-------------------------------------------------------------------------------- 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 secrecy --edition=2018 src/lib.rs --error-format=json --json=diagnostic-rendered-ansi,artifacts,future-incompat --crate-type lib --emit=dep-info,metadata -C embed-bitcode=no -C debuginfo=2 --cfg feature="alloc" --cfg feature="default" -C metadata=9e98e9e1a8c9be5d -C extra-filename=-9e98e9e1a8c9be5d --out-dir /usr/home/liquid/tmp/.tmpqUjrWE/target/debug/deps -L dependency=/usr/home/liquid/tmp/.tmpqUjrWE/target/debug/deps --extern zeroize=/usr/home/liquid/tmp/.tmpqUjrWE/target/debug/deps/libzeroize-9944ddae15f7d40d.rmeta -Adeprecated -Aunknown-lints -Zincremental-verify-ich Data file: results/cgout-w-profiling-secrecy-0.8.0-Check-Full Events recorded: Ir Events shown: Ir Event sort order: Ir Thresholds: 0.1 Include dirs: User annotated: Auto-annotation: on -------------------------------------------------------------------------------- Ir -------------------------------------------------------------------------------- 300,943,774 (100.0%) PROGRAM TOTALS -------------------------------------------------------------------------------- Ir file:function -------------------------------------------------------------------------------- 10,305,124 ( 3.42%) ./elf/dl-lookup.c:_dl_lookup_symbol_x 8,997,976 ( 2.99%) ./malloc/malloc.c:_int_free 5,807,629 ( 1.93%) ./malloc/malloc.c:_int_malloc 5,016,042 ( 1.67%) ./malloc/malloc.c:malloc 4,835,679 ( 1.61%) ./elf/dl-lookup.c:do_lookup_x 4,141,271 ( 1.38%) ./elf/../sysdeps/x86_64/dl-machine.h:_dl_relocate_object 3,840,523 ( 1.28%) ./string/../sysdeps/x86_64/multiarch/memmove-vec-unaligned-erms.S:__memcpy_avx_unaligned_erms 2,759,859 ( 0.92%) ./malloc/malloc.c:free 2,436,520 ( 0.81%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:, (), core::hash::BuildHasherDefault>>::from_hash::>::{closure#0}> 2,238,126 ( 0.74%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/opaque.rs:>::decode 2,176,185 ( 0.72%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/undo_log.rs:::rollback_to 2,139,033 ( 0.71%) ./elf/do-rel.h:_dl_relocate_object 2,136,971 ( 0.71%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::shallow_resolve_ty 1,919,184 ( 0.64%) /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/vec/mod.rs:>::decode 1,867,036 ( 0.62%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/undo_log.rs:>::reverse 1,837,512 ( 0.61%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:>::decode 1,825,574 ( 0.61%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:::fold_ty 1,689,510 ( 0.56%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/mod.rs:>::decode 1,475,712 ( 0.49%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs:rustc_middle::ty::relate::super_relate_consts:: 1,418,140 ( 0.47%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:, (), core::hash::BuildHasherDefault>>::from_hash::, rustc_middle::ty::context::Interned>::{closure#0}> 1,362,217 ( 0.45%) ???:SetImpliedBits(llvm::FeatureBitset&, llvm::FeatureBitset const&, llvm::ArrayRef) 1,339,812 ( 0.45%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/type_variable.rs:::probe 1,330,317 ( 0.44%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/map.rs:>, (), core::hash::BuildHasherDefault>>::from_hash::>>::{closure#0}> 1,302,095 ( 0.43%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_metadata/src/rmeta/decoder.rs:>::decode 1,270,176 ( 0.42%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/equate.rs:::tys 1,244,422 ( 0.41%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs:::eq 1,210,015 ( 0.40%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs:::_intern_substs 1,169,971 ( 0.39%) ./malloc/malloc.c:realloc 1,154,208 ( 0.38%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:<&rustc_middle::ty::TyS as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 1,090,569 ( 0.36%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>, (), core::hash::BuildHasherDefault>>::from_hash::>>::{closure#0}> 1,088,802 ( 0.36%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/iter/macros.rs:::_intern_substs 1,083,835 ( 0.36%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/map.rs:, (), core::hash::BuildHasherDefault>>::from_hash::>::{closure#0}> 1,044,649 ( 0.35%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs:::intern_ty 1,043,096 ( 0.35%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/leb128.rs:::read_u32 985,600 ( 0.33%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts/kind.rs:::try_eval 984,354 ( 0.33%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/num/uint_macros.rs:::short_write_process_buffer:: 971,927 ( 0.32%) ./malloc/malloc.c:calloc 960,487 ( 0.32%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs:rustc_middle::ty::relate::super_relate_tys:: 939,934 ( 0.31%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/rustc-hash-1.1.0/src/lib.rs:<&str as core::hash::Hash>::hash:: 932,905 ( 0.31%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/select/mod.rs:::match_impl 895,376 ( 0.30%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/leb128.rs:::read_u32 872,478 ( 0.29%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:<&rustc_middle::ty::list::List as rustc_middle::ty::fold::TypeFoldable>::try_fold_with:: 864,856 ( 0.29%) ./elf/dl-lookup.c:check_match 845,152 ( 0.28%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/rustc-hash-1.1.0/src/lib.rs:::write 831,232 ( 0.28%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/structural_impls.rs:<&rustc_middle::ty::consts::Const as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 830,571 ( 0.28%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/iter/macros.rs:, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}> as core::iter::traits::iterator::Iterator>::fold::<(), core::iter::traits::iterator::Iterator::for_each::call as alloc::vec::spec_extend::SpecExtend, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}>>>::spec_extend::{closure#0}>::{closure#0}> 828,504 ( 0.28%) ./malloc/malloc.c:_int_realloc 827,755 ( 0.28%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/iter/macros.rs:::new_imported_source_file 825,852 ( 0.27%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:::new_imported_source_file 817,413 ( 0.27%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/type_variable.rs:>::reverse 775,980 ( 0.26%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/type_variable.rs:::new_var 763,126 ( 0.25%) /usr/home/liquid/rust/worktree-benchmarking/library/std/src/sys/unix/alloc.rs:__rdl_alloc 762,160 ( 0.25%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>>::from_key_hashed_nocheck:: 755,696 ( 0.25%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs:::hash:: 725,760 ( 0.24%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs:::try_to_machine_usize 716,168 ( 0.24%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/structural_impls.rs:<&rustc_middle::ty::TyS as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 703,578 ( 0.23%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:<&rustc_middle::ty::list::List as rustc_middle::ty::fold::TypeFoldable>::try_fold_with:: 666,228 ( 0.22%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:<&rustc_middle::ty::list::List as rustc_middle::ty::fold::TypeFoldable>::try_fold_with:: 660,312 ( 0.22%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_data_structures/src/sip128.rs:::short_write_process_buffer:: 651,456 ( 0.22%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/combine.rs:::super_combine_consts:: 637,530 ( 0.21%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/project.rs:rustc_trait_selection::traits::project::normalize:: 635,223 ( 0.21%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:, rustc_query_system::dep_graph::graph::DepNodeIndex), core::hash::BuildHasherDefault>>::from_key_hashed_nocheck:: 623,724 ( 0.21%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/combine.rs:::instantiate 617,123 ( 0.21%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs:::intern_predicate 610,363 ( 0.20%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/map.rs:, (), core::hash::BuildHasherDefault>>::from_hash::, rustc_middle::ty::context::Interned>::{closure#0}> 608,134 ( 0.20%) ./malloc/malloc.c:unlink_chunk.constprop.0 604,587 ( 0.20%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fast_reject.rs:rustc_middle::ty::fast_reject::simplify_type 599,574 ( 0.20%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:<&rustc_middle::ty::list::List as rustc_middle::ty::fold::TypeFoldable>::try_fold_with:: 599,168 ( 0.20%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_metadata/src/rmeta/decoder.rs:, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}> as core::iter::traits::iterator::Iterator>::fold::<(), core::iter::traits::iterator::Iterator::for_each::call as alloc::vec::spec_extend::SpecExtend, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}>>>::spec_extend::{closure#0}>::{closure#0}> 591,376 ( 0.20%) ./malloc/malloc.c:malloc_consolidate 586,818 ( 0.19%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::commit_if_ok::, rustc_middle::ty::error::TypeError, ::eq::{closure#0}> 580,608 ( 0.19%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts/kind.rs:::try_eval_usize 580,347 ( 0.19%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs:::reuse_or_mk_predicate 577,269 ( 0.19%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:)>>::remove_entry::>::{closure#0}> 570,947 ( 0.19%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:::try_fold_with:: 564,900 ( 0.19%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/coherence.rs:rustc_trait_selection::traits::coherence::with_fresh_ty_vars 550,926 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}> as core::iter::traits::iterator::Iterator>::fold::<(), core::iter::traits::iterator::Iterator::for_each::call as alloc::vec::spec_extend::SpecExtend, >::decode::{closure#0}>, ::imported_source_files::{closure#3}::{closure#0}>>>::spec_extend::{closure#0}>::{closure#0}> 550,724 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:<&rustc_middle::ty::TyS as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 546,629 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:::try_fold_with:: 539,964 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/raw_vec.rs:alloc::raw_vec::finish_grow:: 537,856 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:<&rustc_middle::ty::consts::Const as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 533,685 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs:, (), core::hash::BuildHasherDefault>>::from_hash::>::{closure#0}> 530,903 ( 0.18%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:::hash:: 530,460 ( 0.18%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/unify/mod.rs:>, &mut rustc_infer::infer::undo_log::InferCtxtUndoLogs>>>::uninlined_get_root_key 529,040 ( 0.18%) ./string/../sysdeps/x86_64/strcmp.S:strcmp 528,981 ( 0.18%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>>::from_key_hashed_nocheck:: 524,326 ( 0.17%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/stacker-0.1.14/src/lib.rs:stacker::remaining_stack 517,360 ( 0.17%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:::replace_bound_vars::::replace_bound_vars_with_placeholders::{closure#0}, ::replace_bound_vars_with_placeholders::{closure#1}, ::replace_bound_vars_with_placeholders::{closure#2}> 501,969 ( 0.17%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs:::hash:: 490,315 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::var_for_def 481,540 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/flags.rs:::add_const 480,064 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs:<&rustc_middle::ty::consts::Const as core::cmp::PartialEq>::eq 478,958 ( 0.16%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>::insert::>::{closure#0}> 478,702 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:>::fill_item::<::fresh_substs_for_item::{closure#0}> 478,079 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:::reuse_or_mk_predicate 477,836 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs:rustc_middle::ty::relate::super_relate_tys:: 475,042 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/combine.rs:::tys 473,688 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::rollback_to 467,160 ( 0.16%) /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/raw_vec.rs:alloc::raw_vec::finish_grow:: 465,760 ( 0.15%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/smallvec-1.7.0/src/lib.rs:>::fill_item::<::fresh_substs_for_item::{closure#0}> 464,512 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts/kind.rs:::ne 459,648 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts.rs:rustc_middle::ty::relate::super_relate_consts:: 459,321 ( 0.15%) ???:llvm::StringMapImpl::LookupBucketFor(llvm::StringRef) 455,735 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/combine.rs:::super_combine_tys:: 454,922 ( 0.15%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs:>::reverse 450,304 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:::fold_const 447,675 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/mod.rs:::start_snapshot 440,738 ( 0.15%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs:::relate:: 435,456 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts.rs:::try_eval_usize 435,218 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs:::reuse_or_mk_predicate 433,694 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:::try_fold_with:: 426,864 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/caching_source_map_view.rs:::span_data_to_lines_and_cols 426,780 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/leb128.rs:::read_usize 423,100 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/structural_impls.rs: as alloc::vec::spec_extend::SpecExtend, ::instantiate_into::{closure#0}>>>::spec_extend 421,828 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:>::decode 414,906 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:::try_fold_with:: 412,608 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts/kind.rs:<&rustc_middle::ty::consts::Const as core::cmp::PartialEq>::eq 408,336 ( 0.14%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs:>::for_item::<::fresh_substs_for_item::{closure#0}> 402,266 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/structural_impls.rs:<&rustc_middle::ty::TyS as rustc_middle::ty::fold::TypeFoldable>::super_fold_with:: 392,480 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/at.rs:::match_impl 392,480 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/higher_ranked/mod.rs:::replace_bound_vars_with_placeholders:: 382,456 ( 0.13%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/bitmask.rs:>, (), core::hash::BuildHasherDefault>>::from_hash::>>::{closure#0}> 381,939 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs:::try_fold_binder:: 380,802 ( 0.13%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/unify/mod.rs:>, &mut rustc_infer::infer::undo_log::InferCtxtUndoLogs>>>::uninlined_get_root_key 378,637 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/resolve.rs:::fold_ty 377,418 ( 0.13%) /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/raw_vec.rs:>::reserve_for_push 374,724 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/project.rs:rustc_trait_selection::traits::project::normalize_with_depth_to:: 372,170 ( 0.12%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs:::probe 372,170 ( 0.12%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/unify/mod.rs:::probe 371,243 ( 0.12%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/bitmask.rs:, (), core::hash::BuildHasherDefault>>::from_hash::>::{closure#0}> 367,727 ( 0.12%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>::reserve_rehash::>::{closure#0}> 367,244 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs: as rustc_middle::ty::context::InternIteratorElement>>::intern_with::>, core::iter::adapters::copied::Copied>>>, rustc_middle::ty::relate::relate_substs::{closure#0}>, ::mk_substs>, core::iter::adapters::copied::Copied>>>, rustc_middle::ty::relate::relate_substs::{closure#0}>>::{closure#0}> 366,196 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:::reuse_or_mk_predicate 362,047 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/lib.rs:>::hash_stable 356,508 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs: as rustc_middle::ty::fold::TypeFoldable>::try_fold_with:: 353,973 ( 0.12%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs:::relate:: 345,165 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/cell.rs:::start_snapshot 339,221 ( 0.11%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>>::from_key_hashed_nocheck:: 334,656 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs:, (), core::hash::BuildHasherDefault>>::from_hash::, rustc_middle::ty::context::Interned>::{closure#0}> 333,048 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/at.rs:::commit_if_ok::, rustc_middle::ty::error::TypeError, ::eq::{closure#0}> 330,200 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs:::eq 327,636 ( 0.11%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs:, &mut alloc::vec::Vec>, &mut rustc_infer::infer::undo_log::InferCtxtUndoLogs>>::push 324,164 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/iter/macros.rs:>::fill_item::<::fresh_substs_for_item::{closure#0}> 322,800 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/project.rs:::fold:: 318,502 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/symbol.rs:::intern 318,425 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/library/std/src/collections/hash/map.rs:::_intern_substs 318,425 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/cell.rs:::_intern_substs 318,201 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/type_variable.rs:::tys 317,824 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs:::ne 316,280 ( 0.11%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/span_encoding.rs:>::decode 315,509 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/iter/adapters/zip.rs:>, (), core::hash::BuildHasherDefault>>::from_hash::>>::{closure#0}> 314,894 ( 0.10%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/map.rs:>>::insert 313,247 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/hir/map/mod.rs:::find 312,832 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts.rs:::eq 311,640 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_metadata/src/rmeta/decoder.rs:>::decode 310,392 ( 0.10%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs:, &mut rustc_infer::infer::undo_log::InferCtxtUndoLogs>>::push 310,392 ( 0.10%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs:, &mut alloc::vec::Vec>, &mut rustc_infer::infer::undo_log::InferCtxtUndoLogs>>::push 308,560 ( 0.10%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/mod.rs:>::prepare_insert_slot 306,534 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/cell.rs:::tys 305,613 ( 0.10%) /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/rustc_entry.rs:, core::hash::BuildHasherDefault>>::rustc_entry 303,642 ( 0.10%) /usr/home/liquid/rust/worktree-benchmarking/library/core/src/num/uint_macros.rs:<&str as core::hash::Hash>::hash:: -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/raw/bitmask.rs -------------------------------------------------------------------------------- Ir -- line 17 ---------------------------------------- . pub struct BitMask(pub BitMaskWord); . . #[allow(clippy::use_self)] . impl BitMask { . /// Returns a new `BitMask` with all bits inverted. . #[inline] . #[must_use] . pub fn invert(self) -> Self { 7,828 ( 0.00%) BitMask(self.0 ^ BITMASK_MASK) . } . . /// Flip the bit in the mask for the entry at the given index. . /// . /// Returns the bit's previous state. . #[inline] . #[allow(clippy::cast_ptr_alignment)] . #[cfg(feature = "raw")] -- line 33 ---------------------------------------- -- line 38 ---------------------------------------- . // The bit was set if the bit is now 0. . self.0 & mask == 0 . } . . /// Returns a new `BitMask` with the lowest bit removed. . #[inline] . #[must_use] . pub fn remove_lowest_bit(self) -> Self { 8,120 ( 0.00%) BitMask(self.0 & (self.0 - 1)) . } . /// Returns whether the `BitMask` has at least one set bit. . #[inline] . pub fn any_bit_set(self) -> bool { 142,610 ( 0.05%) self.0 != 0 . } . . /// Returns the first set bit in the `BitMask`, if there is one. . #[inline] . pub fn lowest_set_bit(self) -> Option { 2,063,080 ( 0.69%) if self.0 == 0 { . None . } else { . Some(unsafe { self.lowest_set_bit_nonzero() }) . } . } . . /// Returns the first set bit in the `BitMask`, if there is one. The . /// bitmask must not be empty. . #[inline] . #[cfg(feature = "nightly")] . pub unsafe fn lowest_set_bit_nonzero(self) -> usize { 843 ( 0.00%) intrinsics::cttz_nonzero(self.0) as usize / BITMASK_STRIDE . } . #[inline] . #[cfg(not(feature = "nightly"))] . pub unsafe fn lowest_set_bit_nonzero(self) -> usize { . self.trailing_zeros() . } . . /// Returns the number of trailing zeroes in the `BitMask`. -- line 77 ---------------------------------------- -- line 110 ---------------------------------------- . /// bits. . pub struct BitMaskIter(BitMask); . . impl Iterator for BitMaskIter { . type Item = usize; . . #[inline] . fn next(&mut self) -> Option { 560,202 ( 0.19%) let bit = self.0.lowest_set_bit()?; . self.0 = self.0.remove_lowest_bit(); . Some(bit) . } . } 24,767 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/project.rs -------------------------------------------------------------------------------- Ir -- line 47 ---------------------------------------- . pub enum ProjectionTyError<'tcx> { . /// ...we found multiple sources of information and couldn't resolve the ambiguity. . TooManyCandidates, . . /// ...an error occurred matching `T : TraitRef` . TraitSelectionError(SelectionError<'tcx>), . } . 3 ( 0.00%) #[derive(PartialEq, Eq, Debug)] . enum ProjectionTyCandidate<'tcx> { . /// From a where-clause in the env or object type 1 ( 0.00%) ParamEnv(ty::PolyProjectionPredicate<'tcx>), . . /// From the definition of `Trait` when you have something like <::B as Trait2>::C . TraitDef(ty::PolyProjectionPredicate<'tcx>), . . /// Bounds specified on an object type . Object(ty::PolyProjectionPredicate<'tcx>), . . /// From an "impl" (or a "pseudo-impl" returned by select) -- line 66 ---------------------------------------- -- line 71 ---------------------------------------- . None, . Single(ProjectionTyCandidate<'tcx>), . Ambiguous, . Error(SelectionError<'tcx>), . } . . impl<'tcx> ProjectionTyCandidateSet<'tcx> { . fn mark_ambiguous(&mut self) { 24 ( 0.00%) *self = ProjectionTyCandidateSet::Ambiguous; . } . . fn mark_error(&mut self, err: SelectionError<'tcx>) { . *self = ProjectionTyCandidateSet::Error(err); . } . . // Returns true if the push was successful, or false if the candidate . // was discarded -- this could be because of ambiguity, or because . // a higher-priority candidate is already there. 84 ( 0.00%) fn push_candidate(&mut self, candidate: ProjectionTyCandidate<'tcx>) -> bool { . use self::ProjectionTyCandidate::*; . use self::ProjectionTyCandidateSet::*; . . // This wacky variable is just used to try and . // make code readable and avoid confusing paths. . // It is assigned a "value" of `()` only on those . // paths in which we wish to convert `*self` to . // ambiguous (and return false, because the candidate . // was not used). On other paths, it is not assigned, . // and hence if those paths *could* reach the code that . // comes after the match, this fn would not compile. . let convert_to_ambiguous; . 84 ( 0.00%) match self { . None => { 169 ( 0.00%) *self = Single(candidate); . return true; . } . . Single(current) => { . // Duplicates can happen inside ParamEnv. In the case, we . // perform a lazy deduplication. . if current == &candidate { . return false; -- line 113 ---------------------------------------- -- line 115 ---------------------------------------- . . // Prefer where-clauses. As in select, if there are multiple . // candidates, we prefer where-clause candidates over impls. This . // may seem a bit surprising, since impls are the source of . // "truth" in some sense, but in fact some of the impls that SEEM . // applicable are not, because of nested obligations. Where . // clauses are the safer choice. See the comment on . // `select::SelectionCandidate` and #21974 for more details. 16 ( 0.00%) match (current, candidate) { . (ParamEnv(..), ParamEnv(..)) => convert_to_ambiguous = (), . (ParamEnv(..), _) => return false, . (_, ParamEnv(..)) => unreachable!(), . (_, _) => convert_to_ambiguous = (), . } . } . . Ambiguous | Error(..) => { -- line 131 ---------------------------------------- -- line 133 ---------------------------------------- . } . } . . // We only ever get here when we moved from a single candidate . // to ambiguous. . let () = convert_to_ambiguous; . *self = Ambiguous; . false 98 ( 0.00%) } . } . . /// Evaluates constraints of the form: . /// . /// for<...> ::U == V . /// . /// If successful, this may result in additional obligations. Also returns . /// the projection cache key used to track these additional obligations. -- line 149 ---------------------------------------- -- line 164 ---------------------------------------- . pub(super) fn poly_project_and_unify_type<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &PolyProjectionObligation<'tcx>, . ) -> Result< . Result>>, InProgress>, . MismatchedProjectionTypes<'tcx>, . > { . let infcx = selcx.infcx(); 144 ( 0.00%) infcx.commit_if_ok(|_snapshot| { . let placeholder_predicate = 144 ( 0.00%) infcx.replace_bound_vars_with_placeholders(obligation.predicate); . . let placeholder_obligation = obligation.with(placeholder_predicate); 48 ( 0.00%) let result = project_and_unify_type(selcx, &placeholder_obligation)?; 24 ( 0.00%) Ok(result) . }) . } . . /// Evaluates constraints of the form: . /// . /// ::U == V . /// . /// If successful, this may result in additional obligations. . /// . /// See [poly_project_and_unify_type] for an explanation of the return value. 240 ( 0.00%) fn project_and_unify_type<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionObligation<'tcx>, . ) -> Result< . Result>>, InProgress>, . MismatchedProjectionTypes<'tcx>, . > { . debug!(?obligation, "project_and_unify_type"); . . let mut obligations = vec![]; 192 ( 0.00%) let normalized_ty = match opt_normalize_projection_type( . selcx, 24 ( 0.00%) obligation.param_env, 48 ( 0.00%) obligation.predicate.projection_ty, . obligation.cause.clone(), 48 ( 0.00%) obligation.recursion_depth, . &mut obligations, . ) { . Ok(Some(n)) => n, 48 ( 0.00%) Ok(None) => return Ok(Ok(None)), . Err(InProgress) => return Ok(Err(InProgress)), . }; . . debug!(?normalized_ty, ?obligations, "project_and_unify_type result"); . . let infcx = selcx.infcx(); . // FIXME(associated_const_equality): Handle consts here as well as types. 24 ( 0.00%) let obligation_pred_ty = obligation.predicate.term.ty().unwrap(); 36 ( 0.00%) match infcx.at(&obligation.cause, obligation.param_env).eq(normalized_ty, obligation_pred_ty) { . Ok(InferOk { obligations: inferred_obligations, value: () }) => { . obligations.extend(inferred_obligations); 84 ( 0.00%) Ok(Ok(Some(obligations))) . } . Err(err) => { . debug!("project_and_unify_type: equating types encountered error {:?}", err); . Err(MismatchedProjectionTypes { err }) . } . } 216 ( 0.00%) } . . /// Normalizes any associated type projections in `value`, replacing . /// them with a fully resolved type where possible. The return value . /// combines the normalized result and any additional obligations that . /// were incurred as result. 95,450 ( 0.03%) pub fn normalize<'a, 'b, 'tcx, T>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . value: T, . ) -> Normalized<'tcx, T> . where . T: TypeFoldable<'tcx>, . { . let mut obligations = Vec::new(); . let value = normalize_to(selcx, param_env, cause, value, &mut obligations); 107,605 ( 0.04%) Normalized { value, obligations } 85,905 ( 0.03%) } . . pub fn normalize_to<'a, 'b, 'tcx, T>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . value: T, . obligations: &mut Vec>, . ) -> T . where . T: TypeFoldable<'tcx>, . { 117,167 ( 0.04%) normalize_with_depth_to(selcx, param_env, cause, 0, value, obligations) . } . . /// As `normalize`, but with a custom depth. . pub fn normalize_with_depth<'a, 'b, 'tcx, T>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . depth: usize, . value: T, . ) -> Normalized<'tcx, T> . where . T: TypeFoldable<'tcx>, . { . let mut obligations = Vec::new(); 98,120 ( 0.03%) let value = normalize_with_depth_to(selcx, param_env, cause, depth, value, &mut obligations); 53,520 ( 0.02%) Normalized { value, obligations } . } . 113,764 ( 0.04%) #[instrument(level = "info", skip(selcx, param_env, cause, obligations))] 151,437 ( 0.05%) pub fn normalize_with_depth_to<'a, 'b, 'tcx, T>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . depth: usize, . value: T, . obligations: &mut Vec>, . ) -> T . where . T: TypeFoldable<'tcx>, . { . debug!(obligations.len = obligations.len()); 113,856 ( 0.04%) let mut normalizer = AssocTypeNormalizer::new(selcx, param_env, cause, depth, obligations); 170,231 ( 0.06%) let result = ensure_sufficient_stack(|| normalizer.fold(value)); . debug!(?result, obligations.len = normalizer.obligations.len()); . debug!(?normalizer.obligations,); 68,488 ( 0.02%) result 42,388 ( 0.01%) } . . pub(crate) fn needs_normalization<'tcx, T: TypeFoldable<'tcx>>(value: &T, reveal: Reveal) -> bool { . match reveal { . Reveal::UserFacing => value . .has_type_flags(ty::TypeFlags::HAS_TY_PROJECTION | ty::TypeFlags::HAS_CT_PROJECTION), . Reveal::All => value.has_type_flags( . ty::TypeFlags::HAS_TY_PROJECTION . | ty::TypeFlags::HAS_TY_OPAQUE -- line 302 ---------------------------------------- -- line 310 ---------------------------------------- . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . obligations: &'a mut Vec>, . depth: usize, . universes: Vec>, . } . . impl<'a, 'b, 'tcx> AssocTypeNormalizer<'a, 'b, 'tcx> { 796 ( 0.00%) fn new( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . cause: ObligationCause<'tcx>, . depth: usize, . obligations: &'a mut Vec>, . ) -> AssocTypeNormalizer<'a, 'b, 'tcx> { 126,653 ( 0.04%) AssocTypeNormalizer { selcx, param_env, cause, obligations, depth, universes: vec![] } 796 ( 0.00%) } . 185,517 ( 0.06%) fn fold>(&mut self, value: T) -> T { 147,343 ( 0.05%) let value = self.selcx.infcx().resolve_vars_if_possible(value); . debug!(?value); . 5,701 ( 0.00%) assert!( . !value.has_escaping_bound_vars(), . "Normalizing {:?} without wrapping in a `Binder`", . value . ); . 26,866 ( 0.01%) if !needs_normalization(&value, self.param_env.reveal()) { 83,925 ( 0.03%) value . } else { 44 ( 0.00%) value.fold_with(self) . } 168,313 ( 0.06%) } . } . . impl<'a, 'b, 'tcx> TypeFolder<'tcx> for AssocTypeNormalizer<'a, 'b, 'tcx> { . fn tcx<'c>(&'c self) -> TyCtxt<'tcx> { 37 ( 0.00%) self.selcx.tcx() 21 ( 0.00%) } . . fn fold_binder>( . &mut self, . t: ty::Binder<'tcx, T>, . ) -> ty::Binder<'tcx, T> { . self.universes.push(None); . let t = t.super_fold_with(self); . self.universes.pop(); . t . } . 488 ( 0.00%) fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> { 122 ( 0.00%) if !needs_normalization(&ty, self.param_env.reveal()) { . return ty; . } . . // We try to be a little clever here as a performance optimization in . // cases where there are nested projections under binders. . // For example: . // ``` . // for<'a> fn(::One<'a, Box::Two<'a>>>>) -- line 370 ---------------------------------------- -- line 381 ---------------------------------------- . // . // This is possible because the inner `'a` will already be a placeholder . // when we need to normalize the inner projection . // . // On the other hand, this does add a bit of complexity, since we only . // replace bound vars if the current type is a `Projection` and we need . // to make sure we don't forget to fold the substs regardless. . 