// At most one mutable reference will be returned to any entry. `None` will be returned if any . /// of the hashes are duplicates. `None` will be returned if the hash is not found. . /// -- line 859 ---------------------------------------- -- line 920 ---------------------------------------- . #[inline] . pub fn len(&self) -> usize { . self.table.items . } . . /// Returns `true` if the table contains no elements. . #[inline] . pub fn is_empty(&self) -> bool { 7,338,309 ( 0.02%) self.len() == 0 . } . . /// Returns the number of buckets in the table. . #[inline] . pub fn buckets(&self) -> usize { . self.table.bucket_mask + 1 . } . . /// Returns an iterator over every element in the table. It is up to . /// the caller to ensure that the `RawTable` outlives the `RawIter`. . /// Because we cannot make the `next` method unsafe on the `RawIter` . /// struct, we have to make the `iter` method unsafe. . #[inline] . pub unsafe fn iter(&self) -> RawIter { 11 ( 0.00%) let data = Bucket::from_base_index(self.data_end(), 0); . RawIter { . iter: RawIterRange::new(self.table.ctrl.as_ptr(), data, self.table.buckets()), 1,084,476 ( 0.00%) items: self.table.items, . } . } . . /// Returns an iterator over occupied buckets that could match a given hash. . /// . /// `RawTable` only stores 7 bits of the hash value, so this iterator may . /// return items that have a hash value different than the one provided. You . /// should always validate the returned values before using them. -- line 954 ---------------------------------------- -- line 995 ---------------------------------------- . /// Iteration starts at the provided iterator's current location. . /// . /// It is up to the caller to ensure that the iterator is valid for this . /// `RawTable` and covers all items that remain in the table. . pub unsafe fn into_iter_from(self, iter: RawIter) -> RawIntoIter { . debug_assert_eq!(iter.len(), self.len()); . . let alloc = self.table.alloc.clone(); 92,612 ( 0.00%) let allocation = self.into_allocation(); 69,459 ( 0.00%) RawIntoIter { 115,765 ( 0.00%) iter, . allocation, . marker: PhantomData, . alloc, . } . } . . /// Converts the table into a raw allocation. The contents of the table . /// should be dropped using a `RawIter` before freeing the allocation. . #[cfg_attr(feature = "inline-more", inline)] . pub(crate) fn into_allocation(self) -> Option<(NonNull, Layout)> { 44,760 ( 0.00%) let alloc = if self.table.is_empty_singleton() { . None . } else { . // Avoid `Option::unwrap_or_else` because it bloats LLVM IR. . let (layout, ctrl_offset) = match calculate_layout::(self.table.buckets()) { . Some(lco) => lco, . None => unsafe { hint::unreachable_unchecked() }, . }; . Some(( 5,361 ( 0.00%) unsafe { NonNull::new_unchecked(self.table.ctrl.as_ptr().sub(ctrl_offset)) }, . layout, . )) . }; . mem::forget(self); . alloc . } . } . -- line 1033 ---------------------------------------- -- line 1042 ---------------------------------------- . T: Sync, . A: Sync, . { . } . . impl RawTableInner { . #[inline] . const fn new_in(alloc: A) -> Self { 6,680,592 ( 0.02%) Self { . // Be careful to cast the entire slice to a raw pointer. . ctrl: unsafe { NonNull::new_unchecked(Group::static_empty() as *const _ as *mut u8) }, . bucket_mask: 0, . items: 0, . growth_left: 0, . alloc, . } . } . } . . impl RawTableInner { . #[cfg_attr(feature = "inline-more", inline)] 4,425,254 ( 0.01%) unsafe fn new_uninitialized( . alloc: A, . table_layout: TableLayout, . buckets: usize, . fallibility: Fallibility, . ) -> Result { . debug_assert!