91 ( 0.00%) match *ty.kind() { . // This is really important. While we *can* handle this, this has . // severe performance implications for large opaque types with . // late-bound regions. See `issue-88862` benchmark. . ty::Opaque(def_id, substs) if !substs.has_escaping_bound_vars() => { . // Only normalize `impl Trait` after type-checking, usually in codegen. . match self.param_env.reveal() { . Reveal::UserFacing => ty.super_fold_with(self), . -- line 397 ---------------------------------------- -- line 421 ---------------------------------------- . ty::Projection(data) if !data.has_escaping_bound_vars() => { . // This branch is *mostly* just an optimization: when we don't . // have escaping bound vars, we don't need to replace them with . // placeholders (see branch below). *Also*, we know that we can . // register an obligation to *later* project, since we know . // there won't be bound vars there. . . let data = data.super_fold_with(self); 102 ( 0.00%) let normalized_ty = normalize_projection_type( 17 ( 0.00%) self.selcx, 17 ( 0.00%) self.param_env, . data, . self.cause.clone(), 17 ( 0.00%) self.depth, 17 ( 0.00%) &mut self.obligations, . ); . debug!( . ?self.depth, . ?ty, . ?normalized_ty, . obligations.len = ?self.obligations.len(), . "AssocTypeNormalizer: normalized type" . ); -- line 443 ---------------------------------------- -- line 490 ---------------------------------------- . obligations.len = ?self.obligations.len(), . "AssocTypeNormalizer: normalized type" . ); . normalized_ty . } . . _ => ty.super_fold_with(self), . } 549 ( 0.00%) } . . fn fold_const(&mut self, constant: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { . if self.selcx.tcx().lazy_normalization() { . constant . } else { . let constant = constant.super_fold_with(self); . constant.eval(self.selcx.tcx(), self.param_env) . } -- line 506 ---------------------------------------- -- line 781 ---------------------------------------- . } . . /// The guts of `normalize`: normalize a specific projection like `::Item`. The result is always a type (and possibly . /// additional obligations). If ambiguity arises, which implies that . /// there are unresolved type variables in the projection, we will . /// substitute a fresh type variable `$X` and generate a new . /// obligation `::Item == $X` for later. 220 ( 0.00%) pub fn normalize_projection_type<'a, 'b, 'tcx>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . projection_ty: ty::ProjectionTy<'tcx>, . cause: ObligationCause<'tcx>, . depth: usize, . obligations: &mut Vec>, . ) -> Ty<'tcx> { 176 ( 0.00%) opt_normalize_projection_type( . selcx, . param_env, . projection_ty, . cause.clone(), . depth, . obligations, . ) . .ok() . .flatten() . .unwrap_or_else(move || { . // if we bottom out in ambiguity, create a type variable . // and a deferred predicate to resolve this when more type . // information is available. . 168 ( 0.00%) selcx.infcx().infer_projection(param_env, projection_ty, cause, depth + 1, obligations) . }) 198 ( 0.00%) } . . /// The guts of `normalize`: normalize a specific projection like `::Item`. The result is always a type (and possibly . /// additional obligations). Returns `None` in the case of ambiguity, . /// which indicates that there are unbound type variables. . /// . /// This function used to return `Option>`, which contains a . /// `Ty<'tcx>` and an obligations vector. But that obligation vector was very . /// often immediately appended to another obligations vector. So now this . /// function takes an obligations vector and appends to it directly, which is . /// slightly uglier but avoids the need for an extra short-lived allocation. 1,184 ( 0.00%) #[instrument(level = "debug", skip(selcx, param_env, cause, obligations))] . fn opt_normalize_projection_type<'a, 'b, 'tcx>( . selcx: &'a mut SelectionContext<'b, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . projection_ty: ty::ProjectionTy<'tcx>, . cause: ObligationCause<'tcx>, . depth: usize, . obligations: &mut Vec>, . ) -> Result>, InProgress> { . let infcx = selcx.infcx(); . // Don't use the projection cache in intercrate mode - . // the `infcx` may be re-used between intercrate in non-intercrate . // mode, which could lead to using incorrect cache results. . let use_cache = !selcx.is_intercrate(); . . let projection_ty = infcx.resolve_vars_if_possible(projection_ty); 138 ( 0.00%) let cache_key = ProjectionCacheKey::new(projection_ty); . . // FIXME(#20304) For now, I am caching here, which is good, but it . // means we don't capture the type variables that are created in . // the case of ambiguity. Which means we may create a large stream . // of such variables. OTOH, if we move the caching up a level, we . // would not benefit from caching when proving `T: Trait` . // bounds. It might be the case that we want two distinct caches, . // or else another kind of cache entry. . 46 ( 0.00%) let cache_result = if use_cache { 276 ( 0.00%) infcx.inner.borrow_mut().projection_cache().try_start(cache_key) . } else { . Ok(()) . }; 276 ( 0.00%) match cache_result { . Ok(()) => debug!("no cache"), . Err(ProjectionCacheEntry::Ambiguous) => { . // If we found ambiguity the last time, that means we will continue . // to do so until some type in the key changes (and we know it . // hasn't, because we just fully resolved it). . debug!("found cache entry: ambiguous"); . return Ok(None); . } -- line 865 ---------------------------------------- -- line 882 ---------------------------------------- . infcx.inner.borrow_mut().projection_cache().recur(cache_key); . } . return Err(InProgress); . } . Err(ProjectionCacheEntry::Recur) => { . debug!("recur cache"); . return Err(InProgress); . } 18 ( 0.00%) Err(ProjectionCacheEntry::NormalizedTy { ty, complete: _ }) => { . // This is the hottest path in this function. . // . // If we find the value in the cache, then return it along . // with the obligations that went along with it. Note . // that, when using a fulfillment context, these . // obligations could in principle be ignored: they have . // already been registered when the cache entry was . // created (and hence the new ones will quickly be -- line 898 ---------------------------------------- -- line 908 ---------------------------------------- . let result = normalize_to_error(selcx, param_env, projection_ty, cause, depth); . obligations.extend(result.obligations); . return Ok(Some(result.value)); . } . } . . let obligation = Obligation::with_depth(cause.clone(), depth, param_env, projection_ty); . 189 ( 0.00%) match project_type(selcx, &obligation) { . Ok(ProjectedTy::Progress(Progress { . ty: projected_ty, 52 ( 0.00%) obligations: mut projected_obligations, . })) => { . // if projection succeeded, then what we get out of this . // is also non-normalized (consider: it was derived from . // an impl, where-clause etc) and hence we must . // re-normalize it . . let projected_ty = selcx.infcx().resolve_vars_if_possible(projected_ty); . debug!(?projected_ty, ?depth, ?projected_obligations); . 13 ( 0.00%) let mut result = if projected_ty.has_projections() { . let mut normalizer = AssocTypeNormalizer::new( . selcx, . param_env, . cause, . depth + 1, . &mut projected_obligations, . ); . let normalized_ty = normalizer.fold(projected_ty); . . debug!(?normalized_ty, ?depth); . . Normalized { value: normalized_ty, obligations: projected_obligations } . } else { 78 ( 0.00%) Normalized { value: projected_ty, obligations: projected_obligations } . }; . . let mut deduped: SsoHashSet<_> = Default::default(); 13 ( 0.00%) result.obligations.drain_filter(|projected_obligation| { . if !deduped.insert(projected_obligation.clone()) { . return true; . } . false . }); . 13 ( 0.00%) if use_cache { 39 ( 0.00%) infcx.inner.borrow_mut().projection_cache().insert_ty(cache_key, result.clone()); . } . obligations.extend(result.obligations); 13 ( 0.00%) Ok(Some(result.value)) . } . Ok(ProjectedTy::NoProgress(projected_ty)) => { . debug!(?projected_ty, "opt_normalize_projection_type: no progress"); . let result = Normalized { value: projected_ty, obligations: vec![] }; . if use_cache { . infcx.inner.borrow_mut().projection_cache().insert_ty(cache_key, result.clone()); . } . // No need to extend `obligations`. . Ok(Some(result.value)) . } . Err(ProjectionTyError::TooManyCandidates) => { . debug!("opt_normalize_projection_type: too many candidates"); 8 ( 0.00%) if use_cache { 48 ( 0.00%) infcx.inner.borrow_mut().projection_cache().ambiguous(cache_key); . } . Ok(None) . } . Err(ProjectionTyError::TraitSelectionError(_)) => { . debug!("opt_normalize_projection_type: ERROR"); . // if we got an error processing the `T as Trait` part, . // just return `ty::err` but add the obligation `T : . // Trait`, which when processed will cause the error to be -- line 980 ---------------------------------------- -- line 1060 ---------------------------------------- . self . } . } . . /// Computes the result of a projection type (if we can). . /// . /// IMPORTANT: . /// - `obligation` must be fully normalized 378 ( 0.00%) #[tracing::instrument(level = "info", skip(selcx))] . fn project_type<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . ) -> Result, ProjectionTyError<'tcx>> { 63 ( 0.00%) if !selcx.tcx().recursion_limit().value_within_limit(obligation.recursion_depth) { . debug!("project: overflow!"); . // This should really be an immediate error, but some existing code . // relies on being able to recover from this. . return Err(ProjectionTyError::TraitSelectionError(SelectionError::Overflow)); . } . . if obligation.predicate.references_error() { . return Ok(ProjectedTy::Progress(Progress::error(selcx.tcx()))); . } . 21 ( 0.00%) let mut candidates = ProjectionTyCandidateSet::None; . . // Make sure that the following procedures are kept in order. ParamEnv . // needs to be first because it has highest priority, and Select checks . // the return value of push_candidate which assumes it's ran at last. 42 ( 0.00%) assemble_candidates_from_param_env(selcx, obligation, &mut candidates); . 34 ( 0.00%) assemble_candidates_from_trait_def(selcx, obligation, &mut candidates); . 42 ( 0.00%) assemble_candidates_from_object_ty(selcx, obligation, &mut candidates); . 28 ( 0.00%) if let ProjectionTyCandidateSet::Single(ProjectionTyCandidate::Object(_)) = candidates { . // Avoid normalization cycle from selection (see . // `assemble_candidates_from_object_ty`). . // FIXME(lazy_normalization): Lazy normalization should save us from . // having to special case this. . } else { 42 ( 0.00%) assemble_candidates_from_impls(selcx, obligation, &mut candidates); . }; . 105 ( 0.00%) match candidates { . ProjectionTyCandidateSet::Single(candidate) => { 286 ( 0.00%) Ok(ProjectedTy::Progress(confirm_candidate(selcx, obligation, candidate))) . } . ProjectionTyCandidateSet::None => Ok(ProjectedTy::NoProgress( . selcx . .tcx() . .mk_projection(obligation.predicate.item_def_id, obligation.predicate.substs), . )), . // Error occurred while trying to processing impls. . ProjectionTyCandidateSet::Error(e) => Err(ProjectionTyError::TraitSelectionError(e)), . // Inherent ambiguity that prevents us from even enumerating the . // candidates. 32 ( 0.00%) ProjectionTyCandidateSet::Ambiguous => Err(ProjectionTyError::TooManyCandidates), . } 50 ( 0.00%) } . . /// The first thing we have to do is scan through the parameter . /// environment to see whether there are any projection predicates . /// there that can answer this question. . fn assemble_candidates_from_param_env<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . candidate_set: &mut ProjectionTyCandidateSet<'tcx>, . ) { . debug!("assemble_candidates_from_param_env(..)"); . assemble_candidates_from_predicates( . selcx, . obligation, . candidate_set, . ProjectionTyCandidate::ParamEnv, 21 ( 0.00%) obligation.param_env.caller_bounds().iter(), . false, . ); . } . . /// In the case of a nested projection like <::FooT as Bar>::BarT, we may find . /// that the definition of `Foo` has some clues: . /// . /// ``` -- line 1143 ---------------------------------------- -- line 1152 ---------------------------------------- . obligation: &ProjectionTyObligation<'tcx>, . candidate_set: &mut ProjectionTyCandidateSet<'tcx>, . ) { . debug!("assemble_candidates_from_trait_def(..)"); . . let tcx = selcx.tcx(); . // Check whether the self-type is itself a projection. . // If so, extract what we know from the trait and try to come up with a good answer. 236 ( 0.00%) let bounds = match *obligation.predicate.self_ty().kind() { . ty::Projection(ref data) => tcx.item_bounds(data.item_def_id).subst(tcx, data.substs), . ty::Opaque(def_id, substs) => tcx.item_bounds(def_id).subst(tcx, substs), . ty::Infer(ty::TyVar(_)) => { . // If the self-type is an inference variable, then it MAY wind up . // being a projected type, so induce an ambiguity. . candidate_set.mark_ambiguous(); . return; . } -- line 1168 ---------------------------------------- -- line 1192 ---------------------------------------- . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . candidate_set: &mut ProjectionTyCandidateSet<'tcx>, . ) { . debug!("assemble_candidates_from_object_ty(..)"); . . let tcx = selcx.tcx(); . 42 ( 0.00%) let self_ty = obligation.predicate.self_ty(); . let object_ty = selcx.infcx().shallow_resolve(self_ty); 105 ( 0.00%) let data = match object_ty.kind() { . ty::Dynamic(data, ..) => data, . ty::Infer(ty::TyVar(_)) => { . // If the self-type is an inference variable, then it MAY wind up . // being an object type, so induce an ambiguity. . candidate_set.mark_ambiguous(); . return; . } . _ => return, -- line 1210 ---------------------------------------- -- line 1235 ---------------------------------------- . ctor: fn(ty::PolyProjectionPredicate<'tcx>) -> ProjectionTyCandidate<'tcx>, . env_predicates: impl Iterator>, . potentially_unnormalized_candidates: bool, . ) { . let infcx = selcx.infcx(); . for predicate in env_predicates { . debug!(?predicate); . let bound_predicate = predicate.kind(); 117 ( 0.00%) if let ty::PredicateKind::Projection(data) = predicate.kind().skip_binder() { 4 ( 0.00%) let data = bound_predicate.rebind(data); 2 ( 0.00%) let same_def_id = data.projection_def_id() == obligation.predicate.item_def_id; . 3 ( 0.00%) let is_match = same_def_id . && infcx.probe(|_| { 3 ( 0.00%) selcx.match_projection_projections( . obligation, 9 ( 0.00%) data, . potentially_unnormalized_candidates, . ) . }); . . debug!(?data, ?is_match, ?same_def_id); . 2 ( 0.00%) if is_match { 11 ( 0.00%) candidate_set.push_candidate(ctor(data)); . . if potentially_unnormalized_candidates . && !obligation.predicate.has_infer_types_or_consts() . { . // HACK: Pick the first trait def candidate for a fully . // inferred predicate. This is to allow duplicates that . // differ only in normalization. . return; -- line 1267 ---------------------------------------- -- line 1274 ---------------------------------------- . #[tracing::instrument(level = "debug", skip(selcx, obligation, candidate_set))] . fn assemble_candidates_from_impls<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . candidate_set: &mut ProjectionTyCandidateSet<'tcx>, . ) { . // If we are resolving `>::Item == Type`, . // start out by selecting the predicate `T as TraitRef<...>`: 63 ( 0.00%) let poly_trait_ref = ty::Binder::dummy(obligation.predicate.trait_ref(selcx.tcx())); 42 ( 0.00%) let trait_obligation = obligation.with(poly_trait_ref.to_poly_trait_predicate()); 189 ( 0.00%) let _ = selcx.infcx().commit_if_ok(|_| { 126 ( 0.00%) let impl_source = match selcx.select(&trait_obligation) { 130 ( 0.00%) Ok(Some(impl_source)) => impl_source, . Ok(None) => { . candidate_set.mark_ambiguous(); . return Err(()); . } . Err(e) => { . debug!(error = ?e, "selection error"); . candidate_set.mark_error(e); . return Err(()); . } . }; . 65 ( 0.00%) let eligible = match &impl_source { . super::ImplSource::Closure(_) . | super::ImplSource::Generator(_) . | super::ImplSource::FnPointer(_) . | super::ImplSource::TraitAlias(_) => { . debug!(?impl_source); . true . } . super::ImplSource::UserDefined(impl_data) => { -- line 1306 ---------------------------------------- -- line 1322 ---------------------------------------- . // . // In either case, we handle this by not adding a . // candidate for an impl if it contains a `default` . // type. . // . // NOTE: This should be kept in sync with the similar code in . // `rustc_ty_utils::instance::resolve_associated_item()`. . let node_item = 117 ( 0.00%) assoc_ty_def(selcx, impl_data.impl_def_id, obligation.predicate.item_def_id) . .map_err(|ErrorReported| ())?; . 39 ( 0.00%) if node_item.is_final() { . // Non-specializable items are always projectable. . true . } else { . // Only reveal a specializable default if we're past type-checking . // and the obligation is monomorphic, otherwise passes such as . // transmute checking and polymorphic MIR optimizations could . // get a result which isn't correct for all monomorphizations. . if obligation.param_env.reveal() == Reveal::All { -- line 1341 ---------------------------------------- -- line 1495 ---------------------------------------- . obligation.cause.span, . &format!("Cannot project an associated type from `{:?}`", impl_source), . ); . return Err(()); . } . }; . . if eligible { 182 ( 0.00%) if candidate_set.push_candidate(ProjectionTyCandidate::Select(impl_source)) { . Ok(()) . } else { . Err(()) . } . } else { . Err(()) . } . }); -- line 1511 ---------------------------------------- -- line 1512 ---------------------------------------- . } . . fn confirm_candidate<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . candidate: ProjectionTyCandidate<'tcx>, . ) -> Progress<'tcx> { . debug!(?obligation, ?candidate, "confirm_candidate"); 65 ( 0.00%) let mut progress = match candidate { . ProjectionTyCandidate::ParamEnv(poly_projection) . | ProjectionTyCandidate::Object(poly_projection) => { 14 ( 0.00%) confirm_param_env_candidate(selcx, obligation, poly_projection, false) . } . . ProjectionTyCandidate::TraitDef(poly_projection) => { . confirm_param_env_candidate(selcx, obligation, poly_projection, true) . } . . ProjectionTyCandidate::Select(impl_source) => { 120 ( 0.00%) confirm_select_candidate(selcx, obligation, impl_source) . } . }; . // When checking for cycle during evaluation, we compare predicates with . // "syntactic" equality. Since normalization generally introduces a type . // with new region variables, we need to resolve them to existing variables . // when possible for this to work. See `auto-trait-projection-recursion.rs` . // for a case where this matters. 14 ( 0.00%) if progress.ty.has_infer_regions() { . progress.ty = OpportunisticRegionResolver::new(selcx.infcx()).fold_ty(progress.ty); . } . progress . } . . fn confirm_select_candidate<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . impl_source: Selection<'tcx>, . ) -> Progress<'tcx> { 60 ( 0.00%) match impl_source { 60 ( 0.00%) super::ImplSource::UserDefined(data) => confirm_impl_candidate(selcx, obligation, data), . super::ImplSource::Generator(data) => confirm_generator_candidate(selcx, obligation, data), . super::ImplSource::Closure(data) => confirm_closure_candidate(selcx, obligation, data), . super::ImplSource::FnPointer(data) => confirm_fn_pointer_candidate(selcx, obligation, data), . super::ImplSource::DiscriminantKind(data) => { . confirm_discriminant_kind_candidate(selcx, obligation, data) . } . super::ImplSource::Pointee(data) => confirm_pointee_candidate(selcx, obligation, data), . super::ImplSource::Object(_) -- line 1559 ---------------------------------------- -- line 1747 ---------------------------------------- . item_def_id: fn_once_output_def_id, . }, . term: ret_type.into(), . }); . . confirm_param_env_candidate(selcx, obligation, predicate, true) . } . 12 ( 0.00%) fn confirm_param_env_candidate<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . poly_cache_entry: ty::PolyProjectionPredicate<'tcx>, . potentially_unnormalized_candidate: bool, . ) -> Progress<'tcx> { . let infcx = selcx.infcx(); . let cause = &obligation.cause; 2 ( 0.00%) let param_env = obligation.param_env; . 4 ( 0.00%) let (cache_entry, _) = infcx.replace_bound_vars_with_fresh_vars( 3 ( 0.00%) cause.span, . LateBoundRegionConversionTime::HigherRankedType, . poly_cache_entry, . ); . 2 ( 0.00%) let cache_projection = cache_entry.projection_ty; . let mut nested_obligations = Vec::new(); 3 ( 0.00%) let obligation_projection = obligation.predicate; 8 ( 0.00%) let obligation_projection = ensure_sufficient_stack(|| { 4 ( 0.00%) normalize_with_depth_to( . selcx, 1 ( 0.00%) obligation.param_env, . obligation.cause.clone(), 3 ( 0.00%) obligation.recursion_depth + 1, 2 ( 0.00%) obligation_projection, . &mut nested_obligations, . ) . }); 2 ( 0.00%) let cache_projection = if potentially_unnormalized_candidate { . ensure_sufficient_stack(|| { . normalize_with_depth_to( . selcx, . obligation.param_env, . obligation.cause.clone(), . obligation.recursion_depth + 1, . cache_projection, . &mut nested_obligations, . ) . }) . } else { 2 ( 0.00%) cache_projection . }; . . debug!(?cache_projection, ?obligation_projection); . 2 ( 0.00%) match infcx.at(cause, param_env).eq(cache_projection, obligation_projection) { . Ok(InferOk { value: _, obligations }) => { . nested_obligations.extend(obligations); 2 ( 0.00%) assoc_ty_own_obligations(selcx, obligation, &mut nested_obligations); . // FIXME(associated_const_equality): Handle consts here as well? Maybe this progress type should just take . // a term instead. 8 ( 0.00%) Progress { ty: cache_entry.term.ty().unwrap(), obligations: nested_obligations } . } . Err(e) => { . let msg = format!( . "Failed to unify obligation `{:?}` with poly_projection `{:?}`: {:?}", . obligation, poly_cache_entry, e, . ); . debug!("confirm_param_env_candidate: {}", msg); . let err = infcx.tcx.ty_error_with_message(obligation.cause.span, &msg); . Progress { ty: err, obligations: vec![] } . } . } 8 ( 0.00%) } . . fn confirm_impl_candidate<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . impl_impl_source: ImplSourceUserDefinedData<'tcx, PredicateObligation<'tcx>>, . ) -> Progress<'tcx> { . let tcx = selcx.tcx(); . 48 ( 0.00%) let ImplSourceUserDefinedData { impl_def_id, substs, mut nested } = impl_impl_source; 36 ( 0.00%) let assoc_item_id = obligation.predicate.item_def_id; 48 ( 0.00%) let trait_def_id = tcx.trait_id_of_impl(impl_def_id).unwrap(); . 48 ( 0.00%) let param_env = obligation.param_env; 84 ( 0.00%) let assoc_ty = match assoc_ty_def(selcx, impl_def_id, assoc_item_id) { 120 ( 0.00%) Ok(assoc_ty) => assoc_ty, . Err(ErrorReported) => return Progress { ty: tcx.ty_error(), obligations: nested }, . }; . 48 ( 0.00%) if !assoc_ty.item.defaultness.has_value() { . // This means that the impl is missing a definition for the . // associated type. This error will be reported by the type . // checker method `check_impl_items_against_trait`, so here we . // just return Error. . debug!( . "confirm_impl_candidate: no associated type {:?} for {:?}", . assoc_ty.item.name, obligation.predicate . ); -- line 1846 ---------------------------------------- -- line 1847 ---------------------------------------- . return Progress { ty: tcx.ty_error(), obligations: nested }; . } . // If we're trying to normalize ` as X>::A` using . //`impl X for Vec { type A = Box; }`, then: . // . // * `obligation.predicate.substs` is `[Vec, S]` . // * `substs` is `[u32]` . // * `substs` ends up as `[u32, S]` 72 ( 0.00%) let substs = obligation.predicate.substs.rebase_onto(tcx, trait_def_id, substs); . let substs = 132 ( 0.00%) translate_substs(selcx.infcx(), param_env, impl_def_id, substs, assoc_ty.defining_node); 12 ( 0.00%) let ty = tcx.type_of(assoc_ty.item.def_id); 36 ( 0.00%) if substs.len() != tcx.generics_of(assoc_ty.item.def_id).count() { . let err = tcx.ty_error_with_message( . obligation.cause.span, . "impl item and trait item have different parameter counts", . ); . Progress { ty: err, obligations: nested } . } else { 24 ( 0.00%) assoc_ty_own_obligations(selcx, obligation, &mut nested); . Progress { ty: ty.subst(tcx, substs), obligations: nested } . } . } . . // Get obligations corresponding to the predicates from the where-clause of the . // associated type itself. . // Note: `feature(generic_associated_types)` is required to write such . // predicates, even for non-generic associcated types. 117 ( 0.00%) fn assoc_ty_own_obligations<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . obligation: &ProjectionTyObligation<'tcx>, . nested: &mut Vec>, . ) { . let tcx = selcx.tcx(); 117 ( 0.00%) for predicate in tcx 26 ( 0.00%) .predicates_of(obligation.predicate.item_def_id) 39 ( 0.00%) .instantiate_own(tcx, obligation.predicate.substs) . .predicates . { . let normalized = normalize_with_depth_to( . selcx, . obligation.param_env, . obligation.cause.clone(), . obligation.recursion_depth + 1, . predicate, -- line 1891 ---------------------------------------- -- line 1893 ---------------------------------------- . ); . nested.push(Obligation::with_depth( . obligation.cause.clone(), . obligation.recursion_depth + 1, . obligation.param_env, . normalized, . )); . } 104 ( 0.00%) } . . /// Locate the definition of an associated type in the specialization hierarchy, . /// starting from the given impl. . /// . /// Based on the "projection mode", this lookup may in fact only examine the . /// topmost impl. See the comments for `Reveal` for more details. 225 ( 0.00%) fn assoc_ty_def( . selcx: &SelectionContext<'_, '_>, . impl_def_id: DefId, . assoc_ty_def_id: DefId, . ) -> Result { . let tcx = selcx.tcx(); 50 ( 0.00%) let trait_def_id = tcx.impl_trait_ref(impl_def_id).unwrap().def_id; . let trait_def = tcx.trait_def(trait_def_id); . . // This function may be called while we are still building the . // specialization graph that is queried below (via TraitDef::ancestors()), . // so, in order to avoid unnecessary infinite recursion, we manually look . // for the associated item at the given impl. . // If there is no such item in that impl, this function will fail with a . // cycle error if the specialization graph is currently being built. 50 ( 0.00%) if let Some(&impl_item_id) = tcx.impl_item_implementor_ids(impl_def_id).get(&assoc_ty_def_id) { . let item = tcx.associated_item(impl_item_id); . let impl_node = specialization_graph::Node::Impl(impl_def_id); 300 ( 0.00%) return Ok(specialization_graph::LeafDef { 150 ( 0.00%) item: *item, . defining_node: impl_node, 125 ( 0.00%) finalizing_node: if item.defaultness.is_default() { None } else { Some(impl_node) }, . }); . } . . let ancestors = trait_def.ancestors(tcx, impl_def_id)?; . if let Some(assoc_item) = ancestors.leaf_def(tcx, assoc_ty_def_id) { . Ok(assoc_item) . } else { . // This is saying that neither the trait nor -- line 1937 ---------------------------------------- -- line 1941 ---------------------------------------- . // if the user wrote a bad item name, it . // should have failed in astconv. . bug!( . "No associated type `{}` for {}", . tcx.item_name(assoc_ty_def_id), . tcx.def_path_str(impl_def_id) . ) . } 225 ( 0.00%) } . . crate trait ProjectionCacheKeyExt<'cx, 'tcx>: Sized { . fn from_poly_projection_predicate( . selcx: &mut SelectionContext<'cx, 'tcx>, . predicate: ty::PolyProjectionPredicate<'tcx>, . ) -> Option; . } . -- line 1957 ---------------------------------------- 43,609 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/span_encoding.rs -------------------------------------------------------------------------------- Ir -- line 55 ---------------------------------------- . /// `ctxt` values depend partly on the crate size and partly on the form of . /// the code. No crates in `rustc-perf` need more than 15 bits for `ctxt`, . /// but larger crates might need more than 16 bits. . /// . /// In order to reliably use parented spans in incremental compilation, . /// the dependency to the parent definition's span. This is performed . /// using the callback `SPAN_TRACK` to access the query engine. . /// 38,411 ( 0.01%) #[derive(Clone, Copy, Eq, PartialEq, Hash)] . // FIXME(@lcnr): Enable this attribute once the bootstrap . // compiler knows of `rustc_pass_by_value`. . // . // Right now, this lint would only trigger when compiling the . // stage 2 compiler, which is fairly annoying as there are . // a lot of places using `&Span` right now. After the next bootstrap bump, . // the lint will already trigger when using stage 1, which is a lot less annoying. . // . // #[cfg_attr(not(bootstrap), rustc_pass_by_value)] . pub struct Span { 992 ( 0.00%) base_or_index: u32, 262 ( 0.00%) len_or_tag: u16, 277 ( 0.00%) ctxt_or_zero: u16, . } . . const LEN_TAG: u16 = 0b1000_0000_0000_0000; . const MAX_LEN: u32 = 0b0111_1111_1111_1111; . const MAX_CTXT: u32 = 0b1111_1111_1111_1111; . . /// Dummy span, both position and length are zero, syntax context is zero as well. . pub const DUMMY_SP: Span = Span { base_or_index: 0, len_or_tag: 0, ctxt_or_zero: 0 }; -- line 84 ---------------------------------------- -- line 86 ---------------------------------------- . impl Span { . #[inline] . pub fn new( . mut lo: BytePos, . mut hi: BytePos, . ctxt: SyntaxContext, . parent: Option, . ) -> Self { 33,194 ( 0.01%) if lo > hi { . std::mem::swap(&mut lo, &mut hi); . } . 66,388 ( 0.02%) let (base, len, ctxt2) = (lo.0, hi.0 - lo.0, ctxt.as_u32()); . 278,103 ( 0.09%) if len <= MAX_LEN && ctxt2 <= MAX_CTXT && parent.is_none() { . // Inline format. . Span { base_or_index: base, len_or_tag: len as u16, ctxt_or_zero: ctxt2 as u16 } . } else { . // Interned format. . let index = 140 ( 0.00%) with_span_interner(|interner| interner.intern(&SpanData { lo, hi, ctxt, parent })); . Span { base_or_index: index, len_or_tag: LEN_TAG, ctxt_or_zero: 0 } . } 105,660 ( 0.04%) } . . #[inline] . pub fn data(self) -> SpanData { . let data = self.data_untracked(); . if let Some(parent) = data.parent { . (*SPAN_TRACK)(parent); . } . data . } . . /// Internal function to translate between an encoded span and the expanded representation. . /// This function must not be used outside the incremental engine. . #[inline] . pub fn data_untracked(self) -> SpanData { 153,836 ( 0.05%) if self.len_or_tag != LEN_TAG { . // Inline format. . debug_assert!(self.len_or_tag as u32 <= MAX_LEN); . SpanData { . lo: BytePos(self.base_or_index), 142,382 ( 0.05%) hi: BytePos(self.base_or_index + self.len_or_tag as u32), . ctxt: SyntaxContext::from_u32(self.ctxt_or_zero as u32), . parent: None, . } . } else { . // Interned format. . debug_assert!(self.ctxt_or_zero == 0); . let index = self.base_or_index; . with_span_interner(|interner| interner.spans[index as usize]) . } 55,651 ( 0.02%) } . } . 4 ( 0.00%) #[derive(Default)] . pub struct SpanInterner { . spans: FxIndexSet, . } . . impl SpanInterner { 42 ( 0.00%) fn intern(&mut self, span_data: &SpanData) -> u32 { 56 ( 0.00%) let (index, _) = self.spans.insert_full(*span_data); . index as u32 56 ( 0.00%) } . } . . // If an interner exists, return it. Otherwise, prepare a fresh one. . #[inline] . fn with_span_interner T>(f: F) -> T { . crate::with_session_globals(|session_globals| f(&mut *session_globals.span_interner.lock())) . } 181,415 ( 0.06%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/subst.rs -------------------------------------------------------------------------------- Ir -- line 22 ---------------------------------------- . . /// An entity in the Rust type system, which can be one of . /// several kinds (types, lifetimes, and consts). . /// To reduce memory usage, a `GenericArg` is an interned pointer, . /// with the lowest 2 bits being reserved for a tag to . /// indicate the type (`Ty`, `Region`, or `Const`) it points to. . #[derive(Copy, Clone, PartialEq, Eq, Hash)] . pub struct GenericArg<'tcx> { 63,891 ( 0.02%) ptr: NonZeroUsize, 153,423 ( 0.05%) marker: PhantomData<(Ty<'tcx>, ty::Region<'tcx>, &'tcx ty::Const<'tcx>)>, . } . . const TAG_MASK: usize = 0b11; . const TYPE_TAG: usize = 0b00; . const REGION_TAG: usize = 0b01; . const CONST_TAG: usize = 0b10; . 10,402 ( 0.00%) #[derive(Debug, TyEncodable, TyDecodable, PartialEq, Eq, PartialOrd, Ord, HashStable)] . pub enum GenericArgKind<'tcx> { . Lifetime(ty::Region<'tcx>), . Type(Ty<'tcx>), . Const(&'tcx ty::Const<'tcx>), . } . . impl<'tcx> GenericArgKind<'tcx> { 2,758 ( 0.00%) fn pack(self) -> GenericArg<'tcx> { 2,758 ( 0.00%) let (tag, ptr) = match self { . GenericArgKind::Lifetime(lt) => { . // Ensure we can use the tag bits. . assert_eq!(mem::align_of_val(lt) & TAG_MASK, 0); . (REGION_TAG, lt as *const _ as usize) . } . GenericArgKind::Type(ty) => { . // Ensure we can use the tag bits. . assert_eq!(mem::align_of_val(ty) & TAG_MASK, 0); -- line 56 ---------------------------------------- -- line 58 ---------------------------------------- . } . GenericArgKind::Const(ct) => { . // Ensure we can use the tag bits. . assert_eq!(mem::align_of_val(ct) & TAG_MASK, 0); . (CONST_TAG, ct as *const _ as usize) . } . }; . 4,064 ( 0.00%) GenericArg { ptr: unsafe { NonZeroUsize::new_unchecked(ptr | tag) }, marker: PhantomData } 2,758 ( 0.00%) } . } . . impl<'tcx> fmt::Debug for GenericArg<'tcx> { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . match self.unpack() { . GenericArgKind::Lifetime(lt) => lt.fmt(f), . GenericArgKind::Type(ty) => ty.fmt(f), . GenericArgKind::Const(ct) => ct.fmt(f), -- line 75 ---------------------------------------- -- line 85 ---------------------------------------- . . impl<'tcx> PartialOrd for GenericArg<'tcx> { . fn partial_cmp(&self, other: &GenericArg<'_>) -> Option { . Some(self.cmp(&other)) . } . } . . impl<'tcx> From> for GenericArg<'tcx> { 503 ( 0.00%) fn from(r: ty::Region<'tcx>) -> GenericArg<'tcx> { . GenericArgKind::Lifetime(r).pack() 503 ( 0.00%) } . } . . impl<'tcx> From> for GenericArg<'tcx> { 82,337 ( 0.03%) fn from(ty: Ty<'tcx>) -> GenericArg<'tcx> { . GenericArgKind::Type(ty).pack() 82,337 ( 0.03%) } . } . . impl<'tcx> From<&'tcx ty::Const<'tcx>> for GenericArg<'tcx> { 320 ( 0.00%) fn from(c: &'tcx ty::Const<'tcx>) -> GenericArg<'tcx> { . GenericArgKind::Const(c).pack() 320 ( 0.00%) } . } . . impl<'tcx> GenericArg<'tcx> { . #[inline] . pub fn unpack(self) -> GenericArgKind<'tcx> { . let ptr = self.ptr.get(); . unsafe { 1,019,166 ( 0.34%) match ptr & TAG_MASK { 381 ( 0.00%) REGION_TAG => GenericArgKind::Lifetime(&*((ptr & !TAG_MASK) as *const _)), 268,818 ( 0.09%) TYPE_TAG => GenericArgKind::Type(&*((ptr & !TAG_MASK) as *const _)), 832 ( 0.00%) CONST_TAG => GenericArgKind::Const(&*((ptr & !TAG_MASK) as *const _)), . _ => intrinsics::unreachable(), . } . } . } . . /// Unpack the `GenericArg` as a type when it is known certainly to be a type. . /// This is true in cases where `Substs` is used in places where the kinds are known . /// to be limited (e.g. in tuples, where the only parameters are type parameters). . pub fn expect_ty(self) -> Ty<'tcx> { . match self.unpack() { . GenericArgKind::Type(ty) => ty, . _ => bug!("expected a type, but found another kind"), . } 16 ( 0.00%) } . . /// Unpack the `GenericArg` as a const when it is known certainly to be a const. . pub fn expect_const(self) -> &'tcx ty::Const<'tcx> { . match self.unpack() { . GenericArgKind::Const(c) => c, . _ => bug!("expected a const, but found another kind"), . } . } -- line 140 ---------------------------------------- -- line 170 ---------------------------------------- . GenericArgKind::Type(ty) => ty.visit_with(visitor), . GenericArgKind::Const(ct) => ct.visit_with(visitor), . } . } . } . . impl<'tcx, E: TyEncoder<'tcx>> Encodable for GenericArg<'tcx> { . fn encode(&self, e: &mut E) -> Result<(), E::Error> { 528 ( 0.00%) self.unpack().encode(e) . } . } . . impl<'tcx, D: TyDecoder<'tcx>> Decodable for GenericArg<'tcx> { 13,790 ( 0.00%) fn decode(d: &mut D) -> GenericArg<'tcx> { 13,790 ( 0.00%) GenericArgKind::decode(d).pack() . } . } . . /// A substitution mapping generic parameters to new values. . pub type InternalSubsts<'tcx> = List>; . . pub type SubstsRef<'tcx> = &'tcx InternalSubsts<'tcx>; . -- line 192 ---------------------------------------- -- line 211 ---------------------------------------- . /// Inline const substitutions have a particular structure controlled by the . /// compiler that encodes information like the inferred type; . /// see `ty::InlineConstSubsts` struct for more comments. . pub fn as_inline_const(&'tcx self) -> InlineConstSubsts<'tcx> { . InlineConstSubsts { substs: self } . } . . /// Creates an `InternalSubsts` that maps each generic parameter to itself. 3,030 ( 0.00%) pub fn identity_for_item(tcx: TyCtxt<'tcx>, def_id: DefId) -> SubstsRef<'tcx> { 192 ( 0.00%) Self::for_item(tcx, def_id, |param, _| tcx.mk_param_from_def(param)) 2,727 ( 0.00%) } . . /// Creates an `InternalSubsts` for generic parameter definitions, . /// by calling closures to obtain each kind. . /// The closures get to observe the `InternalSubsts` as they're . /// being built, which can be used to correctly . /// substitute defaults of generic parameters. 154,602 ( 0.05%) pub fn for_item(tcx: TyCtxt<'tcx>, def_id: DefId, mut mk_kind: F) -> SubstsRef<'tcx> . where . F: FnMut(&ty::GenericParamDef, &[GenericArg<'tcx>]) -> GenericArg<'tcx>, . { . let defs = tcx.generics_of(def_id); . let count = defs.count(); . let mut substs = SmallVec::with_capacity(count); 52,443 ( 0.02%) Self::fill_item(&mut substs, tcx, defs, &mut mk_kind); 34,356 ( 0.01%) tcx.intern_substs(&substs) 154,602 ( 0.05%) } . . pub fn extend_to(&self, tcx: TyCtxt<'tcx>, def_id: DefId, mut mk_kind: F) -> SubstsRef<'tcx> . where . F: FnMut(&ty::GenericParamDef, &[GenericArg<'tcx>]) -> GenericArg<'tcx>, . { . Self::for_item(tcx, def_id, |param, substs| { . self.get(param.index as usize).cloned().unwrap_or_else(|| mk_kind(param, substs)) . }) . } . 175,492 ( 0.06%) pub fn fill_item( . substs: &mut SmallVec<[GenericArg<'tcx>; 8]>, . tcx: TyCtxt<'tcx>, . defs: &ty::Generics, . mk_kind: &mut F, . ) where . F: FnMut(&ty::GenericParamDef, &[GenericArg<'tcx>]) -> GenericArg<'tcx>, . { 70,330 ( 0.02%) if let Some(def_id) = defs.parent { . let parent_defs = tcx.generics_of(def_id); 255 ( 0.00%) Self::fill_item(substs, tcx, parent_defs, mk_kind); . } . Self::fill_single(substs, defs, mk_kind) 140,264 ( 0.05%) } . 8 ( 0.00%) pub fn fill_single( . substs: &mut SmallVec<[GenericArg<'tcx>; 8]>, . defs: &ty::Generics, . mk_kind: &mut F, . ) where . F: FnMut(&ty::GenericParamDef, &[GenericArg<'tcx>]) -> GenericArg<'tcx>, . { . substs.reserve(defs.params.len()); . for param in &defs.params { . let kind = mk_kind(param, substs); 88,101 ( 0.03%) assert_eq!(param.index as usize, substs.len()); . substs.push(kind); . } 8 ( 0.00%) } . . #[inline] . pub fn types(&'a self) -> impl DoubleEndedIterator> + 'a { . self.iter() . .filter_map(|k| if let GenericArgKind::Type(ty) = k.unpack() { Some(ty) } else { None }) . } . . #[inline] -- line 284 ---------------------------------------- -- line 302 ---------------------------------------- . self.iter().filter_map(|k| match k.unpack() { . GenericArgKind::Lifetime(_) => None, . generic => Some(generic), . }) . } . . #[inline] . pub fn type_at(&self, i: usize) -> Ty<'tcx> { 19,122 ( 0.01%) if let GenericArgKind::Type(ty) = self[i].unpack() { . ty . } else { . bug!("expected type for param #{} in {:?}", i, self); . } . } . . #[inline] . pub fn region_at(&self, i: usize) -> ty::Region<'tcx> { -- line 318 ---------------------------------------- -- line 350 ---------------------------------------- . /// impl X for U { fn f() {} } . /// ``` . /// . /// * If `self` is `[Self, S, T]`: the identity substs of `f` in the trait. . /// * If `source_ancestor` is the def_id of the trait. . /// * If `target_substs` is `[U]`, the substs for the impl. . /// * Then we will return `[U, T]`, the subst for `f` in the impl that . /// are needed for it to match the trait. 168 ( 0.00%) pub fn rebase_onto( . &self, . tcx: TyCtxt<'tcx>, . source_ancestor: DefId, . target_substs: SubstsRef<'tcx>, . ) -> SubstsRef<'tcx> { . let defs = tcx.generics_of(source_ancestor); 48 ( 0.00%) tcx.mk_substs(target_substs.iter().chain(self.iter().skip(defs.params.len()))) 192 ( 0.00%) } . . pub fn truncate_to(&self, tcx: TyCtxt<'tcx>, generics: &ty::Generics) -> SubstsRef<'tcx> { . tcx.mk_substs(self.iter().take(generics.count())) . } . } . . impl<'tcx> TypeFoldable<'tcx> for SubstsRef<'tcx> { 245 ( 0.00%) fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { . // This code is hot enough that it's worth specializing for the most . // common length lists, to avoid the overhead of `SmallVec` creation. . // The match arms are in order of frequency. The 1, 2, and 0 cases are . // typically hit in 90--99.99% of cases. When folding doesn't change . // the substs, it's faster to reuse the existing substs rather than . // calling `intern_substs`. 333,794 ( 0.11%) match self.len() { . 1 => { 83,544 ( 0.03%) let param0 = self[0].try_fold_with(folder)?; 321,287 ( 0.11%) if param0 == self[0] { Ok(self) } else { Ok(folder.tcx().intern_substs(&[param0])) } . } . 2 => { 1,774 ( 0.00%) let param0 = self[0].try_fold_with(folder)?; 3,796 ( 0.00%) let param1 = self[1].try_fold_with(folder)?; 4,129 ( 0.00%) if param0 == self[0] && param1 == self[1] { . Ok(self) . } else { 3,279 ( 0.00%) Ok(folder.tcx().intern_substs(&[param0, param1])) . } . } . 0 => Ok(self), . _ => { . let params: SmallVec<[_; 8]> = . self.iter().map(|k| k.try_fold_with(folder)).collect::>()?; . if params[..] == self[..] { . Ok(self) . } else { . Ok(folder.tcx().intern_substs(¶ms)) . } . } . } 1,732 ( 0.00%) } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 14,250 ( 0.00%) self.iter().try_for_each(|t| t.visit_with(visitor)) . } . } . . /////////////////////////////////////////////////////////////////////////// . // Public trait `Subst` . // . // Just call `foo.subst(tcx, substs)` to perform a substitution across . // `foo`. Or use `foo.subst_spanned(tcx, substs, Some(span))` when -- line 420 ---------------------------------------- -- line 435 ---------------------------------------- . . impl<'tcx, T: TypeFoldable<'tcx>> Subst<'tcx> for T { . fn subst_spanned( . self, . tcx: TyCtxt<'tcx>, . substs: &[GenericArg<'tcx>], . span: Option, . ) -> T { 307,392 ( 0.10%) let mut folder = SubstFolder { tcx, substs, span, binders_passed: 0 }; . self.fold_with(&mut folder) . } . } . . /////////////////////////////////////////////////////////////////////////// . // The actual substitution engine itself is a type folder. . . struct SubstFolder<'a, 'tcx> { -- line 451 ---------------------------------------- -- line 456 ---------------------------------------- . span: Option, . . /// Number of region binders we have passed through while doing the substitution . binders_passed: u32, . } . . impl<'a, 'tcx> TypeFolder<'tcx> for SubstFolder<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 67,908 ( 0.02%) self.tcx . } . . fn fold_binder>( . &mut self, . t: ty::Binder<'tcx, T>, . ) -> ty::Binder<'tcx, T> { 89,992 ( 0.03%) self.binders_passed += 1; 22,467 ( 0.01%) let t = t.super_fold_with(self); 89,992 ( 0.03%) self.binders_passed -= 1; . t . } . 972 ( 0.00%) fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> { . // Note: This routine only handles regions that are bound on . // type declarations and other outer declarations, not those . // bound in *fn types*. Region substitution of the bound . // regions that appear in a function signature is done using . // the specialized routine `ty::replace_late_regions()`. 324 ( 0.00%) match *r { 242 ( 0.00%) ty::ReEarlyBound(data) => { 242 ( 0.00%) let rk = self.substs.get(data.index as usize).map(|k| k.unpack()); . match rk { 121 ( 0.00%) Some(GenericArgKind::Lifetime(lt)) => self.shift_region_through_binders(lt), . _ => { . let span = self.span.unwrap_or(DUMMY_SP); . let msg = format!( . "Region parameter out of range \ . when substituting in region {} (index={})", . data.name, data.index . ); . span_bug!(span, "{}", msg); . } . } . } . _ => r, . } 1,134 ( 0.00%) } . 294,021 ( 0.10%) fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> { 98,007 ( 0.03%) if !t.needs_subst() { . return t; . } . 146,740 ( 0.05%) match *t.kind() { 241,330 ( 0.08%) ty::Param(p) => self.ty_for_param(p, t), 150,624 ( 0.05%) _ => t.super_fold_with(self), . } 364,515 ( 0.12%) } . 173,376 ( 0.06%) fn fold_const(&mut self, c: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { 51,136 ( 0.02%) if let ty::ConstKind::Param(p) = c.val { . self.const_for_param(p, c) . } else { 220,032 ( 0.07%) c.super_fold_with(self) . } 2,560 ( 0.00%) } . . #[inline] . fn fold_mir_const(&mut self, c: mir::ConstantKind<'tcx>) -> mir::ConstantKind<'tcx> { . c.super_fold_with(self) . } . } . . impl<'a, 'tcx> SubstFolder<'a, 'tcx> { . fn ty_for_param(&self, p: ty::ParamTy, source_ty: Ty<'tcx>) -> Ty<'tcx> { . // Look up the type in the substitutions. It really should be in there. 96,532 ( 0.03%) let opt_ty = self.substs.get(p.index as usize).map(|k| k.unpack()); . let ty = match opt_ty { . Some(GenericArgKind::Type(ty)) => ty, . Some(kind) => { . let span = self.span.unwrap_or(DUMMY_SP); . span_bug!( . span, . "expected type for `{:?}` ({:?}/{}) but found {:?} \ . when substituting, substs={:?}", -- line 539 ---------------------------------------- -- line 562 ---------------------------------------- . } . . fn const_for_param( . &self, . p: ParamConst, . source_ct: &'tcx ty::Const<'tcx>, . ) -> &'tcx ty::Const<'tcx> { . // Look up the const in the substitutions. It really should be in there. 640 ( 0.00%) let opt_ct = self.substs.get(p.index as usize).map(|k| k.unpack()); . let ct = match opt_ct { . Some(GenericArgKind::Const(ct)) => ct, . Some(kind) => { . let span = self.span.unwrap_or(DUMMY_SP); . span_bug!( . span, . "expected const for `{:?}` ({:?}/{}) but found {:?} \ . when substituting substs={:?}", -- line 578 ---------------------------------------- -- line 645 ---------------------------------------- . fn shift_vars_through_binders>(&self, val: T) -> T { . debug!( . "shift_vars(val={:?}, binders_passed={:?}, has_escaping_bound_vars={:?})", . val, . self.binders_passed, . val.has_escaping_bound_vars() . ); . 168,331 ( 0.06%) if self.binders_passed == 0 || !val.has_escaping_bound_vars() { . return val; . } . . let result = ty::fold::shift_vars(self.tcx(), val, self.binders_passed); . debug!("shift_vars: shifted result = {:?}", result); . . result . } . . fn shift_region_through_binders(&self, region: ty::Region<'tcx>) -> ty::Region<'tcx> { 292 ( 0.00%) if self.binders_passed == 0 || !region.has_escaping_bound_vars() { . return region; . } . ty::fold::shift_region(self.tcx, region, self.binders_passed) . } . } . . /// Stores the user-given substs to reach some fully qualified path . /// (e.g., `::Item` or `::Item`). . #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, TyEncodable, TyDecodable)] 57 ( 0.00%) #[derive(HashStable, TypeFoldable, Lift)] . pub struct UserSubsts<'tcx> { . /// The substitutions for the item as given by the user. . pub substs: SubstsRef<'tcx>, . . /// The self type, in the case of a `::Item` path (when applied . /// to an inherent impl). See `UserSelfTy` below. 12 ( 0.00%) pub user_self_ty: Option>, . } . . /// Specifies the user-given self type. In the case of a path that . /// refers to a member in an inherent impl, this self type is . /// sometimes needed to constrain the type parameters on the impl. For . /// example, in this code: . /// . /// ``` -- line 689 ---------------------------------------- -- line 696 ---------------------------------------- . /// self type `Foo`. Then we can instantiate the parameters of . /// the impl (with the substs from `UserSubsts`) and apply those to . /// the self type, giving `Foo`. Finally, we unify that with . /// the self type here, which contains `?A` to be `&'static u32` . #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, TyEncodable, TyDecodable)] . #[derive(HashStable, TypeFoldable, Lift)] . pub struct UserSelfTy<'tcx> { . pub impl_def_id: DefId, 6 ( 0.00%) pub self_ty: Ty<'tcx>, . } 657,012 ( 0.22%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/snapshot_vec.rs -------------------------------------------------------------------------------- Ir -- line 42 ---------------------------------------- . . impl Rollback> for SnapshotVecStorage { . fn reverse(&mut self, undo: UndoLog) { . self.values.reverse(undo) . } . } . impl Rollback> for Vec { . fn reverse(&mut self, undo: UndoLog) { 237,810 ( 0.08%) match undo { . NewElem(i) => { . self.pop(); 118,097 ( 0.04%) assert!(Vec::len(self) == i); . } . . SetElem(i, v) => { 101,755 ( 0.03%) self[i] = v; . } . . Other(u) => { . D::reverse(self, u); . } . } . } . } -- line 65 ---------------------------------------- -- line 76 ---------------------------------------- . impl VecLike for Vec . where . D: SnapshotVecDelegate, . { . fn push(&mut self, item: D::Value) { . Vec::push(self, item) . } . fn len(&self) -> usize { 9,180 ( 0.00%) Vec::len(self) . } . fn reserve(&mut self, size: usize) { . Vec::reserve(self, size) . } . } . . impl VecLike for &'_ mut Vec . where . D: SnapshotVecDelegate, . { . fn push(&mut self, item: D::Value) { . Vec::push(self, item) . } . fn len(&self) -> usize { 228,650 ( 0.08%) Vec::len(self) . } . fn reserve(&mut self, size: usize) { . Vec::reserve(self, size) . } . } . . #[allow(type_alias_bounds)] . pub type SnapshotVecStorage = -- line 107 ---------------------------------------- -- line 191 ---------------------------------------- . } . . impl, D: SnapshotVecDelegate, U> SnapshotVec { . pub fn len(&self) -> usize { . self.values.len() . } . . pub fn get(&self, index: usize) -> &D::Value { 581,586 ( 0.19%) &self.values.as_ref()[index] . } . . /// Returns a mutable pointer into the vec; whatever changes you make here cannot be undone . /// automatically, so you should be sure call `record()` with some sort of suitable undo . /// action. . pub fn get_mut(&mut self, index: usize) -> &mut D::Value { 236 ( 0.00%) &mut self.values.as_mut()[index] . } . . /// Reserve space for new values, just like an ordinary vec. . pub fn reserve(&mut self, additional: usize) { . // This is not affected by snapshots or anything. . self.values.reserve(additional); . } . } -- line 214 ---------------------------------------- -- line 219 ---------------------------------------- . } . . pub fn record(&mut self, action: D::Undo) { . if self.in_snapshot() { . self.undo_log.push(Other(action)); . } . } . 402,727 ( 0.13%) pub fn push(&mut self, elem: D::Value) -> usize { . let len = self.values.len(); . self.values.push(elem); . 54,714 ( 0.02%) if self.in_snapshot() { . self.undo_log.push(NewElem(len)); . } . . len 382,880 ( 0.13%) } . . /// Updates the element at the given index. The old value will saved (and perhaps restored) if . /// a snapshot is active. . pub fn set(&mut self, index: usize, new_elem: D::Value) { . let old_elem = mem::replace(&mut self.values.as_mut()[index], new_elem); . if self.undo_log.in_snapshot() { . self.undo_log.push(SetElem(index, old_elem)); . } -- line 244 ---------------------------------------- -- line 253 ---------------------------------------- . } . } else { . for i in 0..self.values.len() { . self.set(i, new_elems(i)); . } . } . } . 218,241 ( 0.07%) pub fn update(&mut self, index: usize, op: OP) . where . OP: FnOnce(&mut D::Value), . D::Value: Clone, . { 25,721 ( 0.01%) if self.undo_log.in_snapshot() { 85,707 ( 0.03%) let old_elem = self.values.as_mut()[index].clone(); 1,920 ( 0.00%) self.undo_log.push(SetElem(index, old_elem)); . } 77,476 ( 0.03%) op(&mut self.values.as_mut()[index]); 205,768 ( 0.07%) } . } . . impl SnapshotVec . where . D: SnapshotVecDelegate, . V: VecLike + Rollback>, . L: Snapshots>, . { -- line 279 ---------------------------------------- 38,110 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/vec/mod.rs -------------------------------------------------------------------------------- Ir -- line 417 ---------------------------------------- . /// # #![allow(unused_mut)] . /// let mut vec: Vec = Vec::new(); . /// ``` . #[inline] . #[rustc_const_stable(feature = "const_vec_new", since = "1.39.0")] . #[stable(feature = "rust1", since = "1.0.0")] . #[must_use] . pub const fn new() -> Self { 555,015 ( 0.18%) Vec { buf: RawVec::NEW, len: 0 } 18 ( 0.00%) } . . /// Constructs a new, empty `Vec` with the specified capacity. . /// . /// The vector will be able to hold exactly `capacity` elements without . /// reallocating. If `capacity` is 0, the vector will not allocate. . /// . /// It is important to note that although the returned vector has the . /// *capacity* specified, the vector will have a zero *length*. For an -- line 434 ---------------------------------------- -- line 601 ---------------------------------------- . /// vec.push(11); . /// assert_eq!(vec.len(), 11); . /// assert!(vec.capacity() >= 11); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[inline] . #[unstable(feature = "allocator_api", issue = "32838")] . pub fn with_capacity_in(capacity: usize, alloc: A) -> Self { 100,529 ( 0.03%) Vec { buf: RawVec::with_capacity_in(capacity, alloc), len: 0 } . } . . /// Creates a `Vec` directly from the raw components of another vector. . /// . /// # Safety . /// . /// This is highly unsafe, due to the number of invariants that aren't . /// checked: -- line 617 ---------------------------------------- -- line 677 ---------------------------------------- . /// // Put everything back together into a Vec . /// let rebuilt = Vec::from_raw_parts_in(p, len, cap, alloc.clone()); . /// assert_eq!(rebuilt, [4, 5, 6]); . /// } . /// ``` . #[inline] . #[unstable(feature = "allocator_api", issue = "32838")] . pub unsafe fn from_raw_parts_in(ptr: *mut T, length: usize, capacity: usize, alloc: A) -> Self { 10,124 ( 0.00%) unsafe { Vec { buf: RawVec::from_raw_parts_in(ptr, capacity, alloc), len: length } } . } . . /// Decomposes a `Vec` into its raw components. . /// . /// Returns the raw pointer to the underlying data, the length of . /// the vector (in elements), and the allocated capacity of the . /// data (in elements). These are the same arguments in the same . /// order as the arguments to [`from_raw_parts`]. -- line 693 ---------------------------------------- -- line 778 ---------------------------------------- . /// . /// ``` . /// let vec: Vec = Vec::with_capacity(10); . /// assert_eq!(vec.capacity(), 10); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn capacity(&self) -> usize { 31,585 ( 0.01%) self.buf.capacity() . } . . /// Reserves capacity for at least `additional` more elements to be inserted . /// in the given `Vec`. The collection may reserve more space to avoid . /// frequent reallocations. After calling `reserve`, capacity will be . /// greater than or equal to `self.len() + additional`. Does nothing if . /// capacity is already sufficient. . /// -- line 794 ---------------------------------------- -- line 801 ---------------------------------------- . /// ``` . /// let mut vec = vec![1]; . /// vec.reserve(10); . /// assert!(vec.capacity() >= 11); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn reserve(&mut self, additional: usize) { 53,493 ( 0.02%) self.buf.reserve(self.len, additional); . } . . /// Reserves the minimum capacity for exactly `additional` more elements to . /// be inserted in the given `Vec`. After calling `reserve_exact`, . /// capacity will be greater than or equal to `self.len() + additional`. . /// Does nothing if the capacity is already sufficient. . /// . /// Note that the allocator may give the collection more space than it -- line 817 ---------------------------------------- -- line 829 ---------------------------------------- . /// ``` . /// let mut vec = vec![1]; . /// vec.reserve_exact(10); . /// assert!(vec.capacity() >= 11); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn reserve_exact(&mut self, additional: usize) { 2,568 ( 0.00%) self.buf.reserve_exact(self.len, additional); . } . . /// Tries to reserve capacity for at least `additional` more elements to be inserted . /// in the given `Vec`. The collection may reserve more space to avoid . /// frequent reallocations. After calling `try_reserve`, capacity will be . /// greater than or equal to `self.len() + additional`. Does nothing if . /// capacity is already sufficient. . /// -- line 845 ---------------------------------------- -- line 930 ---------------------------------------- . /// assert!(vec.capacity() >= 3); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn shrink_to_fit(&mut self) { . // The capacity is never less than the length, and there's nothing to do when . // they are equal, so we can avoid the panic case in `RawVec::shrink_to_fit` . // by only calling it with a greater capacity. 2,395 ( 0.00%) if self.capacity() > self.len { 3,552 ( 0.00%) self.buf.shrink_to_fit(self.len); . } . } . . /// Shrinks the capacity of the vector with a lower bound. . /// . /// The capacity will remain at least as large as both the length . /// and the supplied value. . /// -- line 947 ---------------------------------------- -- line 990 ---------------------------------------- . /// let slice = vec.into_boxed_slice(); . /// assert_eq!(slice.into_vec().capacity(), 3); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn into_boxed_slice(mut self) -> Box<[T], A> { . unsafe { . self.shrink_to_fit(); 268 ( 0.00%) let me = ManuallyDrop::new(self); . let buf = ptr::read(&me.buf); . let len = me.len(); . buf.into_box(len).assume_init() . } . } . . /// Shortens the vector, keeping the first `len` elements and dropping . /// the rest. -- line 1006 ---------------------------------------- -- line 1040 ---------------------------------------- . /// let mut vec = vec![1, 2, 3]; . /// vec.truncate(0); . /// assert_eq!(vec, []); . /// ``` . /// . /// [`clear`]: Vec::clear . /// [`drain`]: Vec::drain . #[stable(feature = "rust1", since = "1.0.0")] 20,867 ( 0.01%) pub fn truncate(&mut self, len: usize) { . // This is safe because: . // . // * the slice passed to `drop_in_place` is valid; the `len > self.len` . // case avoids creating an invalid slice, and . // * the `len` of the vector is shrunk before calling `drop_in_place`, . // such that no value will be dropped twice in case `drop_in_place` . // were to panic once (if it panics twice, the program aborts). . unsafe { . // Note: It's intentional that this is `>` and not `>=`. . // Changing it to `>=` has negative performance . // implications in some cases. See #78884 for more. 17,393 ( 0.01%) if len > self.len { . return; . } . let remaining_len = self.len - len; . let s = ptr::slice_from_raw_parts_mut(self.as_mut_ptr().add(len), remaining_len); 25,469 ( 0.01%) self.len = len; 365 ( 0.00%) ptr::drop_in_place(s); . } 25,040 ( 0.01%) } . . /// Extracts a slice containing the entire vector. . /// . /// Equivalent to `&s[..]`. . /// . /// # Examples . /// . /// ``` -- line 1076 ---------------------------------------- -- line 1126 ---------------------------------------- . /// ``` . /// . /// [`as_mut_ptr`]: Vec::as_mut_ptr . #[stable(feature = "vec_as_ptr", since = "1.37.0")] . #[inline] . pub fn as_ptr(&self) -> *const T { . // We shadow the slice method of the same name to avoid going through . // `deref`, which creates an intermediate reference. 462,295 ( 0.15%) let ptr = self.buf.ptr(); . unsafe { . assume(!ptr.is_null()); . } . ptr . } . . /// Returns an unsafe mutable pointer to the vector's buffer. . /// -- line 1142 ---------------------------------------- -- line 1162 ---------------------------------------- . /// } . /// assert_eq!(&*x, &[0, 1, 2, 3]); . /// ``` . #[stable(feature = "vec_as_ptr", since = "1.37.0")] . #[inline] . pub fn as_mut_ptr(&mut self) -> *mut T { . // We shadow the slice method of the same name to avoid going through . // `deref_mut`, which creates an intermediate reference. 711,830 ( 0.24%) let ptr = self.buf.ptr(); . unsafe { . assume(!ptr.is_null()); . } . ptr . } . . /// Returns a reference to the underlying allocator. . #[unstable(feature = "allocator_api", issue = "32838")] -- line 1178 ---------------------------------------- -- line 1259 ---------------------------------------- . /// . /// Normally, here, one would use [`clear`] instead to correctly drop . /// the contents and thus not leak memory. . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub unsafe fn set_len(&mut self, new_len: usize) { . debug_assert!(new_len <= self.capacity()); . 51,989 ( 0.02%) self.len = new_len; 468 ( 0.00%) } . . /// Removes an element from the vector and returns it. . /// . /// The removed element is replaced by the last element of the vector. . /// . /// This does not preserve ordering, but is *O*(1). . /// If you need to preserve the element order, use [`remove`] instead. . /// -- line 1276 ---------------------------------------- -- line 1305 ---------------------------------------- . assert_failed(index, len); . } . unsafe { . // We replace self[index] with the last element. Note that if the . // bounds check above succeeds there must be a last element (which . // can be self[index] itself). . let value = ptr::read(self.as_ptr().add(index)); . let base_ptr = self.as_mut_ptr(); 1 ( 0.00%) ptr::copy(base_ptr.add(len - 1), base_ptr.add(index), 1); . self.set_len(len - 1); . value . } . } . . /// Inserts an element at position `index` within the vector, shifting all . /// elements after it to the right. . /// -- line 1321 ---------------------------------------- -- line 1329 ---------------------------------------- . /// let mut vec = vec![1, 2, 3]; . /// vec.insert(1, 4); . /// assert_eq!(vec, [1, 4, 2, 3]); . /// vec.insert(4, 5); . /// assert_eq!(vec, [1, 4, 2, 3, 5]); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] 133 ( 0.00%) pub fn insert(&mut self, index: usize, element: T) { . #[cold] . #[inline(never)] . fn assert_failed(index: usize, len: usize) -> ! { . panic!("insertion index (is {}) should be <= len (is {})", index, len); . } . 19 ( 0.00%) let len = self.len(); 306 ( 0.00%) if index > len { . assert_failed(index, len); . } . . // space for the new element 356 ( 0.00%) if len == self.buf.capacity() { . self.reserve(1); . } . . unsafe { . // infallible . // The spot to put the new value . { . let p = self.as_mut_ptr().add(index); . // Shift everything over to make space. (Duplicating the . // `index`th element into two consecutive places.) 534 ( 0.00%) ptr::copy(p, p.offset(1), len - index); . // Write it in, overwriting the first copy of the `index`th . // element. . ptr::write(p, element); . } 356 ( 0.00%) self.set_len(len + 1); . } 114 ( 0.00%) } . . /// Removes and returns the element at position `index` within the vector, . /// shifting all elements after it to the left. . /// . /// Note: Because this shifts over the remaining elements, it has a . /// worst-case performance of *O*(*n*). If you don't need the order of elements . /// to be preserved, use [`swap_remove`] instead. If you'd like to remove . /// elements from the beginning of the `Vec`, consider using -- line 1376 ---------------------------------------- -- line 1395 ---------------------------------------- . pub fn remove(&mut self, index: usize) -> T { . #[cold] . #[inline(never)] . #[track_caller] . fn assert_failed(index: usize, len: usize) -> ! { . panic!("removal index (is {}) should be < len (is {})", index, len); . } . 