(buckets.is_power_of_two()); . . // Avoid `Option::ok_or_else` because it bloats LLVM IR. -- line 1071 ---------------------------------------- -- line 1078 ---------------------------------------- . // exceed `isize::MAX`. We can skip this check on 64-bit systems since . // such allocations will never succeed anyways. . // . // This mirrors what Vec does in the standard library. . if mem::size_of::() < 8 && layout.size() > isize::MAX as usize { . return Err(fallibility.capacity_overflow()); . } . 1,008,818 ( 0.00%) let ptr: NonNull = match do_alloc(&alloc, layout) { . Ok(block) => block.cast(), . Err(_) => return Err(fallibility.alloc_err(layout)), . }; . . let ctrl = NonNull::new_unchecked(ptr.as_ptr().add(ctrl_offset)); 2,427,378 ( 0.01%) Ok(Self { . ctrl, 989,735 ( 0.00%) bucket_mask: buckets - 1, . items: 0, . growth_left: bucket_mask_to_capacity(buckets - 1), . alloc, . }) 3,219,878 ( 0.01%) } . . #[inline] 273,575 ( 0.00%) fn fallible_with_capacity( . alloc: A, . table_layout: TableLayout, . capacity: usize, . fallibility: Fallibility, . ) -> Result { 73,196 ( 0.00%) if capacity == 0 { 54,833 ( 0.00%) Ok(Self::new_in(alloc)) . } else { . unsafe { . let buckets = . capacity_to_buckets(capacity).ok_or_else(|| fallibility.capacity_overflow())?; . 2,012,110 ( 0.01%) let result = Self::new_uninitialized(alloc, table_layout, buckets, fallibility)?; . result.ctrl(0).write_bytes(EMPTY, result.num_ctrl_bytes()); . 146,117 ( 0.00%) Ok(result) . } . } 273,575 ( 0.00%) } . . /// Searches for an empty or deleted bucket which is suitable for inserting . /// a new element and sets the hash for that slot. . /// . /// There must be at least 1 empty bucket in the table. . #[inline] 954,955 ( 0.00%) unsafe fn prepare_insert_slot(&self, hash: u64) -> (usize, u8) { . let index = self.find_insert_slot(hash); 954,955 ( 0.00%) let old_ctrl = *self.ctrl(index); . self.set_ctrl_h2(index, hash); . (index, old_ctrl) 1,909,910 ( 0.01%) } . . /// Searches for an empty or deleted bucket which is suitable for inserting . /// a new element. . /// . /// There must be at least 1 empty bucket in the table. . #[inline] . fn find_insert_slot(&self, hash: u64) -> usize { . let mut probe_seq = self.probe_seq(hash); . loop { . unsafe { . let group = Group::load(self.ctrl(probe_seq.pos)); 7,788,689 ( 0.02%) if let Some(bit) = group.match_empty_or_deleted().lowest_set_bit() { 22,927,727 ( 0.07%) let result = (probe_seq.pos + bit) & self.bucket_mask; . . // In tables smaller than the group width, trailing control . // bytes outside the range of the table are filled with . // EMPTY entries. These will unfortunately trigger a . // match, but once masked may point to a full bucket that . // is already occupied. We detect this situation here and . // perform a second scan starting at the beginning of the . // table. This second scan is guaranteed to find an empty . // slot (due to the load factor) before hitting the trailing . // control bytes (containing EMPTY). 10,563,994 ( 0.03%) if unlikely(is_full(*self.ctrl(result))) { . debug_assert!(self.bucket_mask < Group::WIDTH); . debug_assert_ne!(probe_seq.pos, 0); . return Group::load_aligned(self.ctrl(0)) . .match_empty_or_deleted() . .lowest_set_bit_nonzero(); . } . . return result; -- line 1165 ---------------------------------------- -- line 1171 ---------------------------------------- . . /// Searches for an element in the table. This uses dynamic dispatch to reduce the amount of . /// code generated, but it is eliminated by LLVM optimizations. . #[inline] . fn find_inner(&self, hash: u64, eq: &mut dyn FnMut(usize) -> bool) -> Option { . let h2_hash = h2(hash); . let mut probe_seq = self.probe_seq(hash); . 