31 ( 0.00%) let len = self.len(); 110 ( 0.00%) if index >= len { . assert_failed(index, len); . } . unsafe { . // infallible . let ret; . { . // the place we are taking from. . let ptr = self.as_mut_ptr().add(index); . // copy it out, unsafely having a copy of the value on . // the stack and in the vector at the same time. 224 ( 0.00%) ret = ptr::read(ptr); . . // Shift everything down to fill in that spot. 76 ( 0.00%) ptr::copy(ptr.offset(1), ptr, len - index - 1); . } 31 ( 0.00%) self.set_len(len - 1); . ret . } . } . . /// 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, visiting each element exactly once in the -- line 1428 ---------------------------------------- -- line 1442 ---------------------------------------- . /// ``` . /// let mut vec = vec![1, 2, 3, 4, 5]; . /// let keep = [false, true, true, false, true]; . /// let mut iter = keep.iter(); . /// vec.retain(|_| *iter.next().unwrap()); . /// assert_eq!(vec, [2, 3, 5]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] 15,038 ( 0.00%) pub fn retain(&mut self, mut f: F) . where . F: FnMut(&T) -> bool, . { 176 ( 0.00%) self.retain_mut(|elem| f(elem)); 14,976 ( 0.00%) } . . /// Retains only the elements specified by the predicate, passing a mutable reference to it. . /// . /// In other words, remove all elements `e` such that `f(&mut e)` returns `false`. . /// This method operates in place, visiting each element exactly once in the . /// original order, and preserves the order of the retained elements. . /// . /// # Examples -- line 1463 ---------------------------------------- -- line 1474 ---------------------------------------- . /// }); . /// assert_eq!(vec, [2, 3, 4]); . /// ``` . #[unstable(feature = "vec_retain_mut", issue = "90829")] . pub fn retain_mut(&mut self, mut f: F) . where . F: FnMut(&mut T) -> bool, . { 1,882 ( 0.00%) let original_len = self.len(); . // Avoid double drop if the drop guard is not executed, . // since we may make some holes during the process. . unsafe { self.set_len(0) }; . . // Vec: [Kept, Kept, Hole, Hole, Hole, Hole, Unchecked, Unchecked] . // |<- processed len ->| ^- next to check . // |<- deleted cnt ->| . // |<- original_len ->| -- line 1490 ---------------------------------------- -- line 1499 ---------------------------------------- . v: &'a mut Vec, . processed_len: usize, . deleted_cnt: usize, . original_len: usize, . } . . impl Drop for BackshiftOnDrop<'_, T, A> { . fn drop(&mut self) { 1,116 ( 0.00%) if self.deleted_cnt > 0 { . // SAFETY: Trailing unchecked items must be valid since we never touch them. . unsafe { . ptr::copy( . self.v.as_ptr().add(self.processed_len), 716 ( 0.00%) self.v.as_mut_ptr().add(self.processed_len - self.deleted_cnt), . self.original_len - self.processed_len, . ); . } . } . // SAFETY: After filling holes, all items are in contiguous memory. . unsafe { 2 ( 0.00%) self.v.set_len(self.original_len - self.deleted_cnt); . } . } . } . . let mut g = BackshiftOnDrop { v: self, processed_len: 0, deleted_cnt: 0, original_len }; . . fn process_loop( . original_len: usize, . f: &mut F, . g: &mut BackshiftOnDrop<'_, T, A>, . ) where . F: FnMut(&mut T) -> bool, . { 17,170 ( 0.01%) while g.processed_len != original_len { . // SAFETY: Unchecked element must be valid. . let cur = unsafe { &mut *g.v.as_mut_ptr().add(g.processed_len) }; 4,783 ( 0.00%) if !f(cur) { . // Advance early to avoid double drop if `drop_in_place` panicked. 6 ( 0.00%) g.processed_len += 1; . g.deleted_cnt += 1; . // SAFETY: We never touch this element again after dropped. . unsafe { ptr::drop_in_place(cur) }; . // We already advanced the counter. . if DELETED { . continue; . } else { . break; . } . } . if DELETED { . // SAFETY: `deleted_cnt` > 0, so the hole slot must not overlap with current element. . // We use copy for move, and never touch this element again. . unsafe { 6 ( 0.00%) let hole_slot = g.v.as_mut_ptr().add(g.processed_len - g.deleted_cnt); . ptr::copy_nonoverlapping(cur, hole_slot, 1); . } . } 4 ( 0.00%) g.processed_len += 1; . } . } . . // Stage 1: Nothing was deleted. . process_loop::(original_len, &mut f, &mut g); . . // Stage 2: Some elements were deleted. . process_loop::(original_len, &mut f, &mut g); -- line 1565 ---------------------------------------- -- line 1606 ---------------------------------------- . /// ``` . /// let mut vec = vec!["foo", "bar", "Bar", "baz", "bar"]; . /// . /// vec.dedup_by(|a, b| a.eq_ignore_ascii_case(b)); . /// . /// assert_eq!(vec, ["foo", "bar", "baz", "bar"]); . /// ``` . #[stable(feature = "dedup_by", since = "1.16.0")] 7 ( 0.00%) pub fn dedup_by(&mut self, mut same_bucket: F) . where . F: FnMut(&mut T, &mut T) -> bool, . { 1 ( 0.00%) let len = self.len(); 400 ( 0.00%) if len <= 1 { . return; . } . . /* INVARIANT: vec.len() > read >= write > write-1 >= 0 */ . struct FillGapOnDrop<'a, T, A: core::alloc::Allocator> { . /* Offset of the element we want to check if it is duplicate */ . read: usize, . -- line 1627 ---------------------------------------- -- line 1670 ---------------------------------------- . let ptr = gap.vec.as_mut_ptr(); . . /* Drop items while going through Vec, it should be more efficient than . * doing slice partition_dedup + truncate */ . . /* SAFETY: Because of the invariant, read_ptr, prev_ptr and write_ptr . * are always in-bounds and read_ptr never aliases prev_ptr */ . unsafe { 774 ( 0.00%) while gap.read < len { . let read_ptr = ptr.add(gap.read); . let prev_ptr = ptr.add(gap.write.wrapping_sub(1)); . 1,032 ( 0.00%) if same_bucket(&mut *read_ptr, &mut *prev_ptr) { . // Increase `gap.read` now since the drop may panic. . gap.read += 1; . /* We have found duplicate, drop it in-place */ . ptr::drop_in_place(read_ptr); . } else { . let write_ptr = ptr.add(gap.write); . . /* Because `read_ptr` can be equal to `write_ptr`, we either . * have to use `copy` or conditional `copy_nonoverlapping`. . * Looks like the first option is faster. */ . ptr::copy(read_ptr, write_ptr, 1); . . /* We have filled that place, so go further */ 258 ( 0.00%) gap.write += 1; . gap.read += 1; . } . } . . /* Technically we could let `gap` clean up with its Drop, but . * when `same_bucket` is guaranteed to not panic, this bloats a little . * the codegen, so we just do it manually */ . gap.vec.set_len(gap.write); . mem::forget(gap); . } 8 ( 0.00%) } . . /// Appends an element to the back of a collection. . /// . /// # Panics . /// . /// Panics if the new capacity exceeds `isize::MAX` bytes. . /// . /// # Examples -- line 1715 ---------------------------------------- -- line 1717 ---------------------------------------- . /// ``` . /// let mut vec = vec![1, 2]; . /// vec.push(3); . /// assert_eq!(vec, [1, 2, 3]); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] 5 ( 0.00%) pub fn push(&mut self, value: T) { . // This will panic or abort if we would allocate > isize::MAX bytes . // or if the length increment would overflow for zero-sized types. 1,419,995 ( 0.47%) if self.len == self.buf.capacity() { 100,259 ( 0.03%) self.buf.reserve_for_push(self.len); . } . unsafe { 42,015 ( 0.01%) let end = self.as_mut_ptr().add(self.len); . ptr::write(end, value); 1,688,396 ( 0.56%) self.len += 1; . } 4 ( 0.00%) } . . /// Removes the last element from a vector and returns it, or [`None`] if it . /// is empty. . /// . /// If you'd like to pop the first element, consider using . /// [`VecDeque::pop_front`] instead. . /// . /// [`VecDeque::pop_front`]: crate::collections::VecDeque::pop_front -- line 1744 ---------------------------------------- -- line 1748 ---------------------------------------- . /// ``` . /// let mut vec = vec![1, 2, 3]; . /// assert_eq!(vec.pop(), Some(3)); . /// assert_eq!(vec, [1, 2]); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn pop(&mut self) -> Option { 210,413 ( 0.07%) if self.len == 0 { 2 ( 0.00%) None . } else { . unsafe { 300,645 ( 0.10%) self.len -= 1; 6,102 ( 0.00%) Some(ptr::read(self.as_ptr().add(self.len()))) . } . } . } . . /// Moves all the elements of `other` into `Self`, leaving `other` empty. . /// . /// # Panics . /// -- line 1769 ---------------------------------------- -- line 1776 ---------------------------------------- . /// let mut vec2 = vec![4, 5, 6]; . /// vec.append(&mut vec2); . /// assert_eq!(vec, [1, 2, 3, 4, 5, 6]); . /// assert_eq!(vec2, []); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[inline] . #[stable(feature = "append", since = "1.4.0")] 994 ( 0.00%) pub fn append(&mut self, other: &mut Self) { . unsafe { . self.append_elements(other.as_slice() as _); . other.set_len(0); . } 852 ( 0.00%) } . . /// Appends elements to `Self` from other buffer. . #[cfg(not(no_global_oom_handling))] . #[inline] . unsafe fn append_elements(&mut self, other: *const [T]) { . let count = unsafe { (*other).len() }; . self.reserve(count); 3,033 ( 0.00%) let len = self.len(); . unsafe { ptr::copy_nonoverlapping(other as *const T, self.as_mut_ptr().add(len), count) }; 27,057 ( 0.01%) self.len += count; . } . . /// Creates a draining iterator that removes the specified range in the vector . /// and yields the removed items. . /// . /// When the iterator **is** dropped, all elements in the range are removed . /// from the vector, even if the iterator was not fully consumed. If the . /// iterator **is not** dropped (with [`mem::forget`] for example), it is -- line 1807 ---------------------------------------- -- line 1834 ---------------------------------------- . // When the Drain is first created, it shortens the length of . // the source vector to make sure no uninitialized or moved-from elements . // are accessible at all if the Drain's destructor never gets to run. . // . // Drain will ptr::read out the values to remove. . // When finished, remaining tail of the vec is copied back to cover . // the hole, and the vector length is restored to the new length. . // 1,814 ( 0.00%) let len = self.len(); . let Range { start, end } = slice::range(range, ..len); . . unsafe { . // set self.vec length's to start, to be safe in case Drain is leaked . self.set_len(start); . // Use the borrow in the IterMut to indicate borrowing behavior of the . // whole Drain iterator (like &mut T). 14 ( 0.00%) let range_slice = slice::from_raw_parts_mut(self.as_mut_ptr().add(start), end - start); 827 ( 0.00%) Drain { . tail_start: end, 14 ( 0.00%) tail_len: len - end, . iter: range_slice.iter(), . vec: NonNull::from(self), . } . } . } . . /// Clears the vector, removing all values. . /// -- line 1861 ---------------------------------------- -- line 1869 ---------------------------------------- . /// . /// v.clear(); . /// . /// assert!(v.is_empty()); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn clear(&mut self) { 36,432 ( 0.01%) self.truncate(0) . } . . /// Returns the number of elements in the vector, also referred to . /// as its 'length'. . /// . /// # Examples . /// . /// ``` -- line 1885 ---------------------------------------- -- line 1900 ---------------------------------------- . /// let mut v = Vec::new(); . /// assert!(v.is_empty()); . /// . /// v.push(1); . /// assert!(!v.is_empty()); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . pub fn is_empty(&self) -> bool { 23,266 ( 0.01%) self.len() == 0 . } . . /// Splits the collection into two at the given index. . /// . /// Returns a newly allocated vector containing the elements in the range . /// `[at, len)`. After the call, the original vector will be left containing . /// the elements `[0, at)` with its previous capacity unchanged. . /// -- line 1916 ---------------------------------------- -- line 1935 ---------------------------------------- . A: Clone, . { . #[cold] . #[inline(never)] . fn assert_failed(at: usize, len: usize) -> ! { . panic!("`at` split index (is {}) should be <= len (is {})", at, len); . } . 587 ( 0.00%) if at > self.len() { . assert_failed(at, self.len()); . } . 307 ( 0.00%) if at == 0 { . // the new vector can take over the original buffer and avoid the copy . return mem::replace( . self, . Vec::with_capacity_in(self.capacity(), self.allocator().clone()), . ); . } . . let other_len = self.len - at; -- line 1955 ---------------------------------------- -- line 1988 ---------------------------------------- . /// . /// let mut vec = vec![]; . /// let mut p = 1; . /// vec.resize_with(4, || { p *= 2; p }); . /// assert_eq!(vec, [2, 4, 8, 16]); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "vec_resize_with", since = "1.33.0")] 4,214 ( 0.00%) pub fn resize_with(&mut self, new_len: usize, f: F) . where . F: FnMut() -> T, . { 562 ( 0.00%) let len = self.len(); 1,124 ( 0.00%) if new_len > len { 3,164 ( 0.00%) self.extend_with(new_len - len, ExtendFunc(f)); . } else { . self.truncate(new_len); . } 3,652 ( 0.00%) } . . /// Consumes and leaks the `Vec`, returning a mutable reference to the contents, . /// `&'a mut [T]`. Note that the type `T` must outlive the chosen lifetime . /// `'a`. If the type has only static references, or none at all, then this . /// may be chosen to be `'static`. . /// . /// As of Rust 1.57, this method does not reallocate or shrink the `Vec`, . /// so the leaked allocation may include unused capacity that is not part -- line 2014 ---------------------------------------- -- line 2070 ---------------------------------------- . #[stable(feature = "vec_spare_capacity", since = "1.60.0")] . #[inline] . pub fn spare_capacity_mut(&mut self) -> &mut [MaybeUninit] { . // Note: . // This method is not implemented in terms of `split_at_spare_mut`, . // to prevent invalidation of pointers to the buffer. . unsafe { . slice::from_raw_parts_mut( 2 ( 0.00%) self.as_mut_ptr().add(self.len) as *mut MaybeUninit, 27 ( 0.00%) self.buf.capacity() - self.len, . ) . } . } . . /// Returns vector content as a slice of `T`, along with the remaining spare . /// capacity of the vector as a slice of `MaybeUninit`. . /// . /// The returned spare capacity slice can be used to fill the vector with data -- line 2087 ---------------------------------------- -- line 2189 ---------------------------------------- . /// assert_eq!(vec, ["hello", "world", "world"]); . /// . /// let mut vec = vec![1, 2, 3, 4]; . /// vec.resize(2, 0); . /// assert_eq!(vec, [1, 2]); . /// ``` . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "vec_resize", since = "1.5.0")] 1,280 ( 0.00%) pub fn resize(&mut self, new_len: usize, value: T) { 128 ( 0.00%) let len = self.len(); . 384 ( 0.00%) if new_len > len { 1,557 ( 0.00%) self.extend_with(new_len - len, ExtendElement(value)) . } else { . self.truncate(new_len); . } 128 ( 0.00%) } . . /// Clones and appends all elements in a slice to the `Vec`. . /// . /// Iterates over the slice `other`, clones each element, and then appends . /// it to this `Vec`. The `other` slice is traversed in-order. . /// . /// Note that this function is same as [`extend`] except that it is . /// specialized to work with slices instead. If and when Rust gets -- line 2213 ---------------------------------------- -- line 2291 ---------------------------------------- . fn last(mut self) -> T { . (self.0)() . } . } . . impl Vec { . #[cfg(not(no_global_oom_handling))] . /// Extend the vector by `n` values, using the given generator. 24,902 ( 0.01%) fn extend_with>(&mut self, n: usize, mut value: E) { . self.reserve(n); . . unsafe { 1,473 ( 0.00%) let mut ptr = self.as_mut_ptr().add(self.len()); . // Use SetLenOnDrop to work around bug where compiler . // might not realize the store through `ptr` through self.set_len() . // don't alias. . let mut local_len = SetLenOnDrop::new(&mut self.len); . . // Write all elements except the last one . for _ in 1..n { . ptr::write(ptr, value.next()); . ptr = ptr.offset(1); . // Increment the length in every step in case next() panics . local_len.increment_len(1); . } . 41,891 ( 0.01%) if n > 0 { . // We can write the last element directly without cloning needlessly . ptr::write(ptr, value.last()); . local_len.increment_len(1); . } . . // len set by scope guard . } 19,739 ( 0.01%) } . } . . impl Vec { . /// Removes consecutive repeated elements in the vector according to the . /// [`PartialEq`] trait implementation. . /// . /// If the vector is sorted, this removes all duplicates. . /// -- line 2333 ---------------------------------------- -- line 2338 ---------------------------------------- . /// . /// vec.dedup(); . /// . /// assert_eq!(vec, [1, 2, 3, 2]); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . pub fn dedup(&mut self) { 2 ( 0.00%) self.dedup_by(|a, b| a == b) . } . } . . //////////////////////////////////////////////////////////////////////////////// . // Internal methods and functions . //////////////////////////////////////////////////////////////////////////////// . . #[doc(hidden)] . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] 5,686 ( 0.00%) pub fn from_elem(elem: T, n: usize) -> Vec { 29,814 ( 0.01%) ::from_elem(elem, n, Global) 6,096 ( 0.00%) } . . #[doc(hidden)] . #[cfg(not(no_global_oom_handling))] . #[unstable(feature = "allocator_api", issue = "32838")] . pub fn from_elem_in(elem: T, n: usize, alloc: A) -> Vec { . ::from_elem(elem, n, alloc) . } . -- line 2367 ---------------------------------------- -- line 2424 ---------------------------------------- . // Common trait implementations for Vec . //////////////////////////////////////////////////////////////////////////////// . . #[stable(feature = "rust1", since = "1.0.0")] . impl ops::Deref for Vec { . type Target = [T]; . . fn deref(&self) -> &[T] { 470,727 ( 0.16%) unsafe { slice::from_raw_parts(self.as_ptr(), self.len) } . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl ops::DerefMut for Vec { . fn deref_mut(&mut self) -> &mut [T] { 126,556 ( 0.04%) unsafe { slice::from_raw_parts_mut(self.as_mut_ptr(), self.len) } . } . } . . #[cfg(not(no_global_oom_handling))] . trait SpecCloneFrom { . fn clone_from(this: &mut Self, other: &Self); . } . -- line 2447 ---------------------------------------- -- line 2468 ---------------------------------------- . this.extend_from_slice(other); . } . } . . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . impl Clone for Vec { . #[cfg(not(test))] 25,137 ( 0.01%) fn clone(&self) -> Self { . let alloc = self.allocator().clone(); 2 ( 0.00%) <[T]>::to_vec_in(&**self, alloc) 32,223 ( 0.01%) } . . // HACK(japaric): with cfg(test) the inherent `[T]::to_vec` method, which is . // required for this method definition, is not available. Instead use the . // `slice::to_vec` function which is only available with cfg(test) . // NB see the slice::hack module in slice.rs for more information . #[cfg(test)] . fn clone(&self) -> Self { . let alloc = self.allocator().clone(); -- line 2487 ---------------------------------------- -- line 2518 ---------------------------------------- . message = "vector indices are of type `usize` or ranges of `usize`", . label = "vector indices are of type `usize` or ranges of `usize`" . )] . impl, A: Allocator> Index for Vec { . type Output = I::Output; . . #[inline] . fn index(&self, index: I) -> &Self::Output { 4,311 ( 0.00%) Index::index(&**self, index) . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_on_unimplemented( . message = "vector indices are of type `usize` or ranges of `usize`", . label = "vector indices are of type `usize` or ranges of `usize`" . )] -- line 2534 ---------------------------------------- -- line 2539 ---------------------------------------- . } . } . . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . impl FromIterator for Vec { . #[inline] . fn from_iter>(iter: I) -> Vec { 136,755 ( 0.05%) >::from_iter(iter.into_iter()) . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl IntoIterator for Vec { . type Item = T; . type IntoIter = IntoIter; . -- line 2555 ---------------------------------------- -- line 2564 ---------------------------------------- . /// for s in v.into_iter() { . /// // s has type String, not &String . /// println!("{}", s); . /// } . /// ``` . #[inline] . fn into_iter(self) -> IntoIter { . unsafe { 52,496 ( 0.02%) let mut me = ManuallyDrop::new(self); . let alloc = ptr::read(me.allocator()); . let begin = me.as_mut_ptr(); . let end = if mem::size_of::() == 0 { . arith_offset(begin as *const i8, me.len() as isize) as *const T . } else { . begin.add(me.len()) as *const T . }; . let cap = me.buf.capacity(); 19,767 ( 0.01%) IntoIter { . buf: NonNull::new_unchecked(begin), . phantom: PhantomData, . cap, . alloc, . ptr: begin, . end, . } . } -- line 2589 ---------------------------------------- -- line 2601 ---------------------------------------- . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl<'a, T, A: Allocator> IntoIterator for &'a mut Vec { . type Item = &'a mut T; . type IntoIter = slice::IterMut<'a, T>; . . fn into_iter(self) -> slice::IterMut<'a, T> { 740 ( 0.00%) self.iter_mut() . } . } . . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . impl Extend for Vec { . #[inline] 56 ( 0.00%) fn extend>(&mut self, iter: I) { 171,454 ( 0.06%) >::spec_extend(self, iter.into_iter()) 56 ( 0.00%) } . . #[inline] . fn extend_one(&mut self, item: T) { . self.push(item); . } . . #[inline] . fn extend_reserve(&mut self, additional: usize) { -- line 2627 ---------------------------------------- -- line 2636 ---------------------------------------- . fn extend_desugared>(&mut self, mut iterator: I) { . // This is the case for a general iterator. . // . // This function should be the moral equivalent of: . // . // for item in iterator { . // self.push(item); . // } 14,899 ( 0.00%) while let Some(element) = iterator.next() { 1,554 ( 0.00%) let len = self.len(); 11,374 ( 0.00%) if len == self.capacity() { 255 ( 0.00%) let (lower, _) = iterator.size_hint(); . self.reserve(lower.saturating_add(1)); . } . unsafe { . ptr::write(self.as_mut_ptr().add(len), element); . // Since next() executes user code which can panic we have to bump the length . // after each step. . // NB can't overflow since we would have had to alloc the address space 10,475 ( 0.00%) self.set_len(len + 1); . } . } 123 ( 0.00%) } . . /// Creates a splicing iterator that replaces the specified range in the vector . /// with the given `replace_with` iterator and yields the removed items. . /// `replace_with` does not need to be the same length as `range`. . /// . /// `range` is removed even if the iterator is not consumed until the end. . /// . /// It is unspecified how many elements are removed from the vector -- line 2666 ---------------------------------------- -- line 2693 ---------------------------------------- . #[cfg(not(no_global_oom_handling))] . #[inline] . #[stable(feature = "vec_splice", since = "1.21.0")] . pub fn splice(&mut self, range: R, replace_with: I) -> Splice<'_, I::IntoIter, A> . where . R: RangeBounds, . I: IntoIterator, . { 33 ( 0.00%) Splice { drain: self.drain(range), replace_with: replace_with.into_iter() } . } . . /// Creates an iterator which uses a closure to determine if an element should be removed. . /// . /// If the closure returns true, then the element is removed and yielded. . /// If the closure returns false, the element will remain in the vector and will not be yielded . /// by the iterator. . /// -- line 2709 ---------------------------------------- -- line 2745 ---------------------------------------- . /// assert_eq!(evens, vec![2, 4, 6, 8, 14]); . /// assert_eq!(odds, vec![1, 3, 5, 9, 11, 13, 15]); . /// ``` . #[unstable(feature = "drain_filter", reason = "recently added", issue = "43244")] . pub fn drain_filter(&mut self, filter: F) -> DrainFilter<'_, T, F, A> . where . F: FnMut(&mut T) -> bool, . { 352 ( 0.00%) let old_len = self.len(); . . // Guard against us getting leaked (leak amplification) . unsafe { . self.set_len(0); . } . 104 ( 0.00%) DrainFilter { vec: self, idx: 0, del: 0, old_len, pred: filter, panic_flag: false } . } . } . . /// Extend implementation that copies elements out of references before pushing them onto the Vec. . /// . /// This implementation is specialized for slice iterators, where it uses [`copy_from_slice`] to . /// append the entire slice at once. . /// -- line 2768 ---------------------------------------- -- line 2803 ---------------------------------------- . #[inline] . fn cmp(&self, other: &Self) -> Ordering { . Ord::cmp(&**self, &**other) . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . unsafe impl<#[may_dangle] T, A: Allocator> Drop for Vec { 213,558 ( 0.07%) fn drop(&mut self) { . unsafe { . // use drop for [T] . // use a raw slice to refer to the elements of the vector as weakest necessary type; . // could avoid questions of validity in certain cases 66,427 ( 0.02%) ptr::drop_in_place(ptr::slice_from_raw_parts_mut(self.as_mut_ptr(), self.len)) . } . // RawVec handles deallocation 252,598 ( 0.08%) } . } . . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_default_impls", issue = "87864")] . impl const Default for Vec { . /// Creates an empty `Vec`. . fn default() -> Vec { . Vec::new() -- line 2827 ---------------------------------------- -- line 2976 ---------------------------------------- . /// newly-allocated buffer with exactly the right capacity. . /// . /// # Examples . /// . /// ``` . /// assert_eq!(Box::from(vec![1, 2, 3]), vec![1, 2, 3].into_boxed_slice()); . /// ``` . fn from(v: Vec) -> Self { 4 ( 0.00%) v.into_boxed_slice() . } . } . . #[cfg(not(no_global_oom_handling))] . #[stable(feature = "rust1", since = "1.0.0")] . impl From<&str> for Vec { . /// Allocate a `Vec` and fill it with a UTF-8 string. . /// -- line 2992 ---------------------------------------- 122,664 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/mod.rs -------------------------------------------------------------------------------- Ir -- line 157 ---------------------------------------- . pub fn opt_fn_def_id(self) -> Option { . if let Res::Def(DefKind::Fn, def_id) = self.res { Some(def_id) } else { None } . } . } . . /// The "header" of an impl is everything outside the body: a Self type, a trait . /// ref (in the case of a trait impl), and a set of predicates (from the . /// bounds / where-clauses). 129,148 ( 0.04%) #[derive(Clone, Debug, TypeFoldable)] . pub struct ImplHeader<'tcx> { . pub impl_def_id: DefId, . pub self_ty: Ty<'tcx>, . pub trait_ref: Option>, . pub predicates: Vec>, . } . . #[derive( . Copy, . Clone, 27,253 ( 0.01%) PartialEq, . Eq, . Hash, . TyEncodable, 2,632 ( 0.00%) TyDecodable, . HashStable, . Debug, . TypeFoldable . )] . pub enum ImplPolarity { . /// `impl Trait for Type` . Positive, . /// `impl !Trait for Type` -- line 188 ---------------------------------------- -- line 210 ---------------------------------------- . match self { . Self::Positive => f.write_str("positive"), . Self::Negative => f.write_str("negative"), . Self::Reservation => f.write_str("reservation"), . } . } . } . 132,241 ( 0.04%) #[derive(Clone, Debug, PartialEq, Eq, Copy, Hash, TyEncodable, TyDecodable, HashStable)] . pub enum Visibility { . /// Visible everywhere (including in other crates). . Public, . /// Visible only in the given crate-local module. . Restricted(DefId), . /// Not visible anywhere in the local crate. This is the visibility of private external items. . Invisible, . } . 47,335 ( 0.02%) #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, HashStable, TyEncodable, TyDecodable)] . pub enum BoundConstness { . /// `T: Trait` . NotConst, . /// `T: ~const Trait` . /// . /// Requires resolving to const only when we are in a const context. . ConstIfConst, . } . . impl BoundConstness { . /// Reduce `self` and `constness` to two possible combined states instead of four. 680 ( 0.00%) pub fn and(&mut self, constness: hir::Constness) -> hir::Constness { 1,020 ( 0.00%) match (constness, self) { . (hir::Constness::Const, BoundConstness::ConstIfConst) => hir::Constness::Const, . (_, this) => { 2,472 ( 0.00%) *this = BoundConstness::NotConst; . hir::Constness::NotConst . } . } 340 ( 0.00%) } . } . . impl fmt::Display for BoundConstness { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . match self { . Self::NotConst => f.write_str("normal"), . Self::ConstIfConst => f.write_str("`~const`"), . } -- line 256 ---------------------------------------- -- line 279 ---------------------------------------- . pub trait DefIdTree: Copy { . fn parent(self, id: DefId) -> Option; . . fn is_descendant_of(self, mut descendant: DefId, ancestor: DefId) -> bool { . if descendant.krate != ancestor.krate { . return false; . } . 115 ( 0.00%) while descendant != ancestor { . match self.parent(descendant) { . Some(parent) => descendant = parent, . None => return false, . } . } . true . } . } . . impl<'tcx> DefIdTree for TyCtxt<'tcx> { 580 ( 0.00%) fn parent(self, id: DefId) -> Option { . self.def_key(id).parent.map(|index| DefId { index, ..id }) 870 ( 0.00%) } . } . . impl Visibility { 40 ( 0.00%) pub fn from_hir(visibility: &hir::Visibility<'_>, id: hir::HirId, tcx: TyCtxt<'_>) -> Self { 120 ( 0.00%) match visibility.node { . hir::VisibilityKind::Public => Visibility::Public, . hir::VisibilityKind::Crate(_) => Visibility::Restricted(DefId::local(CRATE_DEF_INDEX)), . hir::VisibilityKind::Restricted { ref path, .. } => match path.res { . // If there is no resolution, `resolve` will have already reported an error, so . // assume that the visibility is public to avoid reporting more privacy errors. . Res::Err => Visibility::Public, . def => Visibility::Restricted(def.def_id()), . }, . hir::VisibilityKind::Inherited => { 60 ( 0.00%) Visibility::Restricted(tcx.parent_module(id).to_def_id()) . } . } 40 ( 0.00%) } . . /// Returns `true` if an item with this visibility is accessible from the given block. 5,661 ( 0.00%) pub fn is_accessible_from(self, module: DefId, tree: T) -> bool { 8,689 ( 0.00%) let restriction = match self { . // Public items are visible everywhere. . Visibility::Public => return true, . // Private items from other crates are visible nowhere. . Visibility::Invisible => return false, . // Restricted items are visible in an arbitrary local module. 118 ( 0.00%) Visibility::Restricted(other) if other.krate != module.krate => return false, . Visibility::Restricted(module) => module, . }; . . tree.is_descendant_of(module, restriction) 5,661 ( 0.00%) } . . /// Returns `true` if this visibility is at least as accessible as the given visibility 765 ( 0.00%) pub fn is_at_least(self, vis: Visibility, tree: T) -> bool { 1,858 ( 0.00%) let vis_restriction = match vis { . Visibility::Public => return self == Visibility::Public, . Visibility::Invisible => return true, . Visibility::Restricted(module) => module, . }; . . self.is_accessible_from(vis_restriction, tree) 765 ( 0.00%) } . . // Returns `true` if this item is visible anywhere in the local crate. . pub fn is_visible_locally(self) -> bool { . match self { . Visibility::Public => true, . Visibility::Restricted(def_id) => def_id.is_local(), . Visibility::Invisible => false, . } . } . . pub fn is_public(self) -> bool { 17,150 ( 0.01%) matches!(self, Visibility::Public) 8,575 ( 0.00%) } . } . . /// The crate variances map is computed during typeck and contains the . /// variance of every item in the local crate. You should not use it . /// directly, because to do so will make your pass dependent on the . /// HIR of every item in the local crate. Instead, use . /// `tcx.variances_of()` to get the variance for a *particular* . /// item. -- line 365 ---------------------------------------- -- line 509 ---------------------------------------- . #[derive(Clone, Copy, Lift)] . pub struct Predicate<'tcx> { . inner: &'tcx PredicateInner<'tcx>, . } . . impl<'tcx> PartialEq for Predicate<'tcx> { . fn eq(&self, other: &Self) -> bool { . // `self.kind` is always interned. 