653,012 ( 0.00%) loop { . let group = unsafe { Group::load(self.ctrl(probe_seq.pos)) }; . 28,017,145 ( 0.09%) for bit in group.match_byte(h2_hash) { 54,288,672 ( 0.17%) let index = (probe_seq.pos + bit) & self.bucket_mask; . 37,921,324 ( 0.12%) if likely(eq(index)) { . return Some(index); . } . } . 8,447,549 ( 0.03%) if likely(group.match_empty().any_bit_set()) { . return None; . } . . probe_seq.move_next(self.bucket_mask); . } . } . . #[allow(clippy::mut_mut)] . #[inline] . unsafe fn prepare_rehash_in_place(&mut self) { . // Bulk convert all full control bytes to DELETED, and all DELETED . // control bytes to EMPTY. This effectively frees up all buckets . // containing a DELETED entry. 3 ( 0.00%) for i in (0..self.buckets()).step_by(Group::WIDTH) { . let group = Group::load_aligned(self.ctrl(i)); . let group = group.convert_special_to_empty_and_full_to_deleted(); . group.store_aligned(self.ctrl(i)); . } . . // Fix up the trailing control bytes. See the comments in set_ctrl . // for the handling of tables smaller than the group width. 3 ( 0.00%) if self.buckets() < Group::WIDTH { . self.ctrl(0) . .copy_to(self.ctrl(Group::WIDTH), self.buckets()); . } else { . self.ctrl(0) . .copy_to(self.ctrl(self.buckets()), Group::WIDTH); . } . } . -- line 1220 ---------------------------------------- -- line 1225 ---------------------------------------- . Bucket::from_base_index(self.data_end(), index) . } . . #[inline] . unsafe fn bucket_ptr(&self, index: usize, size_of: usize) -> *mut u8 { . debug_assert_ne!(self.bucket_mask, 0); . debug_assert!(index < self.buckets()); . let base: *mut u8 = self.data_end().as_ptr(); 26,675,224 ( 0.08%) base.sub((index + 1) * size_of) . } . . #[inline] . unsafe fn data_end(&self) -> NonNull { . NonNull::new_unchecked(self.ctrl.as_ptr().cast()) . } . . /// Returns an iterator-like object for a probe sequence on the table. . /// . /// This iterator never terminates, but is guaranteed to visit each bucket . /// group exactly once. The loop using `probe_seq` must terminate upon . /// reaching a group containing an empty bucket. . #[inline] . fn probe_seq(&self, hash: u64) -> ProbeSeq { . ProbeSeq { 154,889,953 ( 0.48%) pos: h1(hash) & self.bucket_mask, . stride: 0, . } . } . . /// Returns the index of a bucket for which a value must be inserted if there is enough rooom . /// in the table, otherwise returns error . #[cfg(feature = "raw")] . #[inline] -- line 1257 ---------------------------------------- -- line 1263 ---------------------------------------- . } else { . self.record_item_insert_at(index, old_ctrl, hash); . Ok(index) . } . } . . #[inline] . unsafe fn record_item_insert_at(&mut self, index: usize, old_ctrl: u8, hash: u64) { 14,635,368 ( 0.05%) self.growth_left -= special_is_empty(old_ctrl) as usize; . self.set_ctrl_h2(index, hash); 11,708,244 ( 0.04%) self.items += 1; . } . . #[inline] . fn is_in_same_group(&self, i: usize, new_i: usize, hash: u64) -> bool { . let probe_seq_pos = self.probe_seq(hash).pos; . let probe_index = . |pos: usize| (pos.wrapping_sub(probe_seq_pos) & self.bucket_mask) / Group::WIDTH; 30 ( 0.00%) probe_index(i) == probe_index(new_i) . } . . /// Sets a control byte to the hash, and possibly also the replicated control byte at . /// the end of the array. . #[inline] . unsafe fn set_ctrl_h2(&self, index: usize, hash: u64) { . self.set_ctrl(index, h2(hash)); . } . . #[inline] . unsafe fn replace_ctrl_h2(&self, index: usize, hash: u64) -> u8 { 1 ( 0.00%) let prev_ctrl = *self.ctrl(index); . self.set_ctrl_h2(index, hash); . prev_ctrl . } . . /// Sets a control byte, and possibly also the replicated control byte at . /// the end of the array. . #[inline] . unsafe fn set_ctrl(&self, index: usize, ctrl: u8) { -- line 1301 ---------------------------------------- -- line 1312 ---------------------------------------- . // replicate the buckets at the end of the trailing group. For example . // with 2 buckets and a group size of 4, the control bytes will look . // like this: . // . // Real | Replicated . // --------------------------------------------- . // | [A] | [B] | [EMPTY] | [EMPTY] | [A] | [B] | . // --------------------------------------------- 21,713,667 ( 0.07%) let index2 = ((index.wrapping_sub(Group::WIDTH)) & self.bucket_mask) + Group::WIDTH; . 7,235,221 ( 0.02%) *self.ctrl(index) = ctrl; 7,239,047 ( 0.02%) *self.ctrl(index2) = ctrl; . } . . /// Returns a pointer to a control byte. . #[inline] . unsafe fn ctrl(&self, index: usize) -> *mut u8 { . debug_assert!(index < self.num_ctrl_bytes()); . self.ctrl.as_ptr().add(index) . } . . #[inline] . fn buckets(&self) -> usize { 3,091,986 ( 0.01%) self.bucket_mask + 1 . } . . #[inline] . fn num_ctrl_bytes(&self) -> usize { 2,420,602 ( 0.01%) self.bucket_mask + 1 + Group::WIDTH . } . . #[inline] . fn is_empty_singleton(&self) -> bool { 12,206,867 ( 0.04%) self.bucket_mask == 0 . } . . #[allow(clippy::mut_mut)] . #[inline] . unsafe fn prepare_resize( . &self, . table_layout: TableLayout, . capacity: usize, . fallibility: Fallibility, . ) -> Result, TryReserveError> { . debug_assert!(self.items <= capacity); . . // Allocate and initialize the new table. 52,839 ( 0.00%) let mut new_table = RawTableInner::fallible_with_capacity( . self.alloc.clone(), . table_layout, . capacity, . fallibility, . )?; 1,274,453 ( 0.00%) new_table.growth_left -= self.items; . new_table.items = self.items; . . // The hash function may panic, in which case we simply free the new . // table without dropping any elements that may have been copied into . // it. . // . // This guard is also used to free the old table on success, see . // the comment at the bottom of this function. . Ok(guard(new_table, move |self_| { 578,217 ( 0.00%) if !self_.is_empty_singleton() { . self_.free_buckets(table_layout); . } . })) . } . . /// Reserves or rehashes to make room for `additional` more elements. . /// . /// This uses dynamic dispatch to reduce the amount of -- line 1383 ---------------------------------------- -- line 1388 ---------------------------------------- . &mut self, . additional: usize, . hasher: &dyn Fn(&mut Self, usize) -> u64, . fallibility: Fallibility, . layout: TableLayout, . drop: Option, . ) -> Result<(), TryReserveError> { . // Avoid `Option::ok_or_else` because it bloats LLVM IR. 1,156,444 ( 0.00%) let new_items = match self.items.checked_add(additional) { . Some(new_items) => new_items, . None => return Err(fallibility.capacity_overflow()), . }; 1,156,436 ( 0.00%) let full_capacity = bucket_mask_to_capacity(self.bucket_mask); 2,433,323 ( 0.01%) if new_items <= full_capacity / 2 { . // Rehash in-place without re-allocating if we have plenty of spare . // capacity that is locked up due to DELETED entries. . self.rehash_in_place(hasher, layout.size, drop); 2 ( 0.00%) Ok(()) . } else { . // Otherwise, conservatively resize to at least the next size up . // to avoid churning deletes into frequent rehashes. . self.resize_inner( 578,217 ( 0.00%) usize::max(new_items, full_capacity + 1), . hasher, . fallibility, . layout, . ) . } . } . . /// Allocates a new table of a different size and moves the contents of the -- line 1418 ---------------------------------------- -- line 1424 ---------------------------------------- . #[inline(always)] . unsafe