5,687 ( 0.00%) ptr::eq(self.inner, other.inner) 4,183 ( 0.00%) } . } . . impl Hash for Predicate<'_> { . fn hash(&self, s: &mut H) { . (self.inner as *const PredicateInner<'_>).hash(s) . } . } . . impl<'tcx> Eq for Predicate<'tcx> {} . . impl<'tcx> Predicate<'tcx> { . /// Gets the inner `Binder<'tcx, PredicateKind<'tcx>>`. . #[inline] . pub fn kind(self) -> Binder<'tcx, PredicateKind<'tcx>> { 106,385 ( 0.04%) self.inner.kind . } . . /// Flips the polarity of a Predicate. . /// . /// Given `T: Trait` predicate it returns `T: !Trait` and given `T: !Trait` returns `T: Trait`. . pub fn flip_polarity(&self, tcx: TyCtxt<'tcx>) -> Option> { . let kind = self . .inner -- line 541 ---------------------------------------- -- line 567 ---------------------------------------- . flags: _, . outer_exclusive_binder: _, . } = self.inner; . . kind.hash_stable(hcx, hasher); . } . } . 864,396 ( 0.29%) #[derive(Clone, Copy, PartialEq, Eq, Hash, TyEncodable, TyDecodable)] 806,172 ( 0.27%) #[derive(HashStable, TypeFoldable)] . pub enum PredicateKind<'tcx> { . /// Corresponds to `where Foo: Bar`. `Foo` here would be . /// the `Self` type of the trait reference and `A`, `B`, and `C` . /// would be the type parameters. . Trait(TraitPredicate<'tcx>), . . /// `where 'a: 'b` . RegionOutlives(RegionOutlivesPredicate<'tcx>), -- line 584 ---------------------------------------- -- line 601 ---------------------------------------- . /// Satisfied (or refuted) once we know the closure's kind. . ClosureKind(DefId, SubstsRef<'tcx>, ClosureKind), . . /// `T1 <: T2` . /// . /// This obligation is created most often when we have two . /// unresolved type variables and hence don't have enough . /// information to process the subtyping obligation yet. 8 ( 0.00%) Subtype(SubtypePredicate<'tcx>), . . /// `T1` coerced to `T2` . /// . /// Like a subtyping obligation, this is created most often . /// when we have two unresolved type variables and hence . /// don't have enough information to process the coercion . /// obligation yet. At the moment, we actually process coercions . /// very much like subtyping and don't handle the full coercion -- line 617 ---------------------------------------- -- line 645 ---------------------------------------- . } . . impl<'tcx> Predicate<'tcx> { . /// Performs a substitution suitable for going from a . /// poly-trait-ref to supertraits that must hold if that . /// poly-trait-ref holds. This is slightly different from a normal . /// substitution in terms of what happens with bound regions. See . /// lengthy comment below for details. 3,249 ( 0.00%) pub fn subst_supertrait( . self, . tcx: TyCtxt<'tcx>, . trait_ref: &ty::PolyTraitRef<'tcx>, . ) -> Predicate<'tcx> { . // The interaction between HRTB and supertraits is not entirely . // obvious. Let me walk you (and myself) through an example. . // . // Let's start with an easy case. Consider two traits: -- line 661 ---------------------------------------- -- line 731 ---------------------------------------- . // ['x, 'b] . let bound_pred = self.kind(); . let pred_bound_vars = bound_pred.bound_vars(); . let trait_bound_vars = trait_ref.bound_vars(); . // 1) Self: Bar1<'a, '^0.0> -> Self: Bar1<'a, '^0.1> . let shifted_pred = . tcx.shift_bound_var_indices(trait_bound_vars.len(), bound_pred.skip_binder()); . // 2) Self: Bar1<'a, '^0.1> -> T: Bar1<'^0.0, '^0.1> 361 ( 0.00%) let new = shifted_pred.subst(tcx, trait_ref.skip_binder().substs); . // 3) ['x] + ['b] -> ['x, 'b] . let bound_vars = . tcx.mk_bound_variable_kinds(trait_bound_vars.iter().chain(pred_bound_vars)); 3,249 ( 0.00%) tcx.reuse_or_mk_predicate(self, ty::Binder::bind_with_vars(new, bound_vars)) 2,527 ( 0.00%) } . } . 1,871 ( 0.00%) #[derive(Clone, Copy, PartialEq, Eq, Hash, TyEncodable, TyDecodable)] 90,741 ( 0.03%) #[derive(HashStable, TypeFoldable)] . pub struct TraitPredicate<'tcx> { . pub trait_ref: TraitRef<'tcx>, . 108,851 ( 0.04%) pub constness: BoundConstness, . 119,724 ( 0.04%) pub polarity: ImplPolarity, . } . . pub type PolyTraitPredicate<'tcx> = ty::Binder<'tcx, TraitPredicate<'tcx>>; . . impl<'tcx> TraitPredicate<'tcx> { 17,072 ( 0.01%) pub fn remap_constness(&mut self, tcx: TyCtxt<'tcx>, param_env: &mut ParamEnv<'tcx>) { 14,942 ( 0.00%) if unlikely!(Some(self.trait_ref.def_id) == tcx.lang_items().drop_trait()) { . // remap without changing constness of this predicate. . // this is because `T: ~const Drop` has a different meaning to `T: Drop` 4 ( 0.00%) param_env.remap_constness_with(self.constness) . } else { 2,132 ( 0.00%) *param_env = param_env.with_constness(self.constness.and(param_env.constness())) . } 12,804 ( 0.00%) } . . /// Remap the constness of this predicate before emitting it for diagnostics. . pub fn remap_constness_diag(&mut self, param_env: ParamEnv<'tcx>) { . // this is different to `remap_constness` that callees want to print this predicate . // in case of selection errors. `T: ~const Drop` bounds cannot end up here when the . // param_env is not const because we it is always satisfied in non-const contexts. . if let hir::Constness::NotConst = param_env.constness() { . self.constness = ty::BoundConstness::NotConst; . } . } . . pub fn def_id(self) -> DefId { 3,688 ( 0.00%) self.trait_ref.def_id 1,844 ( 0.00%) } . 3,404 ( 0.00%) pub fn self_ty(self) -> Ty<'tcx> { 10,212 ( 0.00%) self.trait_ref.self_ty() 6,808 ( 0.00%) } . } . . impl<'tcx> PolyTraitPredicate<'tcx> { . pub fn def_id(self) -> DefId { . // Ok to skip binder since trait `DefId` does not care about regions. . self.skip_binder().def_id() 5,723 ( 0.00%) } . . pub fn self_ty(self) -> ty::Binder<'tcx, Ty<'tcx>> { . self.map_bound(|trait_ref| trait_ref.self_ty()) . } . . /// Remap the constness of this predicate before emitting it for diagnostics. . pub fn remap_constness_diag(&mut self, param_env: ParamEnv<'tcx>) { . *self = self.map_bound(|mut p| { . p.remap_constness_diag(param_env); . p . }); . } . } . . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 203 ( 0.00%) #[derive(HashStable, TypeFoldable)] 289 ( 0.00%) pub struct OutlivesPredicate(pub A, pub B); // `A: B` . pub type RegionOutlivesPredicate<'tcx> = OutlivesPredicate, ty::Region<'tcx>>; . pub type TypeOutlivesPredicate<'tcx> = OutlivesPredicate, ty::Region<'tcx>>; . pub type PolyRegionOutlivesPredicate<'tcx> = ty::Binder<'tcx, RegionOutlivesPredicate<'tcx>>; . pub type PolyTypeOutlivesPredicate<'tcx> = ty::Binder<'tcx, TypeOutlivesPredicate<'tcx>>; . . /// Encodes that `a` must be a subtype of `b`. The `a_is_expected` flag indicates . /// whether the `a` type is the type that we should label as "expected" when . /// presenting user diagnostics. . #[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, TyEncodable, TyDecodable)] 56 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct SubtypePredicate<'tcx> { 86 ( 0.00%) pub a_is_expected: bool, . pub a: Ty<'tcx>, . pub b: Ty<'tcx>, . } . pub type PolySubtypePredicate<'tcx> = ty::Binder<'tcx, SubtypePredicate<'tcx>>; . . /// Encodes that we have to coerce *from* the `a` type to the `b` type. . #[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, TyEncodable, TyDecodable)] . #[derive(HashStable, TypeFoldable)] . pub struct CoercePredicate<'tcx> { . pub a: Ty<'tcx>, . pub b: Ty<'tcx>, . } . pub type PolyCoercePredicate<'tcx> = ty::Binder<'tcx, CoercePredicate<'tcx>>; . 152 ( 0.00%) #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash, PartialOrd, Ord, TyEncodable, TyDecodable)] 316 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub enum Term<'tcx> { . Ty(Ty<'tcx>), . Const(&'tcx Const<'tcx>), . } . . impl<'tcx> From> for Term<'tcx> { . fn from(ty: Ty<'tcx>) -> Self { . Term::Ty(ty) 39 ( 0.00%) } . } . . impl<'tcx> From<&'tcx Const<'tcx>> for Term<'tcx> { . fn from(c: &'tcx Const<'tcx>) -> Self { . Term::Const(c) . } . } . . impl<'tcx> Term<'tcx> { . pub fn ty(&self) -> Option> { 50 ( 0.00%) if let Term::Ty(ty) = self { Some(ty) } else { None } 25 ( 0.00%) } . } . . /// This kind of predicate has no *direct* correspondent in the . /// syntax, but it roughly corresponds to the syntactic forms: . /// . /// 1. `T: TraitRef<..., Item = Type>` . /// 2. `>::Item == Type` (NYI) . /// . /// In particular, form #1 is "desugared" to the combination of a . /// normal trait predicate (`T: TraitRef<...>`) and one of these . /// predicates. Form #2 is a broader form in that it also permits . /// equality between arbitrary types. Processing an instance of . /// Form #2 eventually yields one of these `ProjectionPredicate` . /// instances to normalize the LHS. . #[derive(Copy, Clone, PartialEq, Eq, Hash, TyEncodable, TyDecodable)] 86 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct ProjectionPredicate<'tcx> { . pub projection_ty: ProjectionTy<'tcx>, 78 ( 0.00%) pub term: Term<'tcx>, . } . . pub type PolyProjectionPredicate<'tcx> = Binder<'tcx, ProjectionPredicate<'tcx>>; . . impl<'tcx> PolyProjectionPredicate<'tcx> { . /// Returns the `DefId` of the trait of the associated item being projected. . #[inline] . pub fn trait_def_id(&self, tcx: TyCtxt<'tcx>) -> DefId { -- line 886 ---------------------------------------- -- line 905 ---------------------------------------- . } . . /// The `DefId` of the `TraitItem` for the associated type. . /// . /// Note that this is not the `DefId` of the `TraitRef` containing this . /// associated type, which is in `tcx.associated_item(projection_def_id()).container`. . pub fn projection_def_id(&self) -> DefId { . // Ok to skip binder since trait `DefId` does not care about regions. 2 ( 0.00%) self.skip_binder().projection_ty.item_def_id 1 ( 0.00%) } . } . . pub trait ToPolyTraitRef<'tcx> { . fn to_poly_trait_ref(&self) -> PolyTraitRef<'tcx>; . } . . impl<'tcx> ToPolyTraitRef<'tcx> for PolyTraitPredicate<'tcx> { 662 ( 0.00%) fn to_poly_trait_ref(&self) -> PolyTraitRef<'tcx> { 662 ( 0.00%) self.map_bound_ref(|trait_pred| trait_pred.trait_ref) 662 ( 0.00%) } . } . . pub trait ToPredicate<'tcx> { . fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx>; . } . . impl<'tcx> ToPredicate<'tcx> for Binder<'tcx, PredicateKind<'tcx>> { . #[inline(always)] . fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx> { . tcx.mk_predicate(self) . } . } . . impl<'tcx> ToPredicate<'tcx> for PolyTraitPredicate<'tcx> { 977 ( 0.00%) fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx> { 4,885 ( 0.00%) self.map_bound(PredicateKind::Trait).to_predicate(tcx) 1,954 ( 0.00%) } . } . . impl<'tcx> ToPredicate<'tcx> for PolyRegionOutlivesPredicate<'tcx> { . fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx> { . self.map_bound(PredicateKind::RegionOutlives).to_predicate(tcx) . } . } . . impl<'tcx> ToPredicate<'tcx> for PolyTypeOutlivesPredicate<'tcx> { . fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx> { . self.map_bound(PredicateKind::TypeOutlives).to_predicate(tcx) . } . } . . impl<'tcx> ToPredicate<'tcx> for PolyProjectionPredicate<'tcx> { 13 ( 0.00%) fn to_predicate(self, tcx: TyCtxt<'tcx>) -> Predicate<'tcx> { 65 ( 0.00%) self.map_bound(PredicateKind::Projection).to_predicate(tcx) 26 ( 0.00%) } . } . . impl<'tcx> Predicate<'tcx> { 3,576 ( 0.00%) pub fn to_opt_poly_trait_pred(self) -> Option> { . let predicate = self.kind(); 10,728 ( 0.00%) match predicate.skip_binder() { 8,935 ( 0.00%) PredicateKind::Trait(t) => Some(predicate.rebind(t)), . PredicateKind::Projection(..) . | PredicateKind::Subtype(..) . | PredicateKind::Coerce(..) . | PredicateKind::RegionOutlives(..) . | PredicateKind::WellFormed(..) . | PredicateKind::ObjectSafe(..) . | PredicateKind::ClosureKind(..) . | PredicateKind::TypeOutlives(..) . | PredicateKind::ConstEvaluatable(..) . | PredicateKind::ConstEquate(..) 1 ( 0.00%) | PredicateKind::TypeWellFormedFromEnv(..) => None, . } 3,576 ( 0.00%) } . 39 ( 0.00%) pub fn to_opt_type_outlives(self) -> Option> { . let predicate = self.kind(); 78 ( 0.00%) match predicate.skip_binder() { . PredicateKind::TypeOutlives(data) => Some(predicate.rebind(data)), . PredicateKind::Trait(..) . | PredicateKind::Projection(..) . | PredicateKind::Subtype(..) . | PredicateKind::Coerce(..) . | PredicateKind::RegionOutlives(..) . | PredicateKind::WellFormed(..) . | PredicateKind::ObjectSafe(..) . | PredicateKind::ClosureKind(..) . | PredicateKind::ConstEvaluatable(..) . | PredicateKind::ConstEquate(..) 39 ( 0.00%) | PredicateKind::TypeWellFormedFromEnv(..) => None, . } 39 ( 0.00%) } . } . . /// Represents the bounds declared on a particular set of type . /// parameters. Should eventually be generalized into a flag list of . /// where-clauses. You can obtain an `InstantiatedPredicates` list from a . /// `GenericPredicates` by using the `instantiate` method. Note that this method . /// reflects an important semantic invariant of `InstantiatedPredicates`: while . /// the `GenericPredicates` are expressed in terms of the bound type -- line 1005 ---------------------------------------- -- line 1011 ---------------------------------------- . /// Example: . /// . /// struct Foo> { ... } . /// . /// Here, the `GenericPredicates` for `Foo` would contain a list of bounds like . /// `[[], [U:Bar]]`. Now if there were some particular reference . /// like `Foo`, then the `InstantiatedPredicates` would be `[[], . /// [usize:Bar]]`. 1,020 ( 0.00%) #[derive(Clone, Debug, TypeFoldable)] . pub struct InstantiatedPredicates<'tcx> { . pub predicates: Vec>, . pub spans: Vec, . } . . impl<'tcx> InstantiatedPredicates<'tcx> { . pub fn empty() -> InstantiatedPredicates<'tcx> { 18,582 ( 0.01%) InstantiatedPredicates { predicates: vec![], spans: vec![] } . } . . pub fn is_empty(&self) -> bool { . self.predicates.is_empty() 1 ( 0.00%) } . } . . #[derive(Copy, Clone, Debug, PartialEq, Eq, HashStable, TyEncodable, TyDecodable, TypeFoldable)] . pub struct OpaqueTypeKey<'tcx> { . pub def_id: DefId, . pub substs: SubstsRef<'tcx>, . } . -- line 1040 ---------------------------------------- -- line 1091 ---------------------------------------- . /// ``` . /// for<'a> fn(&'a u32) . /// ``` . /// . /// Once we "enter" into this `for<'a>` quantifier, we are in a . /// new universe that extends `U` -- in this new universe, we can . /// name the region `'a`, but that region was not nameable from . /// `U` because it was not in scope there. 9,621 ( 0.00%) pub fn next_universe(self) -> UniverseIndex { . UniverseIndex::from_u32(self.private.checked_add(1).unwrap()) 28,863 ( 0.01%) } . . /// Returns `true` if `self` can name a name from `other` -- in other words, . /// if the set of names in `self` is a superset of those in . /// `other` (`self >= other`). . pub fn can_name(self, other: UniverseIndex) -> bool { 804 ( 0.00%) self.private >= other.private 402 ( 0.00%) } . . /// Returns `true` if `self` cannot name some names from `other` -- in other . /// words, if the set of names in `self` is a strict subset of . /// those in `other` (`self < other`). . pub fn cannot_name(self, other: UniverseIndex) -> bool { . self.private < other.private . } . } -- line 1116 ---------------------------------------- -- line 1194 ---------------------------------------- . /// aren't allowed to call that query: it is equal to `type_of(const_param)` which is . /// trivial to compute. . /// . /// If we now want to use that constant in a place which potentionally needs its type . /// we also pass the type of its `const_param`. This is the point of `WithOptConstParam`, . /// except that instead of a `Ty` we bundle the `DefId` of the const parameter. . /// Meaning that we need to use `type_of(const_param_did)` if `const_param_did` is `Some` . /// to get the type of `did`. 1,152 ( 0.00%) #[derive(Copy, Clone, Debug, TypeFoldable, Lift, TyEncodable, TyDecodable)] . #[derive(PartialEq, Eq, PartialOrd, Ord)] . #[derive(Hash, HashStable)] . pub struct WithOptConstParam { 2,152 ( 0.00%) pub did: T, . /// The `DefId` of the corresponding generic parameter in case `did` is . /// a const argument. . /// . /// Note that even if `did` is a const argument, this may still be `None`. . /// All queries taking `WithOptConstParam` start by calling `tcx.opt_const_param_of(def.did)` . /// to potentially update `param_did` in the case it is `None`. 1,968 ( 0.00%) pub const_param_did: Option, . } . . impl WithOptConstParam { . /// Creates a new `WithOptConstParam` setting `const_param_did` to `None`. . #[inline(always)] . pub fn unknown(did: T) -> WithOptConstParam { . WithOptConstParam { did, const_param_did: None } 2,832 ( 0.00%) } . } . . impl WithOptConstParam { . /// Returns `Some((did, param_did))` if `def_id` is a const argument, . /// `None` otherwise. . #[inline(always)] . pub fn try_lookup(did: LocalDefId, tcx: TyCtxt<'_>) -> Option<(LocalDefId, DefId)> { . tcx.opt_const_param_of(did).map(|param_did| (did, param_did)) . } . . /// In case `self` is unknown but `self.did` is a const argument, this returns . /// a `WithOptConstParam` with the correct `const_param_did`. . #[inline(always)] . pub fn try_upgrade(self, tcx: TyCtxt<'_>) -> Option> { 536 ( 0.00%) if self.const_param_did.is_none() { 808 ( 0.00%) if let const_param_did @ Some(_) = tcx.opt_const_param_of(self.did) { . return Some(WithOptConstParam { did: self.did, const_param_did }); . } . } . . None . } . . pub fn to_global(self) -> WithOptConstParam { . WithOptConstParam { did: self.did.to_def_id(), const_param_did: self.const_param_did } . } . 512 ( 0.00%) pub fn def_id_for_type_of(self) -> DefId { 1,152 ( 0.00%) if let Some(did) = self.const_param_did { did } else { self.did.to_def_id() } 128 ( 0.00%) } . } . . impl WithOptConstParam { 272 ( 0.00%) pub fn as_local(self) -> Option> { . self.did . .as_local() . .map(|did| WithOptConstParam { did, const_param_did: self.const_param_did }) 272 ( 0.00%) } . . pub fn as_const_arg(self) -> Option<(LocalDefId, DefId)> { 18 ( 0.00%) if let Some(param_did) = self.const_param_did { 9 ( 0.00%) if let Some(did) = self.did.as_local() { . return Some((did, param_did)); . } . } . . None . } . . pub fn is_local(self) -> bool { . self.did.is_local() . } . 4 ( 0.00%) pub fn def_id_for_type_of(self) -> DefId { . self.const_param_did.unwrap_or(self.did) 4 ( 0.00%) } . } . . /// When type checking, we use the `ParamEnv` to track . /// details about the set of where-clauses that are in scope at this . /// particular point. . #[derive(Copy, Clone, Hash, PartialEq, Eq)] . pub struct ParamEnv<'tcx> { . /// This packs both caller bounds and the reveal enum into one pointer. -- line 1285 ---------------------------------------- -- line 1302 ---------------------------------------- . reveal: traits::Reveal, . constness: hir::Constness, . } . . unsafe impl rustc_data_structures::tagged_ptr::Tag for ParamTag { . const BITS: usize = 2; . #[inline] . fn into_usize(self) -> usize { 1,531 ( 0.00%) match self { . Self { reveal: traits::Reveal::UserFacing, constness: hir::Constness::NotConst } => 0, . Self { reveal: traits::Reveal::All, constness: hir::Constness::NotConst } => 1, . Self { reveal: traits::Reveal::UserFacing, constness: hir::Constness::Const } => 2, . Self { reveal: traits::Reveal::All, constness: hir::Constness::Const } => 3, . } . } . #[inline] . unsafe fn from_usize(ptr: usize) -> Self { 74,523 ( 0.02%) match ptr { . 0 => Self { reveal: traits::Reveal::UserFacing, constness: hir::Constness::NotConst }, . 1 => Self { reveal: traits::Reveal::All, constness: hir::Constness::NotConst }, . 2 => Self { reveal: traits::Reveal::UserFacing, constness: hir::Constness::Const }, . 3 => Self { reveal: traits::Reveal::All, constness: hir::Constness::Const }, . _ => std::hint::unreachable_unchecked(), . } . } . } -- line 1327 ---------------------------------------- -- line 1430 ---------------------------------------- . #[inline] . pub fn without_const(mut self) -> Self { . self.packed.set_tag(ParamTag { constness: hir::Constness::NotConst, ..self.packed.tag() }); . self . } . . #[inline] . pub fn remap_constness_with(&mut self, mut constness: ty::BoundConstness) { 158 ( 0.00%) *self = self.with_constness(constness.and(self.constness())) . } . . /// Returns a new parameter environment with the same clauses, but . /// which "reveals" the true results of projections in all cases . /// (even for associated types that are specializable). This is . /// the desired behavior during codegen and certain other special . /// contexts; normally though we want to use `Reveal::UserFacing`, . /// which is the default. . /// All opaque types in the caller_bounds of the `ParamEnv` . /// will be normalized to their underlying types. . /// See PR #65989 and issue #65918 for more details 1,064 ( 0.00%) pub fn with_reveal_all_normalized(self, tcx: TyCtxt<'tcx>) -> Self { . if self.packed.tag().reveal == traits::Reveal::All { . return self; . } . . ParamEnv::new( . tcx.normalize_opaque_types(self.caller_bounds()), . Reveal::All, . self.constness(), . ) 1,197 ( 0.00%) } . . /// Returns this same environment but with no caller bounds. . #[inline] . pub fn without_caller_bounds(self) -> Self { . Self::new(List::empty(), self.reveal(), self.constness()) . } . . /// Creates a suitable environment in which to perform trait -- line 1468 ---------------------------------------- -- line 1472 ---------------------------------------- . /// pair it with the empty environment. This improves caching and is generally . /// invisible. . /// . /// N.B., we preserve the environment when type-checking because it . /// is possible for the user to have wacky where-clauses like . /// `where Box: Copy`, which are clearly never . /// satisfiable. We generally want to behave as if they were true, . /// although the surrounding function is never reachable. 5,119 ( 0.00%) pub fn and>(self, value: T) -> ParamEnvAnd<'tcx, T> { . match self.reveal() { . Reveal::UserFacing => ParamEnvAnd { param_env: self, value }, . . Reveal::All => { 2 ( 0.00%) if value.is_global() { . ParamEnvAnd { param_env: self.without_caller_bounds(), value } . } else { . ParamEnvAnd { param_env: self, value } . } . } . } 5,094 ( 0.00%) } . } . . // FIXME(ecstaticmorse): Audit all occurrences of `without_const().to_predicate(tcx)` to ensure that . // the constness of trait bounds is being propagated correctly. . impl<'tcx> PolyTraitRef<'tcx> { . #[inline] . pub fn with_constness(self, constness: BoundConstness) -> PolyTraitPredicate<'tcx> { 484 ( 0.00%) self.map_bound(|trait_ref| ty::TraitPredicate { . trait_ref, . constness, . polarity: ty::ImplPolarity::Positive, . }) . } . #[inline] . pub fn without_const(self) -> PolyTraitPredicate<'tcx> { . self.with_constness(BoundConstness::NotConst) . } . } . 27 ( 0.00%) #[derive(Copy, Clone, Debug, PartialEq, Eq, Hash, TypeFoldable)] . pub struct ParamEnvAnd<'tcx, T> { 1,354 ( 0.00%) pub param_env: ParamEnv<'tcx>, 14,710 ( 0.00%) pub value: T, . } . . impl<'tcx, T> ParamEnvAnd<'tcx, T> { . pub fn into_parts(self) -> (ParamEnv<'tcx>, T) { . (self.param_env, self.value) . } . . #[inline] . pub fn without_const(mut self) -> Self { . self.param_env = self.param_env.without_const(); 27 ( 0.00%) self . } . } . . impl<'a, 'tcx, T> HashStable> for ParamEnvAnd<'tcx, T> . where . T: HashStable>, . { . fn hash_stable(&self, hcx: &mut StableHashingContext<'a>, hasher: &mut StableHasher) { -- line 1534 ---------------------------------------- -- line 1542 ---------------------------------------- . #[derive(Copy, Clone, Debug, HashStable)] . pub struct Destructor { . /// The `DefId` of the destructor method . pub did: DefId, . /// The constness of the destructor method . pub constness: hir::Constness, . } . 48 ( 0.00%) bitflags! { 135 ( 0.00%) #[derive(HashStable, TyEncodable, TyDecodable)] . pub struct VariantFlags: u32 { . const NO_VARIANT_FLAGS = 0; . /// Indicates whether the field list of this variant is `#[non_exhaustive]`. . const IS_FIELD_LIST_NON_EXHAUSTIVE = 1 << 0; . /// Indicates whether this variant was obtained as part of recovering from . /// a syntactic error. May be incomplete or bogus. . const IS_RECOVERED = 1 << 1; . } . } . . /// Definition of a variant -- a struct's fields or an enum variant. 29,103 ( 0.01%) #[derive(Debug, HashStable, TyEncodable, TyDecodable)] . pub struct VariantDef { . /// `DefId` that identifies the variant itself. . /// If this variant belongs to a struct or union, then this is a copy of its `DefId`. . pub def_id: DefId, . /// `DefId` that identifies the variant's constructor. . /// If this variant is a struct variant, then this is `None`. . pub ctor_def_id: Option, . /// Variant or struct name. -- line 1571 ---------------------------------------- -- line 1592 ---------------------------------------- . /// `parent_did` is the `DefId` of the `AdtDef` representing the enum or struct that . /// owns this variant. It is used for checking if a struct has `#[non_exhaustive]` w/out having . /// to go through the redirect of checking the ctor's attributes - but compiling a small crate . /// requires loading the `AdtDef`s for all the structs in the universe (e.g., coherence for any . /// built-in trait), and we do not want to load attributes twice. . /// . /// If someone speeds up attribute loading to not be a performance concern, they can . /// remove this hack and use the constructor `DefId` everywhere. 96 ( 0.00%) pub fn new( . name: Symbol, . variant_did: Option, . ctor_def_id: Option, . discr: VariantDiscr, . fields: Vec, . ctor_kind: CtorKind, . adt_kind: AdtKind, . parent_did: DefId, -- line 1608 ---------------------------------------- -- line 1611 ---------------------------------------- . ) -> Self { . debug!( . "VariantDef::new(name = {:?}, variant_did = {:?}, ctor_def_id = {:?}, discr = {:?}, . fields = {:?}, ctor_kind = {:?}, adt_kind = {:?}, parent_did = {:?})", . name, variant_did, ctor_def_id, discr, fields, ctor_kind, adt_kind, parent_did, . ); . . let mut flags = VariantFlags::NO_VARIANT_FLAGS; 12 ( 0.00%) if is_field_list_non_exhaustive { . flags |= VariantFlags::IS_FIELD_LIST_NON_EXHAUSTIVE; . } . 36 ( 0.00%) if recovered { . flags |= VariantFlags::IS_RECOVERED; . } . 108 ( 0.00%) VariantDef { . def_id: variant_did.unwrap_or(parent_did), . ctor_def_id, . name, . discr, 48 ( 0.00%) fields, . ctor_kind, . flags, . } 48 ( 0.00%) } . . /// Is this field list non-exhaustive? . #[inline] . pub fn is_field_list_non_exhaustive(&self) -> bool { . self.flags.intersects(VariantFlags::IS_FIELD_LIST_NON_EXHAUSTIVE) . } . . /// Was this variant obtained as part of recovering from a syntactic error? . #[inline] . pub fn is_recovered(&self) -> bool { . self.flags.intersects(VariantFlags::IS_RECOVERED) . } . . /// Computes the `Ident` of this variant by looking up the `Span` 56 ( 0.00%) pub fn ident(&self, tcx: TyCtxt<'_>) -> Ident { 32 ( 0.00%) Ident::new(self.name, tcx.def_ident_span(self.def_id).unwrap()) 72 ( 0.00%) } . } . 20,047 ( 0.01%) #[derive(Copy, Clone, Debug, PartialEq, Eq, TyEncodable, TyDecodable, HashStable)] . pub enum VariantDiscr { . /// Explicit value for this variant, i.e., `X = 123`. . /// The `DefId` corresponds to the embedded constant. . Explicit(DefId), . . /// The previous variant's discriminant plus one. . /// For efficiency reasons, the distance from the . /// last `Explicit` discriminant is being stored, . /// or `0` for the first variant, if it has none. . Relative(u32), . } . 44,441 ( 0.01%) #[derive(Debug, HashStable, TyEncodable, TyDecodable)] . pub struct FieldDef { . pub did: DefId, . pub name: Symbol, . pub vis: Visibility, . } . 3 ( 0.00%) bitflags! { . #[derive(TyEncodable, TyDecodable, Default, HashStable)] . pub struct ReprFlags: u8 { . const IS_C = 1 << 0; . const IS_SIMD = 1 << 1; . const IS_TRANSPARENT = 1 << 2; . // Internal only for now. If true, don't reorder fields. . const IS_LINEAR = 1 << 3; . // If true, don't expose any niche to type's context. -- line 1684 ---------------------------------------- -- line 1689 ---------------------------------------- . // Any of these flags being set prevent field reordering optimisation. . const IS_UNOPTIMISABLE = ReprFlags::IS_C.bits . | ReprFlags::IS_SIMD.bits . | ReprFlags::IS_LINEAR.bits; . } . } . . /// Represents the repr options provided by the user, 35,298 ( 0.01%) #[derive(Copy, Clone, Debug, Eq, PartialEq, TyEncodable, TyDecodable, Default, HashStable)] . pub struct ReprOptions { . pub int: Option, . pub align: Option, . pub pack: Option, . pub flags: ReprFlags, . /// The seed to be used for randomizing a type's layout . /// . /// Note: This could technically be a `[u8; 16]` (a `u128`) which would -- line 1705 ---------------------------------------- -- line 1706 ---------------------------------------- . /// be the "most accurate" hash as it'd encompass the item and crate . /// hash without loss, but it does pay the price of being larger. . /// Everything's a tradeoff, a `u64` seed should be sufficient for our . /// purposes (primarily `-Z randomize-layout`) . pub field_shuffle_seed: u64, . } . . impl ReprOptions { 13 ( 0.00%) pub fn new(tcx: TyCtxt<'_>, did: DefId) -> ReprOptions { . let mut flags = ReprFlags::empty(); . let mut size = None; . let mut max_align: Option = None; . let mut min_pack: Option = None; . . // Generate a deterministically-derived seed from the item's path hash . // to allow for cross-crate compilation to actually work . let mut field_shuffle_seed = tcx.def_path_hash(did).0.to_smaller_hash(); . . // If the user defined a custom seed for layout randomization, xor the item's . // path hash with the user defined seed, this will allowing determinism while . // still allowing users to further randomize layout generation for e.g. fuzzing 3 ( 0.00%) if let Some(user_seed) = tcx.sess.opts.debugging_opts.layout_seed { . field_shuffle_seed ^= user_seed; . } . 4 ( 0.00%) for attr in tcx.get_attrs(did).iter() { 35 ( 0.00%) for r in attr::find_repr_attrs(&tcx.sess, attr) { . flags.insert(match r { . attr::ReprC => ReprFlags::IS_C, . attr::ReprPacked(pack) => { . let pack = Align::from_bytes(pack as u64).unwrap(); . min_pack = Some(if let Some(min_pack) = min_pack { . min_pack.min(pack) . } else { . pack -- line 1740 ---------------------------------------- -- line 1753 ---------------------------------------- . ReprFlags::empty() . } . }); . } . } . . // If `-Z randomize-layout` was enabled for the type definition then we can . // consider performing layout randomization 8 ( 0.00%) if tcx.sess.opts.debugging_opts.randomize_layout { . flags.insert(ReprFlags::RANDOMIZE_LAYOUT); . } . . // This is here instead of layout because the choice must make it into metadata. 6 ( 0.00%) if !tcx.consider_optimizing(|| format!("Reorder fields of {:?}", tcx.def_path_str(did))) { . flags.insert(ReprFlags::IS_LINEAR); . } . 2 ( 0.00%) Self { int: size, align: max_align, pack: min_pack, flags, field_shuffle_seed } 28 ( 0.00%) } . . #[inline] . pub fn simd(&self) -> bool { . self.flags.contains(ReprFlags::IS_SIMD) . } . . #[inline] . pub fn c(&self) -> bool { -- line 1779 ---------------------------------------- -- line 1798 ---------------------------------------- . #[inline] . pub fn hide_niche(&self) -> bool { . self.flags.contains(ReprFlags::HIDE_NICHE) . } . . /// Returns the discriminant type, given these `repr` options. . /// This must only be called on enums! . pub fn discr_type(&self) -> attr::IntType { 20 ( 0.00%) self.int.unwrap_or(attr::SignedInt(ast::IntTy::Isize)) 12 ( 0.00%) } . . /// Returns `true` if this `#[repr()]` should inhabit "smart enum . /// layout" optimizations, such as representing `Foo<&T>` as a . /// single pointer. . pub fn inhibit_enum_layout_opt(&self) -> bool { . self.c() || self.int.is_some() . } . -- line 1815 ---------------------------------------- -- line 1836 ---------------------------------------- . pub fn inhibit_union_abi_opt(&self) -> bool { . self.c() . } . } . . impl<'tcx> FieldDef { . /// Returns the type of this field. The resulting type is not normalized. The `subst` is . /// typically obtained via the second field of [`TyKind::Adt`]. 