fn resize_inner( . &mut self, . capacity: usize, . hasher: &dyn Fn(&mut Self, usize) -> u64, . fallibility: Fallibility, . layout: TableLayout, . ) -> Result<(), TryReserveError> { 131,858 ( 0.00%) let mut new_table = self.prepare_resize(layout, capacity, fallibility)?; . . // Copy all elements to the new table. . for i in 0..self.buckets() { 4,295,737 ( 0.01%) if !is_full(*self.ctrl(i)) { . continue; . } . . // This may panic. . let hash = hasher(self, i); . . // We can use a simpler version of insert() here since: . // - there are no DELETED entries. -- line 1444 ---------------------------------------- -- line 1454 ---------------------------------------- . } . . // We successfully copied all elements without panicking. Now replace . // self with the new table. The old table will have its memory freed but . // the items will not be dropped (since they have been moved into the . // new table). . mem::swap(self, &mut new_table); . 578,217 ( 0.00%) Ok(()) . } . . /// Rehashes the contents of the table in place (i.e. without changing the . /// allocation). . /// . /// If `hasher` panics then some the table's contents may be lost. . /// . /// This uses dynamic dispatch to reduce the amount of -- line 1470 ---------------------------------------- -- line 1496 ---------------------------------------- . } . self_.growth_left = bucket_mask_to_capacity(self_.bucket_mask) - self_.items; . }); . . // At this point, DELETED elements are elements that we haven't . // rehashed yet. Find them and re-insert them at their ideal . // position. . 'outer: for i in 0..guard.buckets() { 64 ( 0.00%) if *guard.ctrl(i) != DELETED { . continue; . } . . let i_p = guard.bucket_ptr(i, size_of); . . 'inner: loop { . // Hash the current item . let hash = hasher(*guard, i); -- line 1512 ---------------------------------------- -- line 1515 ---------------------------------------- . let new_i = guard.find_insert_slot(hash); . let new_i_p = guard.bucket_ptr(new_i, size_of); . . // Probing works by scanning through all of the control . // bytes in groups, which may not be aligned to the group . // size. If both the new and old position fall within the . // same unaligned group, then there is no benefit in moving . // it and we can just continue to the next item. 10 ( 0.00%) if likely(guard.is_in_same_group(i, new_i, hash)) { . guard.set_ctrl_h2(i, hash); . continue 'outer; . } . . // We are moving the current item to a new position. Write . // our H2 to the control byte of the new position. . let prev_ctrl = guard.replace_ctrl_h2(new_i, hash); 2 ( 0.00%) if prev_ctrl == EMPTY { . guard.set_ctrl(i, EMPTY); . // If the target slot is empty, simply move the current . // element into the new slot and clear the old control . // byte. . ptr::copy_nonoverlapping(i_p, new_i_p, size_of); . continue 'outer; . } else { . // If the target slot is occupied, swap the two elements -- line 1539 ---------------------------------------- -- line 1541 ---------------------------------------- . // swapped into the old slot. . debug_assert_eq!(prev_ctrl, DELETED); . ptr::swap_nonoverlapping(i_p, new_i_p, size_of); . continue 'inner; . } . } . } . 