518 ( 0.00%) pub fn ty(&self, tcx: TyCtxt<'tcx>, subst: SubstsRef<'tcx>) -> Ty<'tcx> { 148 ( 0.00%) tcx.type_of(self.did).subst(tcx, subst) 592 ( 0.00%) } . . /// Computes the `Ident` of this variant by looking up the `Span` 154 ( 0.00%) pub fn ident(&self, tcx: TyCtxt<'_>) -> Ident { 88 ( 0.00%) Ident::new(self.name, tcx.def_ident_span(self.did).unwrap()) 198 ( 0.00%) } . } . . pub type Attributes<'tcx> = &'tcx [ast::Attribute]; . . #[derive(Debug, PartialEq, Eq)] . pub enum ImplOverlapKind { . /// These impls are always allowed to overlap. . Permitted { -- line 1859 ---------------------------------------- -- line 1891 ---------------------------------------- . /// marker traits. . /// 4. Neither of the impls can have any where-clauses. . /// . /// Once `traitobject` 0.1.0 is no longer an active concern, this hack can be removed. . Issue33140, . } . . impl<'tcx> TyCtxt<'tcx> { 5,488 ( 0.00%) pub fn typeck_body(self, body: hir::BodyId) -> &'tcx TypeckResults<'tcx> { 1,372 ( 0.00%) self.typeck(self.hir().body_owner_def_id(body)) 5,488 ( 0.00%) } . . pub fn provided_trait_methods(self, id: DefId) -> impl 'tcx + Iterator { . self.associated_items(id) . .in_definition_order() . .filter(|item| item.kind == AssocKind::Fn && item.defaultness.has_value()) . } . . fn item_name_from_hir(self, def_id: DefId) -> Option { -- line 1909 ---------------------------------------- -- line 1947 ---------------------------------------- . /// . /// See [`item_name`][Self::item_name] for more information. . pub fn opt_item_name(self, def_id: DefId) -> Option { . // Look at the HIR first so the span will be correct if this is a local item. . self.item_name_from_hir(def_id) . .or_else(|| self.item_name_from_def_id(def_id).map(Ident::with_dummy_span)) . } . 7,630 ( 0.00%) pub fn opt_associated_item(self, def_id: DefId) -> Option<&'tcx AssocItem> { 3,052 ( 0.00%) if let DefKind::AssocConst | DefKind::AssocFn | DefKind::AssocTy = self.def_kind(def_id) { . Some(self.associated_item(def_id)) . } else { . None . } 6,867 ( 0.00%) } . 42 ( 0.00%) pub fn field_index(self, hir_id: hir::HirId, typeck_results: &TypeckResults<'_>) -> usize { . typeck_results.field_indices().get(hir_id).cloned().expect("no index for a field") 84 ( 0.00%) } . . pub fn find_field_index(self, ident: Ident, variant: &VariantDef) -> Option { . variant . .fields . .iter() . .position(|field| self.hygienic_eq(ident, field.ident(self), variant.def_id)) . } . . /// Returns `true` if the impls are the same polarity and the trait either . /// has no items or is annotated `#[marker]` and prevents item overrides. 10 ( 0.00%) pub fn impls_are_allowed_to_overlap( . self, . def_id1: DefId, . def_id2: DefId, . ) -> Option { . // If either trait impl references an error, they're allowed to overlap, . // as one of them essentially doesn't exist. . if self.impl_trait_ref(def_id1).map_or(false, |tr| tr.references_error()) 2 ( 0.00%) || self.impl_trait_ref(def_id2).map_or(false, |tr| tr.references_error()) . { . return Some(ImplOverlapKind::Permitted { marker: false }); . } . 9 ( 0.00%) match (self.impl_polarity(def_id1), self.impl_polarity(def_id2)) { . (ImplPolarity::Reservation, _) | (_, ImplPolarity::Reservation) => { . // `#[rustc_reservation_impl]` impls don't overlap with anything . debug!( . "impls_are_allowed_to_overlap({:?}, {:?}) = Some(Permitted) (reservations)", . def_id1, def_id2 . ); . return Some(ImplOverlapKind::Permitted { marker: false }); . } -- line 1997 ---------------------------------------- -- line 2038 ---------------------------------------- . ); . } . } . } . . debug!("impls_are_allowed_to_overlap({:?}, {:?}) = None", def_id1, def_id2); . None . } 8 ( 0.00%) } . . /// Returns `ty::VariantDef` if `res` refers to a struct, . /// or variant or their constructors, panics otherwise. . pub fn expect_variant_res(self, res: Res) -> &'tcx VariantDef { . match res { . Res::Def(DefKind::Variant, did) => { . let enum_did = self.parent(did).unwrap(); . self.adt_def(enum_did).variant_with_id(did) -- line 2054 ---------------------------------------- -- line 2091 ---------------------------------------- . | ty::InstanceDef::Virtual(..) . | ty::InstanceDef::ClosureOnceShim { .. } . | ty::InstanceDef::DropGlue(..) . | ty::InstanceDef::CloneShim(..) => self.mir_shims(instance), . } . } . . /// Gets the attributes of a definition. 113,610 ( 0.04%) pub fn get_attrs(self, did: DefId) -> Attributes<'tcx> { 34,083 ( 0.01%) if let Some(did) = did.as_local() { 33,942 ( 0.01%) self.hir().attrs(self.hir().local_def_id_to_hir_id(did)) . } else { . self.item_attrs(did) . } 90,888 ( 0.03%) } . . /// Determines whether an item is annotated with an attribute. 4,020 ( 0.00%) pub fn has_attr(self, did: DefId, attr: Symbol) -> bool { 9,360 ( 0.00%) self.sess.contains_name(&self.get_attrs(did), attr) . } . . /// Determines whether an item is annotated with `doc(hidden)`. 7 ( 0.00%) pub fn is_doc_hidden(self, did: DefId) -> bool { 1 ( 0.00%) self.get_attrs(did) . .iter() . .filter_map(|attr| if attr.has_name(sym::doc) { attr.meta_item_list() } else { None }) . .any(|items| items.iter().any(|item| item.has_name(sym::hidden))) 8 ( 0.00%) } . . /// Returns `true` if this is an `auto trait`. 2,730 ( 0.00%) pub fn trait_is_auto(self, trait_def_id: DefId) -> bool { 390 ( 0.00%) self.trait_def(trait_def_id).has_auto_impl 3,120 ( 0.00%) } . . /// Returns layout of a generator. Layout might be unavailable if the . /// generator is tainted by errors. . pub fn generator_layout(self, def_id: DefId) -> Option<&'tcx GeneratorLayout<'tcx>> { . self.optimized_mir(def_id).generator_layout() . } . . /// Given the `DefId` of an impl, returns the `DefId` of the trait it implements. . /// If it implements no trait, returns `None`. 105 ( 0.00%) pub fn trait_id_of_impl(self, def_id: DefId) -> Option { . self.impl_trait_ref(def_id).map(|tr| tr.def_id) 135 ( 0.00%) } . . /// If the given defid describes a method belonging to an impl, returns the . /// `DefId` of the impl that the method belongs to; otherwise, returns `None`. 8 ( 0.00%) pub fn impl_of_method(self, def_id: DefId) -> Option { 32 ( 0.00%) self.opt_associated_item(def_id).and_then(|trait_item| match trait_item.container { . TraitContainer(_) => None, . ImplContainer(def_id) => Some(def_id), . }) 16 ( 0.00%) } . . /// Looks up the span of `impl_did` if the impl is local; otherwise returns `Err` . /// with the name of the crate containing the impl. . pub fn span_of_impl(self, impl_did: DefId) -> Result { . if let Some(impl_did) = impl_did.as_local() { . Ok(self.def_span(impl_did)) . } else { . Err(self.crate_name(impl_did.krate)) . } . } . . /// Hygienically compares a use-site name (`use_name`) for a field or an associated item with . /// its supposed definition name (`def_name`). The method also needs `DefId` of the supposed . /// definition's parent/scope to perform comparison. 136 ( 0.00%) pub fn hygienic_eq(self, use_name: Ident, def_name: Ident, def_parent_def_id: DefId) -> bool { . // We could use `Ident::eq` here, but we deliberately don't. The name . // comparison fails frequently, and we want to avoid the expensive . // `normalize_to_macros_2_0()` calls required for the span comparison whenever possible. 17 ( 0.00%) use_name.name == def_name.name 51 ( 0.00%) && use_name . .span . .ctxt() . .hygienic_eq(def_name.span.ctxt(), self.expn_that_defined(def_parent_def_id)) 136 ( 0.00%) } . 90 ( 0.00%) pub fn adjust_ident(self, mut ident: Ident, scope: DefId) -> Ident { 20 ( 0.00%) ident.span.normalize_to_macros_2_0_and_adjust(self.expn_that_defined(scope)); 20 ( 0.00%) ident 80 ( 0.00%) } . 198 ( 0.00%) pub fn adjust_ident_and_get_scope( . self, . mut ident: Ident, . scope: DefId, . block: hir::HirId, . ) -> (Ident, DefId) { 22 ( 0.00%) let scope = ident . .span . .normalize_to_macros_2_0_and_adjust(self.expn_that_defined(scope)) . .and_then(|actual_expansion| actual_expansion.expn_data().parent_module) 88 ( 0.00%) .unwrap_or_else(|| self.parent_module(block).to_def_id()); 132 ( 0.00%) (ident, scope) 198 ( 0.00%) } . . pub fn is_object_safe(self, key: DefId) -> bool { . self.object_safety_violations(key).is_empty() . } . } . . /// Yields the parent function's `LocalDefId` if `def_id` is an `impl Trait` definition. 999 ( 0.00%) pub fn is_impl_trait_defn(tcx: TyCtxt<'_>, def_id: DefId) -> Option { 999 ( 0.00%) let def_id = def_id.as_local()?; 1,304 ( 0.00%) if let Node::Item(item) = tcx.hir().get_by_def_id(def_id) { 376 ( 0.00%) if let hir::ItemKind::OpaqueTy(ref opaque_ty) = item.kind { . return match opaque_ty.origin { . hir::OpaqueTyOrigin::FnReturn(parent) | hir::OpaqueTyOrigin::AsyncFn(parent) => { . Some(parent) . } . hir::OpaqueTyOrigin::TyAlias => None, . }; . } . } . None 1,332 ( 0.00%) } . . pub fn int_ty(ity: ast::IntTy) -> IntTy { . match ity { . ast::IntTy::Isize => IntTy::Isize, . ast::IntTy::I8 => IntTy::I8, . ast::IntTy::I16 => IntTy::I16, . ast::IntTy::I32 => IntTy::I32, . ast::IntTy::I64 => IntTy::I64, -- line 2216 ---------------------------------------- -- line 2262 ---------------------------------------- . closure::provide(providers); . context::provide(providers); . erase_regions::provide(providers); . layout::provide(providers); . util::provide(providers); . print::provide(providers); . super::util::bug::provide(providers); . super::middle::provide(providers); 8 ( 0.00%) *providers = ty::query::Providers { . trait_impls_of: trait_def::trait_impls_of_provider, . type_uninhabited_from: inhabitedness::type_uninhabited_from, . const_param_default: consts::const_param_default, . vtable_allocation: vtable::vtable_allocation_provider, . ..*providers . }; 1 ( 0.00%) } . . /// A map for the local crate mapping each type to a vector of its . /// inherent impls. This is not meant to be used outside of coherence; . /// rather, you should request the vector for a specific type via . /// `tcx.inherent_impls(def_id)` so as to minimize your dependencies . /// (constructing this map requires touching the entire crate). . #[derive(Clone, Debug, Default, HashStable)] . pub struct CrateInherentImpls { -- line 2285 ---------------------------------------- -- line 2288 ---------------------------------------- . . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, HashStable)] . pub struct SymbolName<'tcx> { . /// `&str` gives a consistent ordering, which ensures reproducible builds. . pub name: &'tcx str, . } . . impl<'tcx> SymbolName<'tcx> { 6 ( 0.00%) pub fn new(tcx: TyCtxt<'tcx>, name: &str) -> SymbolName<'tcx> { . SymbolName { . name: unsafe { str::from_utf8_unchecked(tcx.arena.alloc_slice(name.as_bytes())) }, . } 8 ( 0.00%) } . } . . impl<'tcx> fmt::Display for SymbolName<'tcx> { . fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { . fmt::Display::fmt(&self.name, fmt) . } . } . -- line 2308 ---------------------------------------- 641,505 ( 0.21%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/structural_impls.rs -------------------------------------------------------------------------------- Ir -- line 685 ---------------------------------------- . } . } . . impl<'tcx, T: TypeFoldable<'tcx>, U: TypeFoldable<'tcx>> TypeFoldable<'tcx> for (T, U) { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result<(T, U), F::Error> { 16 ( 0.00%) Ok((self.0.try_fold_with(folder)?, self.1.try_fold_with(folder)?)) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.0.visit_with(visitor)?; 2 ( 0.00%) self.1.visit_with(visitor) . } . } . . impl<'tcx, A: TypeFoldable<'tcx>, B: TypeFoldable<'tcx>, C: TypeFoldable<'tcx>> TypeFoldable<'tcx> . for (A, B, C) . { . fn try_super_fold_with>( . self, -- line 706 ---------------------------------------- -- line 826 ---------------------------------------- . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { . self.try_map_id(|value| value.try_fold_with(folder)) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 308 ( 0.00%) (**self).visit_with(visitor) . } . } . . impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Vec { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 756 ( 0.00%) self.try_map_id(|t| t.try_fold_with(folder)) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 72 ( 0.00%) self.iter().try_for_each(|t| t.visit_with(visitor)) . } . } . . impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for Box<[T]> { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { -- line 855 ---------------------------------------- -- line 857 ---------------------------------------- . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.iter().try_for_each(|t| t.visit_with(visitor)) . } . } . . impl<'tcx, T: TypeFoldable<'tcx>> TypeFoldable<'tcx> for ty::Binder<'tcx, T> { 1,576 ( 0.00%) fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 428,068 ( 0.14%) self.try_map_bound(|ty| ty.try_fold_with(folder)) 1,970 ( 0.00%) } . . fn try_fold_with>(self, folder: &mut F) -> Result { 224,732 ( 0.07%) folder.try_fold_binder(self) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 1,050 ( 0.00%) self.as_ref().skip_binder().visit_with(visitor) . } . . fn visit_with>(&self, visitor: &mut V) -> ControlFlow { . visitor.visit_binder(self) . } . } . . impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::List>> { -- line 885 ---------------------------------------- -- line 895 ---------------------------------------- . } . } . . impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::List> { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 592 ( 0.00%) ty::util::fold_list(self, folder, |tcx, v| tcx.intern_type_list(v)) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.iter().try_for_each(|t| t.visit_with(visitor)) . } . } . . impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::List { -- line 911 ---------------------------------------- -- line 981 ---------------------------------------- . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.instance.visit_with(visitor) . } . } . . impl<'tcx> TypeFoldable<'tcx> for Ty<'tcx> { 979 ( 0.00%) fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 493,579 ( 0.16%) let kind = match *self.kind() { 6 ( 0.00%) ty::RawPtr(tm) => ty::RawPtr(tm.try_fold_with(folder)?), 297,984 ( 0.10%) ty::Array(typ, sz) => ty::Array(typ.try_fold_with(folder)?, sz.try_fold_with(folder)?), . ty::Slice(typ) => ty::Slice(typ.try_fold_with(folder)?), 6,960 ( 0.00%) ty::Adt(tid, substs) => ty::Adt(tid, substs.try_fold_with(folder)?), . ty::Dynamic(trait_ty, region) => { . ty::Dynamic(trait_ty.try_fold_with(folder)?, region.try_fold_with(folder)?) . } 894 ( 0.00%) ty::Tuple(ts) => ty::Tuple(ts.try_fold_with(folder)?), 1,022 ( 0.00%) ty::FnDef(def_id, substs) => ty::FnDef(def_id, substs.try_fold_with(folder)?), . ty::FnPtr(f) => ty::FnPtr(f.try_fold_with(folder)?), 1,508 ( 0.00%) ty::Ref(r, ty, mutbl) => { 2,467 ( 0.00%) ty::Ref(r.try_fold_with(folder)?, ty.try_fold_with(folder)?, mutbl) . } . ty::Generator(did, substs, movability) => { . ty::Generator(did, substs.try_fold_with(folder)?, movability) . } . ty::GeneratorWitness(types) => ty::GeneratorWitness(types.try_fold_with(folder)?), . ty::Closure(did, substs) => ty::Closure(did, substs.try_fold_with(folder)?), 282 ( 0.00%) ty::Projection(data) => ty::Projection(data.try_fold_with(folder)?), . ty::Opaque(did, substs) => ty::Opaque(did, substs.try_fold_with(folder)?), . . ty::Bool . | ty::Char . | ty::Str . | ty::Int(_) . | ty::Uint(_) . | ty::Float(_) -- line 1020 ---------------------------------------- -- line 1022 ---------------------------------------- . | ty::Infer(_) . | ty::Param(..) . | ty::Bound(..) . | ty::Placeholder(..) . | ty::Never . | ty::Foreign(..) => return Ok(self), . }; . 205,596 ( 0.07%) Ok(if *self.kind() == kind { self } else { folder.tcx().mk_ty(kind) }) 1,455 ( 0.00%) } . . fn try_fold_with>(self, folder: &mut F) -> Result { 3,594 ( 0.00%) folder.try_fold_ty(self) . } . 45,497 ( 0.02%) fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 43,337 ( 0.01%) match self.kind() { . ty::RawPtr(ref tm) => tm.visit_with(visitor), 896 ( 0.00%) ty::Array(typ, sz) => { 1,792 ( 0.00%) typ.visit_with(visitor)?; 8,064 ( 0.00%) sz.visit_with(visitor) . } . ty::Slice(typ) => typ.visit_with(visitor), . ty::Adt(_, substs) => substs.visit_with(visitor), . ty::Dynamic(ref trait_ty, ref reg) => { . trait_ty.visit_with(visitor)?; . reg.visit_with(visitor) . } . ty::Tuple(ts) => ts.visit_with(visitor), . ty::FnDef(_, substs) => substs.visit_with(visitor), . ty::FnPtr(ref f) => f.visit_with(visitor), . ty::Ref(r, ty, _) => { 94 ( 0.00%) r.visit_with(visitor)?; . ty.visit_with(visitor) . } . ty::Generator(_did, ref substs, _) => substs.visit_with(visitor), . ty::GeneratorWitness(ref types) => types.visit_with(visitor), . ty::Closure(_did, ref substs) => substs.visit_with(visitor), . ty::Projection(ref data) => data.visit_with(visitor), . ty::Opaque(_, ref substs) => substs.visit_with(visitor), . -- line 1062 ---------------------------------------- -- line 1069 ---------------------------------------- . | ty::Error(_) . | ty::Infer(_) . | ty::Bound(..) . | ty::Placeholder(..) . | ty::Param(..) . | ty::Never . | ty::Foreign(..) => ControlFlow::CONTINUE, . } 36,943 ( 0.01%) } . . fn visit_with>(&self, visitor: &mut V) -> ControlFlow { 79,055 ( 0.03%) visitor.visit_ty(self) . } . } . . impl<'tcx> TypeFoldable<'tcx> for ty::Region<'tcx> { . fn try_super_fold_with>( . self, . _folder: &mut F, . ) -> Result { . Ok(self) . } . . fn try_fold_with>(self, folder: &mut F) -> Result { 97 ( 0.00%) folder.try_fold_region(self) . } . . fn super_visit_with>(&self, _visitor: &mut V) -> ControlFlow { . ControlFlow::CONTINUE . } . . fn visit_with>(&self, visitor: &mut V) -> ControlFlow { 235 ( 0.00%) visitor.visit_region(*self) . } . } . . impl<'tcx> TypeFoldable<'tcx> for ty::Predicate<'tcx> { 2,364 ( 0.00%) fn try_fold_with>(self, folder: &mut F) -> Result { . folder.try_fold_predicate(self) 1,970 ( 0.00%) } . . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 1,964 ( 0.00%) let new = self.inner.kind.try_fold_with(folder)?; 478,763 ( 0.16%) Ok(folder.tcx().reuse_or_mk_predicate(self, new)) 1,182 ( 0.00%) } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.inner.kind.visit_with(visitor) . } . . fn visit_with>(&self, visitor: &mut V) -> ControlFlow { 46,950 ( 0.02%) visitor.visit_predicate(*self) . } . . fn has_vars_bound_at_or_above(&self, binder: ty::DebruijnIndex) -> bool { 2,733 ( 0.00%) self.inner.outer_exclusive_binder > binder 2,733 ( 0.00%) } . . fn has_type_flags(&self, flags: ty::TypeFlags) -> bool { 9,074 ( 0.00%) self.inner.flags.intersects(flags) 9,074 ( 0.00%) } . } . . impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::List> { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 538 ( 0.00%) ty::util::fold_list(self, folder, |tcx, v| tcx.intern_predicates(v)) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.iter().try_for_each(|p| p.visit_with(visitor)) . } . } . . impl<'tcx, T: TypeFoldable<'tcx>, I: Idx> TypeFoldable<'tcx> for IndexVec { -- line 1148 ---------------------------------------- -- line 1158 ---------------------------------------- . } . } . . impl<'tcx> TypeFoldable<'tcx> for &'tcx ty::Const<'tcx> { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 24,921 ( 0.01%) let ty = self.ty.try_fold_with(folder)?; 420,819 ( 0.14%) let val = self.val.try_fold_with(folder)?; 124,105 ( 0.04%) if ty != self.ty || val != self.val { 117 ( 0.00%) Ok(folder.tcx().mk_const(ty::Const { ty, val })) . } else { . Ok(self) . } . } . . fn try_fold_with>(self, folder: &mut F) -> Result { 74,688 ( 0.02%) folder.try_fold_const(self) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { . self.ty.visit_with(visitor)?; . self.val.visit_with(visitor) . } . 5,376 ( 0.00%) fn visit_with>(&self, visitor: &mut V) -> ControlFlow { 3,456 ( 0.00%) visitor.visit_const(self) 6,272 ( 0.00%) } . } . . impl<'tcx> TypeFoldable<'tcx> for ty::ConstKind<'tcx> { . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result { 52,833 ( 0.02%) Ok(match self { . ty::ConstKind::Infer(ic) => ty::ConstKind::Infer(ic.try_fold_with(folder)?), . ty::ConstKind::Param(p) => ty::ConstKind::Param(p.try_fold_with(folder)?), . ty::ConstKind::Unevaluated(uv) => ty::ConstKind::Unevaluated(uv.try_fold_with(folder)?), . ty::ConstKind::Value(_) . | ty::ConstKind::Bound(..) . | ty::ConstKind::Placeholder(..) 98,404 ( 0.03%) | ty::ConstKind::Error(_) => self, . }) . } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow { 512 ( 0.00%) match *self { . ty::ConstKind::Infer(ic) => ic.visit_with(visitor), . ty::ConstKind::Param(p) => p.visit_with(visitor), . ty::ConstKind::Unevaluated(uv) => uv.visit_with(visitor), . ty::ConstKind::Value(_) . | ty::ConstKind::Bound(..) . | ty::ConstKind::Placeholder(_) . | ty::ConstKind::Error(_) => ControlFlow::CONTINUE, . } -- line 1214 ---------------------------------------- 201,470 ( 0.07%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/coherence.rs -------------------------------------------------------------------------------- Ir -- line 51 ---------------------------------------- . "this behavior recently changed as a result of a bug fix; \ . see rust-lang/rust#56105 for details", . ); . } . . /// If there are types that satisfy both impls, invokes `on_overlap` . /// with a suitably-freshened `ImplHeader` with those types . /// substituted. Otherwise, invokes `no_overlap`. 36,308 ( 0.01%) #[instrument(skip(tcx, skip_leak_check, on_overlap, no_overlap), level = "debug")] 56,476 ( 0.02%) pub fn overlapping_impls( . tcx: TyCtxt<'_>, . impl1_def_id: DefId, . impl2_def_id: DefId, . skip_leak_check: SkipLeakCheck, . on_overlap: F1, . no_overlap: F2, . ) -> R . where . F1: FnOnce(OverlapResult<'_>) -> R, . F2: FnOnce() -> R, . { . // Before doing expensive operations like entering an inference context, do . // a quick check via fast_reject to tell if the impl headers could possibly . // unify. 8,068 ( 0.00%) let impl1_ref = tcx.impl_trait_ref(impl1_def_id); 24,204 ( 0.01%) let impl2_ref = tcx.impl_trait_ref(impl2_def_id); . . // Check if any of the input types definitely do not unify. . if iter::zip( . impl1_ref.iter().flat_map(|tref| tref.substs.types()), . impl2_ref.iter().flat_map(|tref| tref.substs.types()), . ) . .any(|(ty1, ty2)| { 44,396 ( 0.01%) let t1 = fast_reject::simplify_type(tcx, ty1, SimplifyParams::No, StripReferences::No); 28,252 ( 0.01%) let t2 = fast_reject::simplify_type(tcx, ty2, SimplifyParams::No, StripReferences::No); . 16,144 ( 0.01%) if let (Some(t1), Some(t2)) = (t1, t2) { . // Simplified successfully . t1 != t2 . } else { . // Types might unify . false . } . }) { . // Some types involved are definitely different, so the impls couldn't possibly overlap. . debug!("overlapping_impls: fast_reject early-exit"); . return no_overlap(); . } . 48,408 ( 0.02%) let overlaps = tcx.infer_ctxt().enter(|infcx| { . let selcx = &mut SelectionContext::intercrate(&infcx); 48,408 ( 0.02%) overlap(selcx, skip_leak_check, impl1_def_id, impl2_def_id).is_some() 12,102 ( 0.00%) }); . 12,102 ( 0.00%) if !overlaps { . return no_overlap(); . } . . // In the case where we detect an error, run the check again, but . // this time tracking intercrate ambuiguity causes for better . // diagnostics. (These take time and can lead to false errors.) 17 ( 0.00%) tcx.infer_ctxt().enter(|infcx| { . let selcx = &mut SelectionContext::intercrate(&infcx); . selcx.enable_tracking_intercrate_ambiguity_causes(); 11 ( 0.00%) on_overlap(overlap(selcx, skip_leak_check, impl1_def_id, impl2_def_id).unwrap()) 2 ( 0.00%) }) . } . 96,840 ( 0.03%) fn with_fresh_ty_vars<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . param_env: ty::ParamEnv<'tcx>, . impl_def_id: DefId, . ) -> ty::ImplHeader<'tcx> { . let tcx = selcx.tcx(); 40,350 ( 0.01%) let impl_substs = selcx.infcx().fresh_substs_for_item(DUMMY_SP, impl_def_id); . 48,420 ( 0.02%) let header = ty::ImplHeader { . impl_def_id, . self_ty: tcx.type_of(impl_def_id).subst(tcx, impl_substs), . trait_ref: tcx.impl_trait_ref(impl_def_id).subst(tcx, impl_substs), 64,560 ( 0.02%) predicates: tcx.predicates_of(impl_def_id).instantiate(tcx, impl_substs).predicates, . }; . 96,840 ( 0.03%) let Normalized { value: mut header, obligations } = 145,260 ( 0.05%) traits::normalize(selcx, param_env, ObligationCause::dummy(), header); . 8,070 ( 0.00%) header.predicates.extend(obligations.into_iter().map(|o| o.predicate)); . header 64,560 ( 0.02%) } . . /// What kind of overlap check are we doing -- this exists just for testing and feature-gating . /// purposes. . #[derive(Copy, Clone, PartialEq, Eq, Hash, Debug)] . enum OverlapMode { . /// The 1.0 rules (either types fail to unify, or where clauses are not implemented for crate-local types) . Stable, . /// Feature-gated test: Stable, *or* there is an explicit negative impl that rules out one of the where-clauses. -- line 147 ---------------------------------------- -- line 151 ---------------------------------------- . } . . impl OverlapMode { . fn use_negative_impl(&self) -> bool { . *self == OverlapMode::Strict || *self == OverlapMode::WithNegative . } . . fn use_implicit_negative(&self) -> bool { 4 ( 0.00%) *self == OverlapMode::Stable || *self == OverlapMode::WithNegative . } . } . . fn overlap_mode<'tcx>(tcx: TyCtxt<'tcx>, impl1_def_id: DefId, impl2_def_id: DefId) -> OverlapMode { . // Find the possible coherence mode override opt-in attributes for each `DefId` . let find_coherence_attr = |attr: &Attribute| { 20 ( 0.00%) let name = attr.name_or_empty(); 100 ( 0.00%) match name { . sym::rustc_with_negative_coherence | sym::rustc_strict_coherence => Some(name), . _ => None, . } . }; 28,245 ( 0.01%) let impl1_coherence_mode = tcx.get_attrs(impl1_def_id).iter().find_map(find_coherence_attr); 28,245 ( 0.01%) let impl2_coherence_mode = tcx.get_attrs(impl2_def_id).iter().find_map(find_coherence_attr); . . // If there are any (that currently happens in tests), they need to match. Otherwise, the . // default 1.0 rules are used. 16,140 ( 0.01%) match (impl1_coherence_mode, impl2_coherence_mode) { . (None, None) => OverlapMode::Stable, . (Some(sym::rustc_with_negative_coherence), Some(sym::rustc_with_negative_coherence)) => { . OverlapMode::WithNegative . } . (Some(sym::rustc_strict_coherence), Some(sym::rustc_strict_coherence)) => { . OverlapMode::Strict . } . (Some(mode), _) | (_, Some(mode)) => { -- line 185 ---------------------------------------- -- line 193 ---------------------------------------- . fn overlap<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . skip_leak_check: SkipLeakCheck, . impl1_def_id: DefId, . impl2_def_id: DefId, . ) -> Option> { . debug!("overlap(impl1_def_id={:?}, impl2_def_id={:?})", impl1_def_id, impl2_def_id); . 44,385 ( 0.01%) selcx.infcx().probe_maybe_skip_leak_check(skip_leak_check.is_yes(), |snapshot| { 40,350 ( 0.01%) overlap_within_probe(selcx, skip_leak_check, impl1_def_id, impl2_def_id, snapshot) . }) . } . 44,385 ( 0.01%) fn overlap_within_probe<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . skip_leak_check: SkipLeakCheck, . impl1_def_id: DefId, . impl2_def_id: DefId, . snapshot: &CombinedSnapshot<'_, 'tcx>, . ) -> Option> { . let infcx = selcx.infcx(); 4,035 ( 0.00%) let tcx = infcx.tcx; . . let overlap_mode = overlap_mode(tcx, impl1_def_id, impl2_def_id); . . if overlap_mode.use_negative_impl() { . if negative_impl(selcx, impl1_def_id, impl2_def_id) . || negative_impl(selcx, impl2_def_id, impl1_def_id) . { . return None; -- line 222 ---------------------------------------- -- line 224 ---------------------------------------- . } . . // For the purposes of this check, we don't bring any placeholder . // types into scope; instead, we replace the generic types with . // fresh type variables, and hence we do our evaluations in an . // empty environment. . let param_env = ty::ParamEnv::empty(); . 44,385 ( 0.01%) let impl1_header = with_fresh_ty_vars(selcx, param_env, impl1_def_id); 20,175 ( 0.01%) let impl2_header = with_fresh_ty_vars(selcx, param_env, impl2_def_id); . . debug!("overlap: impl1_header={:?}", impl1_header); . debug!("overlap: impl2_header={:?}", impl2_header); . 6 ( 0.00%) let obligations = equate_impl_headers(selcx, &impl1_header, &impl2_header)?; . debug!("overlap: unification check succeeded"); . 2 ( 0.00%) if overlap_mode.use_implicit_negative() { 14 ( 0.00%) if implicit_negative(selcx, param_env, &impl1_header, impl2_header, obligations) { . return None; . } . } . 8 ( 0.00%) if !skip_leak_check.is_yes() { . if infcx.leak_check(true, snapshot).is_err() { . debug!("overlap: leak check failed"); . return None; . } . } . . let intercrate_ambiguity_causes = selcx.take_intercrate_ambiguity_causes(); . debug!("overlap: intercrate_ambiguity_causes={:#?}", intercrate_ambiguity_causes); . . let involves_placeholder = 10 ( 0.00%) matches!(selcx.infcx().region_constraints_added_in_snapshot(snapshot), Some(true)); . 24 ( 0.00%) let impl_header = selcx.infcx().resolve_vars_if_possible(impl1_header); 44 ( 0.00%) Some(OverlapResult { impl_header, intercrate_ambiguity_causes, involves_placeholder }) 36,317 ( 0.01%) } . . fn equate_impl_headers<'cx, 'tcx>( . selcx: &mut SelectionContext<'cx, 'tcx>, . impl1_header: &ty::ImplHeader<'tcx>, . impl2_header: &ty::ImplHeader<'tcx>, . ) -> Option> { . // Do `a` and `b` unify? If not, no overlap. 8,070 ( 0.00%) selcx . .infcx() . .at(&ObligationCause::dummy(), ty::ParamEnv::empty()) . .eq_impl_headers(impl1_header, impl2_header) . .map(|infer_ok| infer_ok.obligations) . .ok() . } . . /// Given impl1 and impl2 check if both impls can be satisfied by a common type (including -- line 278 ---------------------------------------- -- line 301 ---------------------------------------- . // . // `Box = Box` . // So, `?E = &'?a str` and then given the where clause `&'?a str: Error`. . // . // If the obligation `&'?a str: Error` holds, it means that there's overlap. If that doesn't . // hold we need to check if `&'?a str: !Error` holds, if doesn't hold there's overlap because . // at some point an impl for `&'?a str: Error` could be added. . let infcx = selcx.infcx(); 4 ( 0.00%) let tcx = infcx.tcx; . let opt_failing_obligation = impl1_header . .predicates . .iter() . .copied() . .chain(impl2_header.predicates) 14 ( 0.00%) .map(|p| infcx.resolve_vars_if_possible(p)) . .map(|p| Obligation { . cause: ObligationCause::dummy(), . param_env, . recursion_depth: 0, . predicate: p, . }) . .chain(obligations) . .find(|o| { 48 ( 0.00%) loose_check(selcx, o) || tcx.features().negative_impls && negative_impl_exists(selcx, o) . }); . // FIXME: the call to `selcx.predicate_may_hold_fatal` above should be ported . // to the canonical trait query form, `infcx.predicate_may_hold`, once . // the new system supports intercrate mode (which coherence needs). . 4 ( 0.00%) if let Some(failing_obligation) = opt_failing_obligation { . debug!("overlap: obligation unsatisfiable {:?}", failing_obligation); . true . } else { . false . } . } . . /// Given impl1 and impl2 check if both impls are never satisfied by a common type (including -- line 338 ---------------------------------------- -- line 417 ---------------------------------------- . .as_ref() . .map(|o| { . // FIXME This isn't quite correct, regions should be included . selcx.infcx().predicate_must_hold_modulo_regions(o) . }) . .unwrap_or(false) . } . 80 ( 0.00%) pub fn trait_ref_is_knowable<'tcx>( . tcx: TyCtxt<'tcx>, . trait_ref: ty::TraitRef<'tcx>, . ) -> Option { . debug!("trait_ref_is_knowable(trait_ref={:?})", trait_ref); 56 ( 0.00%) if orphan_check_trait_ref(tcx, trait_ref, InCrate::Remote).is_ok() { . // A downstream or cousin crate is allowed to implement some . // substitution of this trait-ref. . return Some(Conflict::Downstream); . } . 