3 ( 0.00%) guard.growth_left = bucket_mask_to_capacity(guard.bucket_mask) - guard.items; . . mem::forget(guard); . } . . #[inline] . unsafe fn free_buckets(&mut self, table_layout: TableLayout) { . // Avoid `Option::unwrap_or_else` because it bloats LLVM IR. . let (layout, ctrl_offset) = match table_layout.calculate_layout_for(self.buckets()) { . Some(lco) => lco, . None => hint::unreachable_unchecked(), . }; . self.alloc.deallocate( 407,313 ( 0.00%) NonNull::new_unchecked(self.ctrl.as_ptr().sub(ctrl_offset)), . layout, . ); . } . . /// Marks all table buckets as empty without dropping their contents. . #[inline] . fn clear_no_drop(&mut self) { 100,861 ( 0.00%) if !self.is_empty_singleton() { . unsafe { . self.ctrl(0).write_bytes(EMPTY, self.num_ctrl_bytes()); . } . } 137,864 ( 0.00%) self.items = 0; 100,950 ( 0.00%) self.growth_left = bucket_mask_to_capacity(self.bucket_mask); . } . . #[inline] . unsafe fn erase(&mut self, index: usize) { . debug_assert!(is_full(*self.ctrl(index))); 858,766 ( 0.00%) let index_before = index.wrapping_sub(Group::WIDTH) & self.bucket_mask; . let empty_before = Group::load(self.ctrl(index_before)).match_empty(); . let empty_after = Group::load(self.ctrl(index)).match_empty(); . . // If we are inside a continuous block of Group::WIDTH full or deleted . // cells then a probe window may have seen a full block when trying to . // insert. We therefore need to keep that block non-empty so that . // lookups will continue searching to the next probe window. . // . // Note that in this context `leading_zeros` refers to the bytes at the . // end of a group, while `trailing_zeros` refers to the bytes at the . // beginning of a group. 3,435,064 ( 0.01%) let ctrl = if empty_before.leading_zeros() + empty_after.trailing_zeros() >= Group::WIDTH { . DELETED . } else { 4,234,620 ( 0.01%) self.growth_left += 1; . EMPTY . }; . self.set_ctrl(index, ctrl); 3,435,064 ( 0.01%) self.items -= 1; . } . } . . impl Clone for RawTable { 137,648 ( 0.00%) fn clone(&self) -> Self { 17,439 ( 0.00%) if self.table.is_empty_singleton() { . Self::new_in(self.table.alloc.clone()) . } else { . unsafe { . let mut new_table = ManuallyDrop::new( . // Avoid `Result::ok_or_else` because it bloats LLVM IR. . match Self::new_uninitialized( . self.table.alloc.clone(), . self.table.buckets(), -- line 1615 ---------------------------------------- -- line 1624 ---------------------------------------- . // We need to free the memory allocated for the new table. . new_table.free_buckets(); . }); . . // Return the newly created table. . ManuallyDrop::into_inner(new_table) . } . } 154,854 ( 0.00%) } . . fn clone_from(&mut self, source: &Self) { . if source.table.is_empty_singleton() { . *self = Self::new_in(self.table.alloc.clone()); . } else { . unsafe { . // First, drop all our elements without clearing the control bytes. . self.drop_elements(); -- line 1640 ---------------------------------------- -- line 1687 ---------------------------------------- . .table . .ctrl(0) . .copy_to_nonoverlapping(self.table.ctrl(0), self.table.num_ctrl_bytes()); . source . .data_start() . .copy_to_nonoverlapping(self.data_start(), self.table.buckets()); . . self.table.items = source.table.items; 390 ( 0.00%) self.table.growth_left = source.table.growth_left; . } . } . . impl RawTable { . /// Common code for clone and clone_from. Assumes `self.buckets() == source.buckets()`. . #[cfg_attr(feature = "inline-more", inline)] . unsafe fn clone_from_impl(&mut self, source: &Self, mut on_panic: impl FnMut(&mut Self)) { . // Copy the control bytes unchanged. We do this in a single pass -- line 1703 ---------------------------------------- -- line 1732 ---------------------------------------- . // Update the index in case we need to unwind. . guard.0 = index; . } . . // Successfully cloned all items, no need to clean up. . mem::forget(guard); . . self.table.items = source.table.items; 30 ( 0.00%) self.table.growth_left = source.table.growth_left; . } . . /// Variant of `clone_from` to use when a hasher is available. . #[cfg(feature = "raw")] . pub fn