16 ( 0.00%) if trait_ref_is_local_or_fundamental(tcx, trait_ref) { . // This is a local or fundamental trait, so future-compatibility . // is no concern. We know that downstream/cousin crates are not . // allowed to implement a substitution of this trait ref, which . // means impls could only come from dependencies of this crate, . // which we already know about. . return None; . } . -- line 444 ---------------------------------------- -- line 445 ---------------------------------------- . // This is a remote non-fundamental trait, so if another crate . // can be the "final owner" of a substitution of this trait-ref, . // they are allowed to implement it future-compatibly. . // . // However, if we are a final owner, then nobody else can be, . // and if we are an intermediate owner, then we don't care . // about future-compatibility, which means that we're OK if . // we are an owner. 21 ( 0.00%) if orphan_check_trait_ref(tcx, trait_ref, InCrate::Local).is_ok() { . debug!("trait_ref_is_knowable: orphan check passed"); . None . } else { . debug!("trait_ref_is_knowable: nonlocal, nonfundamental, unowned"); . Some(Conflict::Upstream) . } 64 ( 0.00%) } . . pub fn trait_ref_is_local_or_fundamental<'tcx>( . tcx: TyCtxt<'tcx>, . trait_ref: ty::TraitRef<'tcx>, . ) -> bool { 40 ( 0.00%) trait_ref.def_id.krate == LOCAL_CRATE || tcx.has_attr(trait_ref.def_id, sym::fundamental) . } . . pub enum OrphanCheckErr<'tcx> { . NonLocalInputType(Vec<(Ty<'tcx>, bool /* Is this the first input type? */)>), . UncoveredTy(Ty<'tcx>, Option>), . } . . /// Checks the coherence orphan rules. `impl_def_id` should be the . /// `DefId` of a trait impl. To pass, either the trait must be local, or else . /// two conditions must be satisfied: . /// . /// 1. All type parameters in `Self` must be "covered" by some local type constructor. . /// 2. Some local type must appear in `Self`. 973 ( 0.00%) pub fn orphan_check(tcx: TyCtxt<'_>, impl_def_id: DefId) -> Result<(), OrphanCheckErr<'_>> { . debug!("orphan_check({:?})", impl_def_id); . . // We only except this routine to be invoked on implementations . // of a trait, not inherent implementations. . let trait_ref = tcx.impl_trait_ref(impl_def_id).unwrap(); . debug!("orphan_check: trait_ref={:?}", trait_ref); . . // If the *trait* is local to the crate, ok. 139 ( 0.00%) if trait_ref.def_id.is_local() { . debug!("trait {:?} is local to current crate", trait_ref.def_id); 268 ( 0.00%) return Ok(()); . } . 25 ( 0.00%) orphan_check_trait_ref(tcx, trait_ref, InCrate::Local) 1,251 ( 0.00%) } . . /// Checks whether a trait-ref is potentially implementable by a crate. . /// . /// The current rule is that a trait-ref orphan checks in a crate C: . /// . /// 1. Order the parameters in the trait-ref in subst order - Self first, . /// others linearly (e.g., `>` is U < V < W). . /// 2. Of these type parameters, there is at least one type parameter -- line 503 ---------------------------------------- -- line 575 ---------------------------------------- . /// must appear behind a non-fundamental type (because this is not a . /// type-system requirement, crate owners might also go for "semantic . /// future-compatibility" involving things such as sealed traits, but . /// the above requirement is sufficient, and is necessary in "open world" . /// cases). . /// . /// Note that this function is never called for types that have both type . /// parameters and inference variables. 208 ( 0.00%) fn orphan_check_trait_ref<'tcx>( . tcx: TyCtxt<'tcx>, . trait_ref: ty::TraitRef<'tcx>, . in_crate: InCrate, . ) -> Result<(), OrphanCheckErr<'tcx>> { . debug!("orphan_check_trait_ref(trait_ref={:?}, in_crate={:?})", trait_ref, in_crate); . . if trait_ref.needs_infer() && trait_ref.needs_subst() { . bug!( -- line 591 ---------------------------------------- -- line 606 ---------------------------------------- . // . fn uncover_fundamental_ty<'tcx>( . tcx: TyCtxt<'tcx>, . ty: Ty<'tcx>, . in_crate: InCrate, . ) -> Vec> { . // FIXME: this is currently somewhat overly complicated, . // but fixing this requires a more complicated refactor. 21 ( 0.00%) if !contained_non_local_types(tcx, ty, in_crate).is_empty() { 66 ( 0.00%) if let Some(inner_tys) = fundamental_ty_inner_tys(tcx, ty) { . return inner_tys . .flat_map(|ty| uncover_fundamental_ty(tcx, ty, in_crate)) . .collect(); . } . } . 48 ( 0.00%) vec![ty] . } . . let mut non_local_spans = vec![]; 208 ( 0.00%) for (i, input_ty) in trait_ref . .substs . .types() 151 ( 0.00%) .flat_map(|ty| uncover_fundamental_ty(tcx, ty, in_crate)) . .enumerate() . { . debug!("orphan_check_trait_ref: check ty `{:?}`", input_ty); 80 ( 0.00%) let non_local_tys = contained_non_local_types(tcx, input_ty, in_crate); 16 ( 0.00%) if non_local_tys.is_empty() { . debug!("orphan_check_trait_ref: ty_is_local `{:?}`", input_ty); 5 ( 0.00%) return Ok(()); 22 ( 0.00%) } else if let ty::Param(_) = input_ty.kind() { . debug!("orphan_check_trait_ref: uncovered ty: `{:?}`", input_ty); . let local_type = trait_ref . .substs . .types() . .flat_map(|ty| uncover_fundamental_ty(tcx, ty, in_crate)) . .find(|ty| ty_is_local_constructor(ty, in_crate)); . . debug!("orphan_check_trait_ref: uncovered ty local_type: `{:?}`", local_type); . . return Err(OrphanCheckErr::UncoveredTy(input_ty, local_type)); . } . 11 ( 0.00%) non_local_spans.extend(non_local_tys.into_iter().map(|input_ty| (input_ty, i == 0))); . } . // If we exit above loop, never found a local type. . debug!("orphan_check_trait_ref: no local type"); 77 ( 0.00%) Err(OrphanCheckErr::NonLocalInputType(non_local_spans)) 128 ( 0.00%) } . . /// Returns a list of relevant non-local types for `ty`. . /// . /// This is just `ty` itself unless `ty` is `#[fundamental]`, . /// in which case we recursively look into this type. . /// . /// If `ty` is local itself, this method returns an empty `Vec`. . /// . /// # Examples . /// . /// - `u32` is not local, so this returns `[u32]`. . /// - for `Foo`, where `Foo` is a local type, this returns `[]`. . /// - `&mut u32` returns `[u32]`, as `&mut` is a fundamental type, similar to `Box`. . /// - `Box>` returns `[]`, as `Box` is a fundamental type and `Foo` is local. 144 ( 0.00%) fn contained_non_local_types<'tcx>( . tcx: TyCtxt<'tcx>, . ty: Ty<'tcx>, . in_crate: InCrate, . ) -> Vec> { 97 ( 0.00%) if ty_is_local_constructor(ty, in_crate) { . Vec::new() . } else { 121 ( 0.00%) match fundamental_ty_inner_tys(tcx, ty) { . Some(inner_tys) => { . inner_tys.flat_map(|ty| contained_non_local_types(tcx, ty, in_crate)).collect() . } 44 ( 0.00%) None => vec![ty], . } . } 80 ( 0.00%) } . . /// For `#[fundamental]` ADTs and `&T` / `&mut T`, returns `Some` with the . /// type parameters of the ADT, or `T`, respectively. For non-fundamental . /// types, returns `None`. 264 ( 0.00%) fn fundamental_ty_inner_tys<'tcx>( . tcx: TyCtxt<'tcx>, . ty: Ty<'tcx>, . ) -> Option>> { 153 ( 0.00%) let (first_ty, rest_tys) = match *ty.kind() { . ty::Ref(_, ty, _) => (ty, ty::subst::InternalSubsts::empty().types()), 12 ( 0.00%) ty::Adt(def, substs) if def.is_fundamental() => { . let mut types = substs.types(); . . // FIXME(eddyb) actually validate `#[fundamental]` up-front. . match types.next() { . None => { . tcx.sess.span_err( . tcx.def_span(def.did), . "`#[fundamental]` requires at least one type parameter", -- line 704 ---------------------------------------- -- line 709 ---------------------------------------- . . Some(first_ty) => (first_ty, types), . } . } . _ => return None, . }; . . Some(iter::once(first_ty).chain(rest_tys)) 264 ( 0.00%) } . . fn def_id_is_local(def_id: DefId, in_crate: InCrate) -> bool { . match in_crate { . // The type is local to *this* crate - it will not be . // local in any other crate. . InCrate::Remote => false, . InCrate::Local => def_id.is_local(), . } . } . 64 ( 0.00%) fn ty_is_local_constructor(ty: Ty<'_>, in_crate: InCrate) -> bool { . debug!("ty_is_local_constructor({:?})", ty); . 160 ( 0.00%) match *ty.kind() { . ty::Bool . | ty::Char . | ty::Int(..) . | ty::Uint(..) . | ty::Float(..) . | ty::Str . | ty::FnDef(..) . | ty::FnPtr(_) -- line 739 ---------------------------------------- -- line 748 ---------------------------------------- . . ty::Placeholder(..) | ty::Bound(..) | ty::Infer(..) => match in_crate { . InCrate::Local => false, . // The inference variable might be unified with a local . // type in that remote crate. . InCrate::Remote => true, . }, . 21 ( 0.00%) ty::Adt(def, _) => def_id_is_local(def.did, in_crate), . ty::Foreign(did) => def_id_is_local(did, in_crate), . ty::Opaque(..) => { . // This merits some explanation. . // Normally, opaque types are not involed when performing . // coherence checking, since it is illegal to directly . // implement a trait on an opaque type. However, we might . // end up looking at an opaque type during coherence checking . // if an opaque type gets used within another type (e.g. as -- line 764 ---------------------------------------- -- line 798 ---------------------------------------- . } . . ty::Error(_) => true, . . ty::Generator(..) | ty::GeneratorWitness(..) => { . bug!("ty_is_local invoked on unexpected type: {:?}", ty) . } . } 48 ( 0.00%) } 28,397 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/higher_ranked/mod.rs -------------------------------------------------------------------------------- Ir -- line 22 ---------------------------------------- . // Rather than checking the subtype relationship between `a` and `b` . // as-is, we need to do some extra work here in order to make sure . // that function subtyping works correctly with respect to regions . // . // Note: this is a subtle algorithm. For a full explanation, please see . // the rustc dev guide: . // . 1,334 ( 0.00%) let span = self.trace.cause.span; . 8,671 ( 0.00%) self.infcx.commit_if_ok(|_| { . // First, we instantiate each bound region in the supertype with a . // fresh placeholder region. 5,978 ( 0.00%) let b_prime = self.infcx.replace_bound_vars_with_placeholders(b); . . // Next, we instantiate each bound region in the subtype . // with a fresh region variable. These region variables -- . // but no other pre-existing region variables -- can name . // the placeholders. 1,324 ( 0.00%) let (a_prime, _) = 2,668 ( 0.00%) self.infcx.replace_bound_vars_with_fresh_vars(span, HigherRankedType, a); . . debug!("a_prime={:?}", a_prime); . debug!("b_prime={:?}", b_prime); . . // Compare types now that bound regions have been replaced. 4,664 ( 0.00%) let result = self.sub(a_is_expected).relate(a_prime, b_prime)?; . . debug!("higher_ranked_sub: OK result={:?}", result); . . // We related `a_prime` and `b_prime`, which just had any bound vars . // replaced with placeholders or infer vars, respectively. Relating . // them should not introduce new bound vars. . Ok(ty::Binder::dummy(result)) . }) -- line 56 ---------------------------------------- -- line 63 ---------------------------------------- . /// placeholder region. This is the first step of checking subtyping . /// when higher-ranked things are involved. . /// . /// **Important:** You have to be careful to not leak these placeholders, . /// for more information about how placeholders and HRTBs work, see . /// the [rustc dev guide]. . /// . /// [rustc dev guide]: https://rustc-dev-guide.rust-lang.org/traits/hrtb.html 66,412 ( 0.02%) pub fn replace_bound_vars_with_placeholders(&self, binder: ty::Binder<'tcx, T>) -> T . where . T: TypeFoldable<'tcx>, . { . // Figure out what the next universe will be, but don't actually create . // it until after we've done the substitution (in particular there may . // be no bound variables). This is a performance optimization, since the . // leak check for example can be skipped if no new universes are created . // (i.e., if there are no placeholders). 47,398 ( 0.02%) let next_universe = self.universe().next_universe(); . . let fld_r = |br: ty::BoundRegion| { . self.tcx.mk_region(ty::RePlaceholder(ty::PlaceholderRegion { . universe: next_universe, . name: br.kind, . })) . }; . -- line 88 ---------------------------------------- -- line 98 ---------------------------------------- . val: ty::ConstKind::Placeholder(ty::PlaceholderConst { . universe: next_universe, . name: ty::BoundConst { var: bound_var, ty }, . }), . ty, . }) . }; . 229,378 ( 0.08%) let (result, map) = self.tcx.replace_bound_vars(binder, fld_r, fld_t, fld_c); . . // If there were higher-ranked regions to replace, then actually create . // the next universe (this avoids needlessly creating universes). 9,621 ( 0.00%) if !map.is_empty() { . let n_u = self.create_next_universe(); . assert_eq!(n_u, next_universe); . } . . debug!( . "replace_bound_vars_with_placeholders(\ . next_universe={:?}, \ . result={:?}, \ . map={:?})", . next_universe, result, map, . ); . . result 58,154 ( 0.02%) } . . /// See `infer::region_constraints::RegionConstraintCollector::leak_check`. 3,666 ( 0.00%) pub fn leak_check( . &self, . overly_polymorphic: bool, . snapshot: &CombinedSnapshot<'_, 'tcx>, . ) -> RelateResult<'tcx, ()> { . // If the user gave `-Zno-leak-check`, or we have been . // configured to skip the leak check, then skip the leak check . // completely. The leak check is deprecated. Any legitimate . // subtyping errors that it would have caught will now be . // caught later on, during region checking. However, we . // continue to use it for a transition period. 3,055 ( 0.00%) if self.tcx.sess.opts.debugging_opts.no_leak_check || self.skip_leak_check.get() { 12 ( 0.00%) return Ok(()); . } . 3,594 ( 0.00%) self.inner.borrow_mut().unwrap_region_constraints().leak_check( . self.tcx, . overly_polymorphic, . self.universe(), . snapshot, . ) 3,055 ( 0.00%) } . } 10,217 ( 0.00%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/context.rs -------------------------------------------------------------------------------- Ir -- line 118 ---------------------------------------- . stability: InternedSet<'tcx, attr::Stability>, . . /// `#[rustc_const_stable]` and `#[rustc_const_unstable]` attributes . const_stability: InternedSet<'tcx, attr::ConstStability>, . } . . impl<'tcx> CtxtInterners<'tcx> { . fn new(arena: &'tcx WorkerLocal>) -> CtxtInterners<'tcx> { 17 ( 0.00%) CtxtInterners { . arena, . type_: Default::default(), . type_list: Default::default(), . substs: Default::default(), . region: Default::default(), . poly_existential_predicates: Default::default(), . canonical_var_infos: Default::default(), . predicate: Default::default(), -- line 134 ---------------------------------------- -- line 143 ---------------------------------------- . stability: Default::default(), . const_stability: Default::default(), . } . } . . /// Interns a type. . #[allow(rustc::usage_of_ty_tykind)] . #[inline(never)] 376,128 ( 0.12%) fn intern_ty(&self, kind: TyKind<'tcx>) -> Ty<'tcx> { . self.type_ 235,080 ( 0.08%) .intern(kind, |kind| { 2,942 ( 0.00%) let flags = super::flags::FlagComputation::for_kind(&kind); . . let ty_struct = TyS { 5,884 ( 0.00%) kind, . flags: flags.flags, . outer_exclusive_binder: flags.outer_exclusive_binder, . }; . . Interned(self.arena.alloc(ty_struct)) . }) . .0 423,144 ( 0.14%) } . . #[inline(never)] 203,736 ( 0.07%) fn intern_predicate( . &self, . kind: Binder<'tcx, PredicateKind<'tcx>>, . ) -> &'tcx PredicateInner<'tcx> { . self.predicate 178,269 ( 0.06%) .intern(kind, |kind| { 5,070 ( 0.00%) let flags = super::flags::FlagComputation::for_predicate(kind); . . let predicate_struct = PredicateInner { . kind, . flags: flags.flags, . outer_exclusive_binder: flags.outer_exclusive_binder, . }; . . Interned(self.arena.alloc(predicate_struct)) . }) . .0 229,203 ( 0.08%) } . } . . pub struct CommonTypes<'tcx> { . pub unit: Ty<'tcx>, . pub bool: Ty<'tcx>, . pub char: Ty<'tcx>, . pub isize: Ty<'tcx>, . pub i8: Ty<'tcx>, -- line 193 ---------------------------------------- -- line 237 ---------------------------------------- . /// safely used as a key in the maps of a TypeckResults. For that to be . /// the case, the HirId must have the same `owner` as all the other IDs in . /// this table (signified by `hir_owner`). Otherwise the HirId . /// would be in a different frame of reference and using its `local_id` . /// would result in lookup errors, or worse, in silently wrong data being . /// stored/returned. . #[inline] . fn validate_hir_id_for_typeck_results(hir_owner: LocalDefId, hir_id: hir::HirId) { 5,361 ( 0.00%) if hir_id.owner != hir_owner { . invalid_hir_id_for_typeck_results(hir_owner, hir_id); . } . } . . #[cold] . #[inline(never)] . fn invalid_hir_id_for_typeck_results(hir_owner: LocalDefId, hir_id: hir::HirId) { . ty::tls::with(|tcx| { -- line 253 ---------------------------------------- -- line 261 ---------------------------------------- . } . . impl<'a, V> LocalTableInContext<'a, V> { . pub fn contains_key(&self, id: hir::HirId) -> bool { . validate_hir_id_for_typeck_results(self.hir_owner, id); . self.data.contains_key(&id.local_id) . } . 3,762 ( 0.00%) pub fn get(&self, id: hir::HirId) -> Option<&V> { 756 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, id); 756 ( 0.00%) self.data.get(&id.local_id) 3,014 ( 0.00%) } . . pub fn iter(&self) -> hash_map::Iter<'_, hir::ItemLocalId, V> { . self.data.iter() . } . } . . impl<'a, V> ::std::ops::Index for LocalTableInContext<'a, V> { . type Output = V; . 48 ( 0.00%) fn index(&self, key: hir::HirId) -> &V { . self.get(key).expect("LocalTableInContext: key not found") 32 ( 0.00%) } . } . . pub struct LocalTableInContextMut<'a, V> { . hir_owner: LocalDefId, . data: &'a mut ItemLocalMap, . } . . impl<'a, V> LocalTableInContextMut<'a, V> { -- line 292 ---------------------------------------- -- line 507 ---------------------------------------- . pub treat_byte_string_as_slice: ItemLocalSet, . . /// Contains the data for evaluating the effect of feature `capture_disjoint_fields` . /// on closure size. . pub closure_size_eval: FxHashMap>, . } . . impl<'tcx> TypeckResults<'tcx> { 2,556 ( 0.00%) pub fn new(hir_owner: LocalDefId) -> TypeckResults<'tcx> { 30,246 ( 0.01%) TypeckResults { . hir_owner, . type_dependent_defs: Default::default(), . field_indices: Default::default(), . user_provided_types: Default::default(), . user_provided_sigs: Default::default(), . node_types: Default::default(), . node_substs: Default::default(), . adjustments: Default::default(), -- line 524 ---------------------------------------- -- line 532 ---------------------------------------- . tainted_by_errors: None, . concrete_opaque_types: Default::default(), . closure_min_captures: Default::default(), . closure_fake_reads: Default::default(), . generator_interior_types: ty::Binder::dummy(Default::default()), . treat_byte_string_as_slice: Default::default(), . closure_size_eval: Default::default(), . } 2,556 ( 0.00%) } . . /// Returns the final resolution of a `QPath` in an `Expr` or `Pat` node. 447 ( 0.00%) pub fn qpath_res(&self, qpath: &hir::QPath<'_>, id: hir::HirId) -> Res { 298 ( 0.00%) match *qpath { 438 ( 0.00%) hir::QPath::Resolved(_, ref path) => path.res, . hir::QPath::TypeRelative(..) | hir::QPath::LangItem(..) => self . .type_dependent_def(id) 456 ( 0.00%) .map_or(Res::Err, |(kind, def_id)| Res::Def(kind, def_id)), . } 745 ( 0.00%) } . 3 ( 0.00%) pub fn type_dependent_defs( . &self, . ) -> LocalTableInContext<'_, Result<(DefKind, DefId), ErrorReported>> { 16 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.type_dependent_defs } 3 ( 0.00%) } . 87 ( 0.00%) pub fn type_dependent_def(&self, id: HirId) -> Option<(DefKind, DefId)> { 188 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, id); . self.type_dependent_defs.get(&id.local_id).cloned().and_then(|r| r.ok()) 174 ( 0.00%) } . 100 ( 0.00%) pub fn type_dependent_def_id(&self, id: HirId) -> Option { . self.type_dependent_def(id).map(|(_, def_id)| def_id) 100 ( 0.00%) } . 432 ( 0.00%) pub fn type_dependent_defs_mut( . &mut self, . ) -> LocalTableInContextMut<'_, Result<(DefKind, DefId), ErrorReported>> { 432 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.type_dependent_defs } 432 ( 0.00%) } . . pub fn field_indices(&self) -> LocalTableInContext<'_, usize> { 66 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.field_indices } 12 ( 0.00%) } . . pub fn field_indices_mut(&mut self) -> LocalTableInContextMut<'_, usize> { 78 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.field_indices } 39 ( 0.00%) } . . pub fn user_provided_types(&self) -> LocalTableInContext<'_, CanonicalUserType<'tcx>> { 350 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.user_provided_types } 175 ( 0.00%) } . . pub fn user_provided_types_mut( . &mut self, . ) -> LocalTableInContextMut<'_, CanonicalUserType<'tcx>> { 8 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.user_provided_types } 4 ( 0.00%) } . . pub fn node_types(&self) -> LocalTableInContext<'_, Ty<'tcx>> { 816 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.node_types } 408 ( 0.00%) } . . pub fn node_types_mut(&mut self) -> LocalTableInContextMut<'_, Ty<'tcx>> { 1,568 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.node_types } 784 ( 0.00%) } . 6,510 ( 0.00%) pub fn node_type(&self, id: hir::HirId) -> Ty<'tcx> { 1,085 ( 0.00%) self.node_type_opt(id).unwrap_or_else(|| { . bug!("node_type: no type for node `{}`", tls::with(|tcx| tcx.hir().node_to_string(id))) . }) 5,425 ( 0.00%) } . 1,310 ( 0.00%) pub fn node_type_opt(&self, id: hir::HirId) -> Option> { 1,310 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, id); . self.node_types.get(&id.local_id).cloned() 2,620 ( 0.00%) } . . pub fn node_substs_mut(&mut self) -> LocalTableInContextMut<'_, SubstsRef<'tcx>> { 52 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.node_substs } 26 ( 0.00%) } . 304 ( 0.00%) pub fn node_substs(&self, id: hir::HirId) -> SubstsRef<'tcx> { 304 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, id); . self.node_substs.get(&id.local_id).cloned().unwrap_or_else(|| InternalSubsts::empty()) 608 ( 0.00%) } . 378 ( 0.00%) pub fn node_substs_opt(&self, id: hir::HirId) -> Option> { 378 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, id); . self.node_substs.get(&id.local_id).cloned() 756 ( 0.00%) } . . // Returns the type of a pattern as a monotype. Like @expr_ty, this function . // doesn't provide type parameter substitutions. . pub fn pat_ty(&self, pat: &hir::Pat<'_>) -> Ty<'tcx> { 132 ( 0.00%) self.node_type(pat.hir_id) . } . . // Returns the type of an expression as a monotype. . // . // NB (1): This is the PRE-ADJUSTMENT TYPE for the expression. That is, in . // some cases, we insert `Adjustment` annotations such as auto-deref or . // auto-ref. The type returned by this function does not consider such . // adjustments. See `expr_ty_adjusted()` instead. . // . // NB (2): This type doesn't provide type parameter substitutions; e.g., if you . // ask for the type of "id" in "id(3)", it will return "fn(&isize) -> isize" . // instead of "fn(ty) -> T with T = isize". . pub fn expr_ty(&self, expr: &hir::Expr<'_>) -> Ty<'tcx> { 1,024 ( 0.00%) self.node_type(expr.hir_id) . } . . pub fn expr_ty_opt(&self, expr: &hir::Expr<'_>) -> Option> { 868 ( 0.00%) self.node_type_opt(expr.hir_id) . } . . pub fn adjustments(&self) -> LocalTableInContext<'_, Vec>> { 486 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.adjustments } 243 ( 0.00%) } . . pub fn adjustments_mut( . &mut self, . ) -> LocalTableInContextMut<'_, Vec>> { 876 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.adjustments } 438 ( 0.00%) } . 431 ( 0.00%) pub fn expr_adjustments(&self, expr: &hir::Expr<'_>) -> &[ty::adjustment::Adjustment<'tcx>] { 862 ( 0.00%) validate_hir_id_for_typeck_results(self.hir_owner, expr.hir_id); . self.adjustments.get(&expr.hir_id.local_id).map_or(&[], |a| &a[..]) 862 ( 0.00%) } . . /// Returns the type of `expr`, considering any `Adjustment` . /// entry recorded for that expression. 35 ( 0.00%) pub fn expr_ty_adjusted(&self, expr: &hir::Expr<'_>) -> Ty<'tcx> { 7 ( 0.00%) self.expr_adjustments(expr).last().map_or_else(|| self.expr_ty(expr), |adj| adj.target) 12 ( 0.00%) } . . pub fn expr_ty_adjusted_opt(&self, expr: &hir::Expr<'_>) -> Option> { . self.expr_adjustments(expr).last().map(|adj| adj.target).or_else(|| self.expr_ty_opt(expr)) . } . 13 ( 0.00%) pub fn is_method_call(&self, expr: &hir::Expr<'_>) -> bool { . // Only paths and method calls/overloaded operators have . // entries in type_dependent_defs, ignore the former here. 26 ( 0.00%) if let hir::ExprKind::Path(_) = expr.kind { . return false; . } . 26 ( 0.00%) matches!(self.type_dependent_defs().get(expr.hir_id), Some(Ok((DefKind::AssocFn, _)))) 26 ( 0.00%) } . 153 ( 0.00%) pub fn extract_binding_mode(&self, s: &Session, id: HirId, sp: Span) -> Option { . self.pat_binding_modes().get(id).copied().or_else(|| { . s.delay_span_bug(sp, "missing binding mode"); . None . }) 204 ( 0.00%) } . . pub fn pat_binding_modes(&self) -> LocalTableInContext<'_, BindingMode> { 135 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.pat_binding_modes } 42 ( 0.00%) } . . pub fn pat_binding_modes_mut(&mut self) -> LocalTableInContextMut<'_, BindingMode> { 68 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.pat_binding_modes } 34 ( 0.00%) } . . pub fn pat_adjustments(&self) -> LocalTableInContext<'_, Vec>> { 166 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.pat_adjustments } 83 ( 0.00%) } . . pub fn pat_adjustments_mut(&mut self) -> LocalTableInContextMut<'_, Vec>> { 50 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.pat_adjustments } 25 ( 0.00%) } . . /// For a given closure, returns the iterator of `ty::CapturedPlace`s that are captured . /// by the closure. 544 ( 0.00%) pub fn closure_min_captures_flattened( . &self, . closure_def_id: DefId, . ) -> impl Iterator> { . self.closure_min_captures . .get(&closure_def_id) . .map(|closure_min_captures| closure_min_captures.values().flat_map(|v| v.iter())) . .into_iter() . .flatten() 680 ( 0.00%) } . . pub fn closure_kind_origins(&self) -> LocalTableInContext<'_, (Span, HirPlace<'tcx>)> { 272 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.closure_kind_origins } 136 ( 0.00%) } . . pub fn closure_kind_origins_mut( . &mut self, . ) -> LocalTableInContextMut<'_, (Span, HirPlace<'tcx>)> { . LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.closure_kind_origins } . } . . pub fn liberated_fn_sigs(&self) -> LocalTableInContext<'_, ty::FnSig<'tcx>> { 304 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.liberated_fn_sigs } 152 ( 0.00%) } . . pub fn liberated_fn_sigs_mut(&mut self) -> LocalTableInContextMut<'_, ty::FnSig<'tcx>> { 32 ( 0.00%) LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.liberated_fn_sigs } 16 ( 0.00%) } . . pub fn fru_field_types(&self) -> LocalTableInContext<'_, Vec>> { 272 ( 0.00%) LocalTableInContext { hir_owner: self.hir_owner, data: &self.fru_field_types } 136 ( 0.00%) } . . pub fn fru_field_types_mut(&mut self) -> LocalTableInContextMut<'_, Vec>> { . LocalTableInContextMut { hir_owner: self.hir_owner, data: &mut self.fru_field_types } . } . . pub fn is_coercion_cast(&self, hir_id: hir::HirId) -> bool { . validate_hir_id_for_typeck_results(self.hir_owner, hir_id); . self.coercion_casts.contains(&hir_id.local_id) . } . . pub fn set_coercion_cast(&mut self, id: ItemLocalId) { . self.coercion_casts.insert(id); . } . . pub fn coercion_casts(&self) -> &ItemLocalSet { 136 ( 0.00%) &self.coercion_casts 136 ( 0.00%) } . } . . impl<'a, 'tcx> HashStable> for TypeckResults<'tcx> { . fn hash_stable(&self, hcx: &mut StableHashingContext<'a>, hasher: &mut StableHasher) { . let ty::TypeckResults { . hir_owner, . ref type_dependent_defs, . ref field_indices, -- line 764 ---------------------------------------- -- line 819 ---------------------------------------- . const START_INDEX = 0, . } . } . . /// Mapping of type annotation indices to canonical user type annotations. . pub type CanonicalUserTypeAnnotations<'tcx> = . IndexVec>; . 2 ( 0.00%) #[derive(Clone, Debug, TyEncodable, TyDecodable, HashStable, TypeFoldable, Lift)] . pub struct CanonicalUserTypeAnnotation<'tcx> { . pub user_ty: CanonicalUserType<'tcx>, . pub span: Span, 2 ( 0.00%) pub inferred_ty: Ty<'tcx>, . } . . /// Canonicalized user type annotation. . pub type CanonicalUserType<'tcx> = Canonical<'tcx, UserType<'tcx>>; . . impl<'tcx> CanonicalUserType<'tcx> { . /// Returns `true` if this represents a substitution of the form `[?0, ?1, ?2]`, . /// i.e., each thing is mapped to a canonical variable with the same index. 13 ( 0.00%) pub fn is_identity(&self) -> bool { 26 ( 0.00%) match self.value { . UserType::Ty(_) => false, . UserType::TypeOf(_, user_substs) => { 13 ( 0.00%) if user_substs.user_self_ty.is_some() { . return false; . } . . iter::zip(user_substs.substs, BoundVar::new(0)..).all(|(kind, cvar)| { . match kind.unpack() { 40 ( 0.00%) GenericArgKind::Type(ty) => match ty.kind() { . ty::Bound(debruijn, b) => { . // We only allow a `ty::INNERMOST` index in substitutions. 20 ( 0.00%) assert_eq!(*debruijn, ty::INNERMOST); . cvar == b.var . } . _ => false, . }, . . GenericArgKind::Lifetime(r) => match r { . ty::ReLateBound(debruijn, br) => { . // We only allow a `ty::INNERMOST` index in substitutions. -- line 861 ---------------------------------------- -- line 872 ---------------------------------------- . cvar == b . } . _ => false, . }, . } . }) . } . } 26 ( 0.00%) } . } . . /// A user-given type annotation attached to a constant. These arise . /// from constants that are named via paths, like `Foo::::new` and . /// so forth. 12 ( 0.00%) #[derive(Copy, Clone, Debug, PartialEq, TyEncodable, TyDecodable)] 139 ( 0.00%) #[derive(HashStable, TypeFoldable, Lift)] . pub enum UserType<'tcx> { . Ty(Ty<'tcx>), . . /// The canonical type is the result of `type_of(def_id)` with the . /// given substitutions applied. . TypeOf(DefId, UserSubsts<'tcx>), . } . . impl<'tcx> CommonTypes<'tcx> { . fn new(interners: &CtxtInterners<'tcx>) -> CommonTypes<'tcx> { 111 ( 0.00%) let mk = |ty| interners.intern_ty(ty); . . CommonTypes { . unit: mk(Tuple(List::empty())), . bool: mk(Bool), . char: mk(Char), . never: mk(Never), . isize: mk(Int(ty::IntTy::Isize)), . i8: mk(Int(ty::IntTy::I8)), -- line 906 ---------------------------------------- -- line 921 ---------------------------------------- . . trait_object_dummy_self: mk(Infer(ty::FreshTy(0))), . } . } . } . . impl<'tcx> CommonLifetimes<'tcx> { . fn new(interners: &CtxtInterners<'tcx>) -> CommonLifetimes<'tcx> { 67 ( 0.00%) let mk = |r| interners.region.intern(r, |r| Interned(interners.arena.alloc(r))).0; . . CommonLifetimes { 5 ( 0.00%) re_root_empty: mk(RegionKind::ReEmpty(ty::UniverseIndex::ROOT)), 5 ( 0.00%) re_static: mk(RegionKind::ReStatic), 5 ( 0.00%) re_erased: mk(RegionKind::ReErased), . } . } . } . . impl<'tcx> CommonConsts<'tcx> { . fn new(interners: &CtxtInterners<'tcx>, types: &CommonTypes<'tcx>) -> CommonConsts<'tcx> { 6 ( 0.00%) let mk_const = |c| interners.const_.intern(c, |c| Interned(interners.arena.alloc(c))).0; . . CommonConsts { . unit: mk_const(ty::Const { . val: ty::ConstKind::Value(ConstValue::Scalar(Scalar::ZST)), . ty: types.unit, . }), . } . } -- line 949 ---------------------------------------- -- line 1045 ---------------------------------------- . . /// Stores memory for globals (statics/consts). . pub(crate) alloc_map: Lock>, . . output_filenames: Arc, . } . . impl<'tcx> TyCtxt<'tcx> { 5,440 ( 0.00%) pub fn typeck_opt_const_arg( . self, . def: ty::WithOptConstParam, . ) -> &'tcx TypeckResults<'tcx> { 2,176 ( 0.00%) if let Some(param_did) = def.const_param_did { . self.typeck_const_arg((def.did, param_did)) . } else { . self.typeck(def.did) . } 4,352 ( 0.00%) } . 408 ( 0.00%) pub fn alloc_steal_thir(self, thir: Thir<'tcx>) -> &'tcx Steal> { 136 ( 0.00%) self.arena.alloc(Steal::new(thir)) 544 ( 0.00%) } . 2,680 ( 0.00%) pub fn alloc_steal_mir(self, mir: Body<'tcx>) -> &'tcx Steal> { 536 ( 0.00%) self.arena.alloc(Steal::new(mir)) 3,752 ( 0.00%) } . 544 ( 0.00%) pub fn alloc_steal_promoted( . self, . promoted: IndexVec>, . ) -> &'tcx Steal>> { 136 ( 0.00%) self.arena.alloc(Steal::new(promoted)) 680 ( 0.00%) } . 