clone_from_with_hasher(&mut self, source: &Self, hasher: impl Fn(&T) -> u64) { . // If we have enough capacity in the table, just clear it and insert . // elements one by one. We don't do this if we have the same number of . // buckets as the source since we can just copy the contents directly -- line 1748 ---------------------------------------- -- line 1790 ---------------------------------------- . fn default() -> Self { . Self::new_in(Default::default()) . } . } . . #[cfg(feature = "nightly")] . unsafe impl<#[may_dangle] T, A: Allocator + Clone> Drop for RawTable { . #[cfg_attr(feature = "inline-more", inline)] 6,805,097 ( 0.02%) fn drop(&mut self) { 5,286,767 ( 0.02%) if !self.table.is_empty_singleton() { . unsafe { . self.drop_elements(); . self.free_buckets(); . } . } 7,310,126 ( 0.02%) } . } . #[cfg(not(feature = "nightly"))] . impl Drop for RawTable { . #[cfg_attr(feature = "inline-more", inline)] . fn drop(&mut self) { . if !self.table.is_empty_singleton() { . unsafe { . self.drop_elements(); -- line 1813 ---------------------------------------- -- line 1817 ---------------------------------------- . } . } . . impl IntoIterator for RawTable { . type Item = T; . type IntoIter = RawIntoIter; . . #[cfg_attr(feature = "inline-more", inline)] 92,612 ( 0.00%) fn into_iter(self) -> RawIntoIter { . unsafe { . let iter = self.iter(); . self.into_iter_from(iter) . } 115,765 ( 0.00%) } . } . . /// Iterator over a sub-range of a table. Unlike `RawIter` this iterator does . /// not track an item count. . pub(crate) struct RawIterRange { . // Mask of full buckets in the current group. Bits are cleared from this . // mask as each element is processed. . current_group: BitMask, -- line 1838 ---------------------------------------- -- line 1934 ---------------------------------------- . . impl Iterator for RawIterRange { . type Item = Bucket; . . #[cfg_attr(feature = "inline-more", inline)] . fn next(&mut self) -> Option> { . unsafe { . loop { 2,146,916 ( 0.01%) if let Some(index) = self.current_group.lowest_set_bit() { 335,948 ( 0.00%) self.current_group = self.current_group.remove_lowest_bit(); 589,162 ( 0.00%) return Some(self.data.next_n(index)); . } . 2,092,424 ( 0.01%) if self.next_ctrl >= self.end { . return None; . } . . // We might read past self.end up to the next group boundary, . // but this is fine because it only occurs on tables smaller . // than the group size where the trailing control bytes are all . // EMPTY. On larger tables self.end is guaranteed to be aligned . // to the group size (since tables are power-of-two sized). 42,454 ( 0.00%) self.current_group = Group::load_aligned(self.next_ctrl).match_full(); 48,931 ( 0.00%) self.data = self.data.next_n(Group::WIDTH); 65,272 ( 0.00%) self.next_ctrl = self.next_ctrl.add(Group::WIDTH); . } . } . } . . #[inline] . fn size_hint(&self) -> (usize, Option) { . // We don't have an item count, so just guess based on the range size. . ( -- line 1966 ---------------------------------------- -- line 2102 ---------------------------------------- . } . } else { . // We must have already iterated past the removed item. . } . } . } . . unsafe fn drop_elements(&mut self) { 20,135 ( 0.00%) if mem::needs_drop::() && self.len() != 0 { . for item in self { . item.drop(); . } . } . } . } . . impl Clone for RawIter { -- line 2118 ---------------------------------------- -- line 2124 ---------------------------------------- . } . } . } . . impl Iterator for RawIter { . type Item = Bucket; . . #[cfg_attr(feature = "inline-more", inline)] 414,094 ( 0.00%) fn next(&mut self) -> Option> { 930,142 ( 0.00%) if let Some(b) = self.iter.next() { 3,194,287 ( 0.01%) self.items -= 1; . Some(b) . } else { . // We don't check against items == 0 here to allow the . // compiler to optimize away the item count entirely if the . // iterator length is never queried. . debug_assert_eq!(self.items, 0); . None . } 828,188 ( 0.00%) } . . #[inline] . fn size_hint(&self) -> (usize, Option) { . (self.items, Some(self.items)) . } . } . . impl ExactSizeIterator for RawIter {} -- line 2151 ---------------------------------------- -- line 2177 ---------------------------------------- . T: Sync, . A: Sync, . { . } . . #[cfg(feature = "nightly")] . unsafe impl<#[may_dangle] T, A: Allocator + Clone> Drop for RawIntoIter { . #[cfg_attr(feature = "inline-more", inline)] 26,974 ( 0.00%) fn drop(&mut self) { . unsafe { . // Drop all remaining elements . self.iter.drop_elements(); . . // Free the table 213,668 ( 0.00%) if let Some((ptr, layout)) = self.allocation { . self.alloc.deallocate(ptr, layout); . } . } 1,126 ( 0.00%) } . } . #[cfg(not(feature = "nightly"))] . impl Drop for RawIntoIter { . #[cfg_attr(feature = "inline-more", inline)] . fn drop(&mut self) { . unsafe { . // Drop all remaining elements . self.iter.drop_elements(); -- line 2203 ---------------------------------------- -- line 2209 ---------------------------------------- . } . } . } . . impl Iterator for RawIntoIter { . type Item = T; . . #[cfg_attr(feature = "inline-more", inline)] 18,318 ( 0.00%) fn next(&mut self) -> Option { 14,550 ( 0.00%) unsafe { Some(self.iter.next()?.read()) } 41,126 ( 0.00%) } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 62 ( 0.00%) self.iter.size_hint() . } . } . . impl ExactSizeIterator for RawIntoIter {} . impl FusedIterator for RawIntoIter {} . . /// Iterator which consumes elements without freeing the table storage. . pub struct RawDrain<'a, T, A: Allocator + Clone = Global> { -- line 2231 ---------------------------------------- -- line 2259 ---------------------------------------- . where . T: Sync, . A: Sync, . { . } . . impl Drop for RawDrain<'_, T, A> { . #[cfg_attr(feature = "inline-more", inline)] 26,528 ( 0.00%) fn drop(&mut self) { . unsafe { . // Drop all remaining elements. Note that this may panic. . self.iter.drop_elements(); . . // Reset the contents of the table now that all elements have been . // dropped. . self.table.clear_no_drop(); . . // Move the now empty table back to its original location. 3,316 ( 0.00%) self.orig_table . .as_ptr() . .copy_from_nonoverlapping(&*self.table, 1); . } 26,528 ( 0.00%) } . } . . impl Iterator for RawDrain<'_, T, A> { . type Item = T; . . #[cfg_attr(feature = "inline-more", inline)] . fn next(&mut self) -> Option { . unsafe { -- line 2289 ---------------------------------------- 84,490,230 ( 0.26%) -------------------------------------------------------------------------------- The following files chosen for auto-annotation could not be found: -------------------------------------------------------------------------------- ./malloc/malloc.c ./string/../sysdeps/x86_64/multiarch/memcmp-avx2-movbe.S ./string/../sysdeps/x86_64/multiarch/memmove-vec-unaligned-erms.S ./string/../sysdeps/x86_64/multiarch/memset-vec-unaligned-erms.S ./string/../sysdeps/x86_64/multiarch/strcmp-avx2.S ./string/../sysdeps/x86_64/multiarch/strlen-avx2.S /tmp/gcc-build/x86_64-unknown-linux-gnu/libstdc++-v3/libsupc++/../../../../gcc-5.5.0/libstdc++-v3/libsupc++/new_op.cc -------------------------------------------------------------------------------- Ir -------------------------------------------------------------------------------- 2,765,383,153 ( 8.60%) events annotated