99 ( 0.00%) pub fn alloc_adt_def( . self, . did: DefId, . kind: AdtKind, . variants: IndexVec, . repr: ReprOptions, . ) -> &'tcx ty::AdtDef { 176 ( 0.00%) self.intern_adt_def(ty::AdtDef::new(self, did, kind, variants, repr)) 44 ( 0.00%) } . . /// Allocates a read-only byte or string literal for `mir::interpret`. . pub fn allocate_bytes(self, bytes: &[u8]) -> interpret::AllocId { . // Create an allocation that just contains these bytes. . let alloc = interpret::Allocation::from_bytes_byte_aligned_immutable(bytes); . let alloc = self.intern_const_alloc(alloc); . self.create_memory_alloc(alloc) . } . . /// Returns a range of the start/end indices specified with the . /// `rustc_layout_scalar_valid_range` attribute. . // FIXME(eddyb) this is an awkward spot for this method, maybe move it? 48 ( 0.00%) pub fn layout_scalar_valid_range(self, def_id: DefId) -> (Bound, Bound) { 24 ( 0.00%) let attrs = self.get_attrs(def_id); 102 ( 0.00%) let get = |name| { 24 ( 0.00%) let attr = match attrs.iter().find(|a| a.has_name(name)) { . Some(attr) => attr, . None => return Bound::Unbounded, . }; . debug!("layout_scalar_valid_range: attr={:?}", attr); . if let Some( . &[ . ast::NestedMetaItem::Literal(ast::Lit { . kind: ast::LitKind::Int(a, _), .. -- line 1111 ---------------------------------------- -- line 1114 ---------------------------------------- . ) = attr.meta_item_list().as_deref() . { . Bound::Included(a) . } else { . self.sess . .delay_span_bug(attr.span, "invalid rustc_layout_scalar_valid_range attribute"); . Bound::Unbounded . } 120 ( 0.00%) }; 36 ( 0.00%) ( 36 ( 0.00%) get(sym::rustc_layout_scalar_valid_range_start), 18 ( 0.00%) get(sym::rustc_layout_scalar_valid_range_end), . ) 48 ( 0.00%) } . . pub fn lift>(self, value: T) -> Option { . value.lift_to_tcx(self) . } . . /// Creates a type context and call the closure with a `TyCtxt` reference . /// to the context. The closure enforces that the type context and any interned . /// value (types, substs, etc.) can only be used while `ty::tls` has a valid . /// reference to the context, to allow formatting values that need it. 23 ( 0.00%) pub fn create_global_ctxt( . s: &'tcx Session, . lint_store: Lrc, . arena: &'tcx WorkerLocal>, . resolutions: ty::ResolverOutputs, . krate: &'tcx hir::Crate<'tcx>, . dep_graph: DepGraph, . on_disk_cache: Option<&'tcx dyn OnDiskCache<'tcx>>, . queries: &'tcx dyn query::QueryEngine<'tcx>, . query_kinds: &'tcx [DepKindStruct], . crate_name: &str, . output_filenames: OutputFilenames, . ) -> GlobalCtxt<'tcx> { 1 ( 0.00%) let data_layout = TargetDataLayout::parse(&s.target).unwrap_or_else(|err| { . s.fatal(&err); . }); . let interners = CtxtInterners::new(arena); . let common_types = CommonTypes::new(&interners); . let common_lifetimes = CommonLifetimes::new(&interners); . let common_consts = CommonConsts::new(&interners, &common_types); . 127 ( 0.00%) GlobalCtxt { . sess: s, 6 ( 0.00%) lint_store, . arena, 2 ( 0.00%) interners, 5 ( 0.00%) dep_graph, 4 ( 0.00%) untracked_resolutions: resolutions, 2 ( 0.00%) prof: s.prof.clone(), . types: common_types, . lifetimes: common_lifetimes, . consts: common_consts, . untracked_crate: krate, . on_disk_cache, . queries, . query_caches: query::QueryCaches::default(), . query_kinds, . ty_rcache: Default::default(), . pred_rcache: Default::default(), . selection_cache: Default::default(), . evaluation_cache: Default::default(), 1 ( 0.00%) crate_name: Symbol::intern(crate_name), . data_layout, . alloc_map: Lock::new(interpret::AllocMap::new()), . output_filenames: Arc::new(output_filenames), . } 9 ( 0.00%) } . . crate fn query_kind(self, k: DepKind) -> &'tcx DepKindStruct { . &self.query_kinds[k as usize] . } . . /// Constructs a `TyKind::Error` type and registers a `delay_span_bug` to ensure it gets used. . #[track_caller] . pub fn ty_error(self) -> Ty<'tcx> { -- line 1191 ---------------------------------------- -- line 1217 ---------------------------------------- . ty: Ty<'tcx>, . span: S, . msg: &str, . ) -> &'tcx Const<'tcx> { . self.sess.delay_span_bug(span, msg); . self.mk_const(ty::Const { val: ty::ConstKind::Error(DelaySpanBugEmitted(())), ty }) . } . 7 ( 0.00%) pub fn consider_optimizing String>(self, msg: T) -> bool { 1 ( 0.00%) let cname = self.crate_name(LOCAL_CRATE); 8 ( 0.00%) self.sess.consider_optimizing(cname.as_str(), msg) 8 ( 0.00%) } . . /// Obtain all lang items of this crate and all dependencies (recursively) 52,318 ( 0.02%) pub fn lang_items(self) -> &'tcx rustc_hir::lang_items::LanguageItems { . self.get_lang_items(()) 67,266 ( 0.02%) } . . /// Obtain the given diagnostic item's `DefId`. Use `is_diagnostic_item` if you just want to . /// compare against another `DefId`, since `is_diagnostic_item` is cheaper. 7 ( 0.00%) pub fn get_diagnostic_item(self, name: Symbol) -> Option { . self.all_diagnostic_items(()).name_to_id.get(&name).copied() 8 ( 0.00%) } . . /// Obtain the diagnostic item's name 294 ( 0.00%) pub fn get_diagnostic_name(self, id: DefId) -> Option { . self.diagnostic_items(id.krate).id_to_name.get(&id).copied() 336 ( 0.00%) } . . /// Check whether the diagnostic item with the given `name` has the given `DefId`. 259 ( 0.00%) pub fn is_diagnostic_item(self, name: Symbol, did: DefId) -> bool { . self.diagnostic_items(did.krate).name_to_id.get(&name) == Some(&did) 296 ( 0.00%) } . 2,149 ( 0.00%) pub fn stability(self) -> &'tcx stability::Index<'tcx> { . self.stability_index(()) 2,763 ( 0.00%) } . 33,579 ( 0.01%) pub fn features(self) -> &'tcx rustc_feature::Features { . self.features_query(()) 38,376 ( 0.01%) } . . pub fn def_key(self, id: DefId) -> rustc_hir::definitions::DefKey { . // Accessing the DefKey is ok, since it is part of DefPathHash. 1,975 ( 0.00%) if let Some(id) = id.as_local() { . self.untracked_resolutions.definitions.def_key(id) . } else { 151 ( 0.00%) self.untracked_resolutions.cstore.def_key(id) . } . } . . /// Converts a `DefId` into its fully expanded `DefPath` (every . /// `DefId` is really just an interned `DefPath`). . /// . /// Note that if `id` is not local to this crate, the result will . /// be a non-local `DefPath`. -- line 1272 ---------------------------------------- -- line 1277 ---------------------------------------- . } else { . self.untracked_resolutions.cstore.def_path(id) . } . } . . #[inline] . pub fn def_path_hash(self, def_id: DefId) -> rustc_hir::definitions::DefPathHash { . // Accessing the DefPathHash is ok, it is incr. comp. stable. 789 ( 0.00%) if let Some(def_id) = def_id.as_local() { . self.untracked_resolutions.definitions.def_path_hash(def_id) . } else { 60 ( 0.00%) self.untracked_resolutions.cstore.def_path_hash(def_id) . } . } . . #[inline] . pub fn stable_crate_id(self, crate_num: CrateNum) -> StableCrateId { . if crate_num == LOCAL_CRATE { . self.sess.local_stable_crate_id() . } else { -- line 1296 ---------------------------------------- -- line 1353 ---------------------------------------- . &(format!("{:08x}", stable_crate_id.to_u64()))[..4], . self.def_path(def_id).to_string_no_crate_verbose() . ) . } . . /// Note that this is *untracked* and should only be used within the query . /// system if the result is otherwise tracked through queries . pub fn cstore_untracked(self) -> &'tcx ty::CrateStoreDyn { 8,510 ( 0.00%) &*self.untracked_resolutions.cstore 4,255 ( 0.00%) } . . /// Note that this is *untracked* and should only be used within the query . /// system if the result is otherwise tracked through queries . pub fn definitions_untracked(self) -> &'tcx hir::definitions::Definitions { . &self.untracked_resolutions.definitions . } . . #[inline(always)] . pub fn create_stable_hashing_context(self) -> StableHashingContext<'tcx> { 129 ( 0.00%) let resolutions = &self.gcx.untracked_resolutions; 644 ( 0.00%) StableHashingContext::new(self.sess, &resolutions.definitions, &*resolutions.cstore) . } . . #[inline(always)] . pub fn create_no_span_stable_hashing_context(self) -> StableHashingContext<'tcx> { . let resolutions = &self.gcx.untracked_resolutions; . StableHashingContext::ignore_spans( . self.sess, . &resolutions.definitions, -- line 1381 ---------------------------------------- -- line 1390 ---------------------------------------- . /// If `true`, we should use the MIR-based borrowck, but also . /// fall back on the AST borrowck if the MIR-based one errors. . pub fn migrate_borrowck(self) -> bool { . self.borrowck_mode().migrate() . } . . /// What mode(s) of borrowck should we run? AST? MIR? both? . /// (Also considers the `#![feature(nll)]` setting.) 272 ( 0.00%) pub fn borrowck_mode(self) -> BorrowckMode { . // Here are the main constraints we need to deal with: . // . // 1. An opts.borrowck_mode of `BorrowckMode::Migrate` is . // synonymous with no `-Z borrowck=...` flag at all. . // . // 2. We want to allow developers on the Nightly channel . // to opt back into the "hard error" mode for NLL, . // (which they can do via specifying `#![feature(nll)]` -- line 1406 ---------------------------------------- -- line 1413 ---------------------------------------- . // errors. (To simplify the code here, it now even overrides . // a user's attempt to specify `-Z borrowck=compare`, which . // we arguably do not need anymore and should remove.) . // . // * Otherwise, if no `-Z borrowck=...` then use migrate mode . // . // * Otherwise, use the behavior requested via `-Z borrowck=...` . 408 ( 0.00%) if self.features().nll { . return BorrowckMode::Mir; . } . 136 ( 0.00%) self.sess.opts.borrowck_mode 544 ( 0.00%) } . . /// If `true`, we should use lazy normalization for constants, otherwise . /// we still evaluate them eagerly. . #[inline] . pub fn lazy_normalization(self) -> bool { 640 ( 0.00%) let features = self.features(); . // Note: We only use lazy normalization for generic const expressions. 384 ( 0.00%) features.generic_const_exprs . } . . #[inline] . pub fn local_crate_exports_generics(self) -> bool { . debug_assert!(self.sess.opts.share_generics()); . . self.sess.crate_types().iter().any(|crate_type| { . match crate_type { -- line 1442 ---------------------------------------- -- line 1554 ---------------------------------------- . self.mk_imm_ref( . self.lifetimes.re_static, . self.type_of(self.require_lang_item(LangItem::PanicLocation, None)) . .subst(self, self.mk_substs([self.lifetimes.re_static.into()].iter())), . ) . } . . /// Returns a displayable description and article for the given `def_id` (e.g. `("a", "struct")`). 165 ( 0.00%) pub fn article_and_description(self, def_id: DefId) -> (&'static str, &'static str) { 120 ( 0.00%) match self.def_kind(def_id) { . DefKind::Generator => match self.generator_kind(def_id).unwrap() { . rustc_hir::GeneratorKind::Async(..) => ("an", "async closure"), . rustc_hir::GeneratorKind::Gen => ("a", "generator"), . }, 270 ( 0.00%) def_kind => (def_kind.article(), def_kind.descr(def_id)), . } 135 ( 0.00%) } . 7 ( 0.00%) pub fn type_length_limit(self) -> Limit { . self.limits(()).type_length_limit 8 ( 0.00%) } . 12,012 ( 0.00%) pub fn recursion_limit(self) -> Limit { . self.limits(()).recursion_limit 13,728 ( 0.00%) } . . pub fn move_size_limit(self) -> Limit { . self.limits(()).move_size_limit . } . . pub fn const_eval_limit(self) -> Limit { . self.limits(()).const_eval_limit . } -- line 1586 ---------------------------------------- -- line 1614 ---------------------------------------- . fn lift_to_tcx(self, tcx: TyCtxt<'tcx>) -> Option; . } . . macro_rules! nop_lift { . ($set:ident; $ty:ty => $lifted:ty) => { . impl<'a, 'tcx> Lift<'tcx> for $ty { . type Lifted = $lifted; . fn lift_to_tcx(self, tcx: TyCtxt<'tcx>) -> Option { 4 ( 0.00%) if tcx.interners.$set.contains_pointer_to(&Interned(self)) { . Some(unsafe { mem::transmute(self) }) . } else { . None . } . } . } . }; . } . . macro_rules! nop_list_lift { . ($set:ident; $ty:ty => $lifted:ty) => { . impl<'a, 'tcx> Lift<'tcx> for &'a List<$ty> { . type Lifted = &'tcx List<$lifted>; . fn lift_to_tcx(self, tcx: TyCtxt<'tcx>) -> Option { 1 ( 0.00%) if self.is_empty() { . return Some(List::empty()); . } 8 ( 0.00%) if tcx.interners.$set.contains_pointer_to(&Interned(self)) { . Some(unsafe { mem::transmute(self) }) . } else { . None . } . } . } . }; . } -- line 1648 ---------------------------------------- -- line 1684 ---------------------------------------- . /// This is the implicit state of rustc. It contains the current . /// `TyCtxt` and query. It is updated when creating a local interner or . /// executing a new query. Whenever there's a `TyCtxt` value available . /// you should also have access to an `ImplicitCtxt` through the functions . /// in this module. . #[derive(Clone)] . pub struct ImplicitCtxt<'a, 'tcx> { . /// The current `TyCtxt`. 1 ( 0.00%) pub tcx: TyCtxt<'tcx>, . . /// The current query job, if any. This is updated by `JobOwner::start` in . /// `ty::query::plumbing` when executing a query. . pub query: Option>, . . /// Where to store diagnostics for the current query job, if any. . /// This is updated by `JobOwner::start` in `ty::query::plumbing` when executing a query. . pub diagnostics: Option<&'a Lock>>, -- line 1700 ---------------------------------------- -- line 1703 ---------------------------------------- . pub layout_depth: usize, . . /// The current dep graph task. This is used to add dependencies to queries . /// when executing them. . pub task_deps: TaskDepsRef<'a>, . } . . impl<'a, 'tcx> ImplicitCtxt<'a, 'tcx> { 5 ( 0.00%) pub fn new(gcx: &'tcx GlobalCtxt<'tcx>) -> Self { . let tcx = TyCtxt { gcx }; 25 ( 0.00%) ImplicitCtxt { . tcx, . query: None, . diagnostics: None, . layout_depth: 0, . task_deps: TaskDepsRef::Ignore, . } 5 ( 0.00%) } . } . . /// Sets Rayon's thread-local variable, which is preserved for Rayon jobs . /// to `value` during the call to `f`. It is restored to its previous value after. . /// This is used to set the pointer to the new `ImplicitCtxt`. . #[cfg(parallel_compiler)] . #[inline] . fn set_tlv R, R>(value: usize, f: F) -> R { -- line 1728 ---------------------------------------- -- line 1745 ---------------------------------------- . . /// Sets TLV to `value` during the call to `f`. . /// It is restored to its previous value after. . /// This is used to set the pointer to the new `ImplicitCtxt`. . #[cfg(not(parallel_compiler))] . #[inline] . fn set_tlv R, R>(value: usize, f: F) -> R { . let old = get_tlv(); 15,972 ( 0.01%) let _reset = rustc_data_structures::OnDrop(move || TLV.with(|tlv| tlv.set(old))); . TLV.with(|tlv| tlv.set(value)); . f() . } . . /// Gets the pointer to the current `ImplicitCtxt`. . #[cfg(not(parallel_compiler))] . #[inline] . fn get_tlv() -> usize { -- line 1761 ---------------------------------------- -- line 1763 ---------------------------------------- . } . . /// Sets `context` as the new current `ImplicitCtxt` for the duration of the function `f`. . #[inline] . pub fn enter_context<'a, 'tcx, F, R>(context: &ImplicitCtxt<'a, 'tcx>, f: F) -> R . where . F: FnOnce(&ImplicitCtxt<'a, 'tcx>) -> R, . { 1 ( 0.00%) set_tlv(context as *const _ as usize, || f(&context)) . } . . /// Allows access to the current `ImplicitCtxt` in a closure if one is available. . #[inline] . pub fn with_context_opt(f: F) -> R . where . F: for<'a, 'tcx> FnOnce(Option<&ImplicitCtxt<'a, 'tcx>>) -> R, . { . let context = get_tlv(); 62,614 ( 0.02%) if context == 0 { . f(None) . } else { . // We could get an `ImplicitCtxt` pointer from another thread. . // Ensure that `ImplicitCtxt` is `Sync`. . sync::assert_sync::>(); . . unsafe { f(Some(&*(context as *const ImplicitCtxt<'_, '_>))) } . } -- line 1789 ---------------------------------------- -- line 1791 ---------------------------------------- . . /// Allows access to the current `ImplicitCtxt`. . /// Panics if there is no `ImplicitCtxt` available. . #[inline] . pub fn with_context(f: F) -> R . where . F: for<'a, 'tcx> FnOnce(&ImplicitCtxt<'a, 'tcx>) -> R, . { 2 ( 0.00%) with_context_opt(|opt_context| f(opt_context.expect("no ImplicitCtxt stored in tls"))) . } . . /// Allows access to the current `ImplicitCtxt` whose tcx field is the same as the tcx argument . /// passed in. This means the closure is given an `ImplicitCtxt` with the same `'tcx` lifetime . /// as the `TyCtxt` passed in. . /// This will panic if you pass it a `TyCtxt` which is different from the current . /// `ImplicitCtxt`'s `tcx` field. . #[inline] . pub fn with_related_context<'tcx, F, R>(tcx: TyCtxt<'tcx>, f: F) -> R . where . F: FnOnce(&ImplicitCtxt<'_, 'tcx>) -> R, . { . with_context(|context| unsafe { 30,858 ( 0.01%) assert!(ptr_eq(context.tcx.gcx, tcx.gcx)); . let context: &ImplicitCtxt<'_, '_> = mem::transmute(context); 30,856 ( 0.01%) f(context) . }) . } . . /// Allows access to the `TyCtxt` in the current `ImplicitCtxt`. . /// Panics if there is no `ImplicitCtxt` available. . #[inline] . pub fn with(f: F) -> R . where -- line 1823 ---------------------------------------- -- line 1981 ---------------------------------------- . fn into_pointer(&self) -> *const () { . self.0 as *const _ as *const () . } . } . . #[allow(rustc::usage_of_ty_tykind)] . impl<'tcx> Borrow> for Interned<'tcx, TyS<'tcx>> { . fn borrow<'a>(&'a self) -> &'a TyKind<'tcx> { 45,775 ( 0.02%) &self.0.kind() . } . } . . impl<'tcx> PartialEq for Interned<'tcx, TyS<'tcx>> { . fn eq(&self, other: &Interned<'tcx, TyS<'tcx>>) -> bool { . // The `Borrow` trait requires that `x.borrow() == y.borrow()` equals . // `x == y`. . self.0.kind() == other.0.kind() -- line 1997 ---------------------------------------- -- line 1998 ---------------------------------------- . } . } . . impl<'tcx> Eq for Interned<'tcx, TyS<'tcx>> {} . . impl<'tcx> Hash for Interned<'tcx, TyS<'tcx>> { . fn hash(&self, s: &mut H) { . // The `Borrow` trait requires that `x.borrow().hash(s) == x.hash(s)`. 5,368 ( 0.00%) self.0.kind().hash(s) . } . } . . impl<'tcx> Borrow>> for Interned<'tcx, PredicateInner<'tcx>> { . fn borrow<'a>(&'a self) -> &'a Binder<'tcx, PredicateKind<'tcx>> { 26,737 ( 0.01%) &self.0.kind . } . } . . impl<'tcx> PartialEq for Interned<'tcx, PredicateInner<'tcx>> { . fn eq(&self, other: &Interned<'tcx, PredicateInner<'tcx>>) -> bool { . // The `Borrow` trait requires that `x.borrow() == y.borrow()` equals . // `x == y`. . self.0.kind == other.0.kind -- line 2020 ---------------------------------------- -- line 2021 ---------------------------------------- . } . } . . impl<'tcx> Eq for Interned<'tcx, PredicateInner<'tcx>> {} . . impl<'tcx> Hash for Interned<'tcx, PredicateInner<'tcx>> { . fn hash(&self, s: &mut H) { . // The `Borrow` trait requires that `x.borrow().hash(s) == x.hash(s)`. 892 ( 0.00%) self.0.kind.hash(s) . } . } . . impl<'tcx, T> Borrow<[T]> for Interned<'tcx, List> { . fn borrow<'a>(&'a self) -> &'a [T] { 63,654 ( 0.02%) &self.0[..] . } . } . . impl<'tcx, T: PartialEq> PartialEq for Interned<'tcx, List> { . fn eq(&self, other: &Interned<'tcx, List>) -> bool { . // The `Borrow` trait requires that `x.borrow() == y.borrow()` equals . // `x == y`. . self.0[..] == other.0[..] -- line 2043 ---------------------------------------- -- line 2044 ---------------------------------------- . } . } . . impl<'tcx, T: Eq> Eq for Interned<'tcx, List> {} . . impl<'tcx, T: Hash> Hash for Interned<'tcx, List> { . fn hash(&self, s: &mut H) { . // The `Borrow` trait requires that `x.borrow().hash(s) == x.hash(s)`. 2,042 ( 0.00%) self.0[..].hash(s) . } . } . . macro_rules! direct_interners { . ($($name:ident: $method:ident($ty:ty),)+) => { . $(impl<'tcx> Borrow<$ty> for Interned<'tcx, $ty> { . fn borrow<'a>(&'a self) -> &'a $ty { 1,704 ( 0.00%) &self.0 . } . } . . impl<'tcx> PartialEq for Interned<'tcx, $ty> { . fn eq(&self, other: &Self) -> bool { . // The `Borrow` trait requires that `x.borrow() == y.borrow()` . // equals `x == y`. . self.0 == other.0 -- line 2068 ---------------------------------------- -- line 2070 ---------------------------------------- . } . . impl<'tcx> Eq for Interned<'tcx, $ty> {} . . impl<'tcx> Hash for Interned<'tcx, $ty> { . fn hash(&self, s: &mut H) { . // The `Borrow` trait requires that `x.borrow().hash(s) == . // x.hash(s)`. 1,688 ( 0.00%) self.0.hash(s) . } . } . . impl<'tcx> TyCtxt<'tcx> { 17,060 ( 0.01%) pub fn $method(self, v: $ty) -> &'tcx $ty { 9,642 ( 0.00%) self.interners.$name.intern(v, |v| { 454 ( 0.00%) Interned(self.interners.arena.alloc(v)) . }).0 19,062 ( 0.01%) } . })+ . } . } . . direct_interners! { . region: mk_region(RegionKind), . const_: mk_const(Const<'tcx>), . const_allocation: intern_const_alloc(Allocation), -- line 2095 ---------------------------------------- -- line 2097 ---------------------------------------- . adt_def: intern_adt_def(AdtDef), . stability: intern_stability(attr::Stability), . const_stability: intern_const_stability(attr::ConstStability), . } . . macro_rules! slice_interners { . ($($field:ident: $method:ident($ty:ty)),+ $(,)?) => ( . impl<'tcx> TyCtxt<'tcx> { 648,985 ( 0.22%) $(pub fn $method(self, v: &[$ty]) -> &'tcx List<$ty> { . self.interners.$field.intern_ref(v, || { . Interned(List::from_arena(&*self.arena, v)) . }).0 583,956 ( 0.19%) })+ . } . ); . } . . slice_interners!( . type_list: _intern_type_list(Ty<'tcx>), . substs: _intern_substs(GenericArg<'tcx>), . canonical_var_infos: _intern_canonical_var_infos(CanonicalVarInfo<'tcx>), -- line 2117 ---------------------------------------- -- line 2188 ---------------------------------------- . self.mk_fn_sig(params_iter, s.output(), s.c_variadic, unsafety, abi::Abi::Rust) . }) . } . . /// Same a `self.mk_region(kind)`, but avoids accessing the interners if . /// `*r == kind`. . #[inline] . pub fn reuse_or_mk_region(self, r: Region<'tcx>, kind: RegionKind) -> Region<'tcx> { 392 ( 0.00%) if *r == kind { r } else { self.mk_region(kind) } . } . . #[allow(rustc::usage_of_ty_tykind)] . #[inline] . pub fn mk_ty(self, st: TyKind<'tcx>) -> Ty<'tcx> { 338,080 ( 0.11%) self.interners.intern_ty(st) . } . . #[inline] . pub fn mk_predicate(self, binder: Binder<'tcx, PredicateKind<'tcx>>) -> Predicate<'tcx> { 278,782 ( 0.09%) let inner = self.interners.intern_predicate(binder); . Predicate { inner } . } . . #[inline] 362,696 ( 0.12%) pub fn reuse_or_mk_predicate( . self, . pred: Predicate<'tcx>, . binder: Binder<'tcx, PredicateKind<'tcx>>, . ) -> Predicate<'tcx> { 21,806 ( 0.01%) if pred.kind() != binder { self.mk_predicate(binder) } else { pred } 362,696 ( 0.12%) } . . pub fn mk_mach_int(self, tm: IntTy) -> Ty<'tcx> { . match tm { . IntTy::Isize => self.types.isize, . IntTy::I8 => self.types.i8, . IntTy::I16 => self.types.i16, . IntTy::I32 => self.types.i32, . IntTy::I64 => self.types.i64, -- line 2226 ---------------------------------------- -- line 2243 ---------------------------------------- . match tm { . FloatTy::F32 => self.types.f32, . FloatTy::F64 => self.types.f64, . } . } . . #[inline] . pub fn mk_static_str(self) -> Ty<'tcx> { 8 ( 0.00%) self.mk_imm_ref(self.lifetimes.re_static, self.types.str_) . } . . #[inline] . pub fn mk_adt(self, def: &'tcx AdtDef, substs: SubstsRef<'tcx>) -> Ty<'tcx> { . // Take a copy of substs so that we own the vectors inside. . self.mk_ty(Adt(def, substs)) . } . -- line 2259 ---------------------------------------- -- line 2347 ---------------------------------------- . pub fn intern_tup(self, ts: &[Ty<'tcx>]) -> Ty<'tcx> { . let kinds: Vec<_> = ts.iter().map(|&t| GenericArg::from(t)).collect(); . self.mk_ty(Tuple(self.intern_substs(&kinds))) . } . . pub fn mk_tup], Ty<'tcx>>>(self, iter: I) -> I::Output { . iter.intern_with(|ts| { . let kinds: Vec<_> = ts.iter().map(|&t| GenericArg::from(t)).collect(); 440 ( 0.00%) self.mk_ty(Tuple(self.intern_substs(&kinds))) . }) . } . . #[inline] . pub fn mk_unit(self) -> Ty<'tcx> { 3 ( 0.00%) self.types.unit . } . . #[inline] . pub fn mk_diverging_default(self) -> Ty<'tcx> { . if self.features().never_type_fallback { self.types.never } else { self.types.unit } . } . . #[inline] . pub fn mk_fn_def(self, def_id: DefId, substs: SubstsRef<'tcx>) -> Ty<'tcx> { . self.mk_ty(FnDef(def_id, substs)) . } . . #[inline] . pub fn mk_fn_ptr(self, fty: PolyFnSig<'tcx>) -> Ty<'tcx> { 10 ( 0.00%) self.mk_ty(FnPtr(fty)) . } . . #[inline] . pub fn mk_dynamic( . self, . obj: &'tcx List>>, . reg: ty::Region<'tcx>, . ) -> Ty<'tcx> { -- line 2384 ---------------------------------------- -- line 2412 ---------------------------------------- . . #[inline] . pub fn mk_ty_var(self, v: TyVid) -> Ty<'tcx> { . self.mk_ty_infer(TyVar(v)) . } . . #[inline] . pub fn mk_const_var(self, v: ConstVid<'tcx>, ty: Ty<'tcx>) -> &'tcx Const<'tcx> { 1,920 ( 0.00%) self.mk_const(ty::Const { val: ty::ConstKind::Infer(InferConst::Var(v)), ty }) . } . . #[inline] . pub fn mk_int_var(self, v: IntVid) -> Ty<'tcx> { . self.mk_ty_infer(IntVar(v)) . } . . #[inline] -- line 2428 ---------------------------------------- -- line 2445 ---------------------------------------- . self.mk_ty(Param(ParamTy { index, name })) . } . . #[inline] . pub fn mk_const_param(self, index: u32, name: Symbol, ty: Ty<'tcx>) -> &'tcx Const<'tcx> { . self.mk_const(ty::Const { val: ty::ConstKind::Param(ParamConst { index, name }), ty }) . } . 1,393 ( 0.00%) pub fn mk_param_from_def(self, param: &ty::GenericParamDef) -> GenericArg<'tcx> { 995 ( 0.00%) match param.kind { . GenericParamDefKind::Lifetime => { . self.mk_region(ty::ReEarlyBound(param.to_early_bound_region_data())).into() . } 398 ( 0.00%) GenericParamDefKind::Type { .. } => self.mk_ty_param(param.index, param.name).into(), . GenericParamDefKind::Const { .. } => { . self.mk_const_param(param.index, param.name, self.type_of(param.def_id)).into() . } . } 1,393 ( 0.00%) } . . #[inline] . pub fn mk_opaque(self, def_id: DefId, substs: SubstsRef<'tcx>) -> Ty<'tcx> { . self.mk_ty(Opaque(def_id, substs)) . } . . pub fn mk_place_field(self, place: Place<'tcx>, f: Field, ty: Ty<'tcx>) -> Place<'tcx> { . self.mk_place_elem(place, PlaceElem::Field(f, ty)) -- line 2471 ---------------------------------------- -- line 2504 ---------------------------------------- . /// flight. . pub fn mk_place_elem(self, place: Place<'tcx>, elem: PlaceElem<'tcx>) -> Place<'tcx> { . let mut projection = place.projection.to_vec(); . projection.push(elem); . . Place { local: place.local, projection: self.intern_place_elems(&projection) } . } . 49 ( 0.00%) pub fn intern_poly_existential_predicates( . self, . eps: &[ty::Binder<'tcx, ExistentialPredicate<'tcx>>], . ) -> &'tcx List>> { 7 ( 0.00%) assert!(!eps.is_empty()); . assert!( . eps.array_windows() 30 ( 0.00%) .all(|[a, b]| a.skip_binder().stable_cmp(self, &b.skip_binder()) . != Ordering::Greater) . ); 28 ( 0.00%) self._intern_poly_existential_predicates(eps) 56 ( 0.00%) } . . pub fn intern_predicates(self, preds: &[Predicate<'tcx>]) -> &'tcx List> { . // FIXME consider asking the input slice to be sorted to avoid . // re-interning permutations, in which case that would be asserted . // here. 1,357 ( 0.00%) if preds.is_empty() { . // The macro-generated method below asserts we don't intern an empty slice. . List::empty() . } else { 641 ( 0.00%) self._intern_predicates(preds) . } 1,432 ( 0.00%) } . . pub fn intern_type_list(self, ts: &[Ty<'tcx>]) -> &'tcx List> { 806 ( 0.00%) if ts.is_empty() { List::empty() } else { self._intern_type_list(ts) } 16 ( 0.00%) } . . pub fn intern_substs(self, ts: &[GenericArg<'tcx>]) -> &'tcx List> { 127,236 ( 0.04%) if ts.is_empty() { List::empty() } else { self._intern_substs(ts) } 1,004 ( 0.00%) } . . pub fn intern_projs(self, ps: &[ProjectionKind]) -> &'tcx List { . if ps.is_empty() { List::empty() } else { self._intern_projs(ps) } . } . . pub fn intern_place_elems(self, ts: &[PlaceElem<'tcx>]) -> &'tcx List> { 74 ( 0.00%) if ts.is_empty() { List::empty() } else { self._intern_place_elems(ts) } 52 ( 0.00%) } . . pub fn intern_canonical_var_infos( . self, . ts: &[CanonicalVarInfo<'tcx>], . ) -> CanonicalVarInfos<'tcx> { 233 ( 0.00%) if ts.is_empty() { List::empty() } else { self._intern_canonical_var_infos(ts) } 10 ( 0.00%) } . . pub fn intern_bound_variable_kinds( . self, . ts: &[ty::BoundVariableKind], . ) -> &'tcx List { 2,141 ( 0.00%) if ts.is_empty() { List::empty() } else { self._intern_bound_variable_kinds(ts) } 3,098 ( 0.00%) } . . pub fn mk_fn_sig( . self, . inputs: I, . output: I::Item, . c_variadic: bool, . unsafety: hir::Unsafety, . abi: abi::Abi, . ) -> , ty::FnSig<'tcx>>>::Output . where . I: Iterator, ty::FnSig<'tcx>>>, . { . inputs.chain(iter::once(output)).intern_with(|xs| ty::FnSig { 72 ( 0.00%) inputs_and_output: self.intern_type_list(xs), 10 ( 0.00%) c_variadic, 18 ( 0.00%) unsafety, 4 ( 0.00%) abi, . }) . } . . pub fn mk_poly_existential_predicates< . I: InternAs< . [ty::Binder<'tcx, ExistentialPredicate<'tcx>>], . &'tcx List>>, . >, . >( . self, . iter: I, . ) -> I::Output { 21 ( 0.00%) iter.intern_with(|xs| self.intern_poly_existential_predicates(xs)) . } . . pub fn mk_predicates], &'tcx List>>>( . self, . iter: I, . ) -> I::Output { . iter.intern_with(|xs| self.intern_predicates(xs)) . } . . pub fn mk_type_list], &'tcx List>>>(self, iter: I) -> I::Output { 281 ( 0.00%) iter.intern_with(|xs| self.intern_type_list(xs)) . } . . pub fn mk_substs], &'tcx List>>>( . self, . iter: I, . ) -> I::Output { 29,452 ( 0.01%) iter.intern_with(|xs| self.intern_substs(xs)) . } . . pub fn mk_place_elems], &'tcx List>>>( . self, . iter: I, . ) -> I::Output { . iter.intern_with(|xs| self.intern_place_elems(xs)) . } . 949 ( 0.00%) pub fn mk_substs_trait(self, self_ty: Ty<'tcx>, rest: &[GenericArg<'tcx>]) -> SubstsRef<'tcx> { . self.mk_substs(iter::once(self_ty.into()).chain(rest.iter().cloned())) 1,898 ( 0.00%) } . . pub fn mk_bound_variable_kinds< . I: InternAs<[ty::BoundVariableKind], &'tcx List>, . >( . self, . iter: I, . ) -> I::Output { 10,045 ( 0.00%) iter.intern_with(|xs| self.intern_bound_variable_kinds(xs)) . } . . /// Walks upwards from `id` to find a node which might change lint levels with attributes. . /// It stops at `bound` and just returns it if reached. 3,136 ( 0.00%) pub fn maybe_lint_level_root_bounded(self, mut id: HirId, bound: HirId) -> HirId { 3,136 ( 0.00%) let hir = self.hir(); . loop { 2,727 ( 0.00%) if id == bound { . return bound; . } . 2,561 ( 0.00%) if hir.attrs(id).iter().any(|attr| Level::from_symbol(attr.name_or_empty()).is_some()) { . return id; . } . let next = hir.get_parent_node(id); 1,383 ( 0.00%) if next == id { . bug!("lint traversal reached the root of the crate"); . } . id = next; . } 4,480 ( 0.00%) } . 1,528 ( 0.00%) pub fn lint_level_at_node( . self, . lint: &'static Lint, . mut id: hir::HirId, . ) -> (Level, LintLevelSource) { . let sets = self.lint_levels(()); . loop { 4,672 ( 0.00%) if let Some(pair) = sets.level_and_source(lint, id, self.sess) { . return pair; . } 222 ( 0.00%) let next = self.hir().get_parent_node(id); 666 ( 0.00%) if next == id { . bug!("lint traversal reached the root of the crate"); . } . id = next; . } 1,528 ( 0.00%) } . . pub fn struct_span_lint_hir( . self, . lint: &'static Lint, . hir_id: HirId, . span: impl Into, . decorate: impl for<'a> FnOnce(LintDiagnosticBuilder<'a>), . ) { 8 ( 0.00%) let (level, src) = self.lint_level_at_node(lint, hir_id); 2 ( 0.00%) struct_lint_level(self.sess, lint, level, src, Some(span.into()), decorate); . } . . pub fn struct_lint_node( . self, . lint: &'static Lint, . id: HirId, . decorate: impl for<'a> FnOnce(LintDiagnosticBuilder<'a>), . ) { . let (level, src) = self.lint_level_at_node(lint, id); . struct_lint_level(self.sess, lint, level, src, None, decorate); . } . 77 ( 0.00%) pub fn in_scope_traits(self, id: HirId) -> Option<&'tcx [TraitCandidate]> { 22 ( 0.00%) let map = self.in_scope_traits_map(id.owner)?; . let candidates = map.get(&id.local_id)?; 22 ( 0.00%) Some(&*candidates) 88 ( 0.00%) } . 231 ( 0.00%) pub fn named_region(self, id: HirId) -> Option { . debug!(?id, "named_region"); . self.named_region_map(id.owner).and_then(|map| map.get(&id.local_id).cloned()) 297 ( 0.00%) } . . pub fn is_late_bound(self, id: HirId) -> bool { . self.is_late_bound_map(id.owner) . .map_or(false, |(owner, set)| owner == id.owner && set.contains(&id.local_id)) . } . 3,325 ( 0.00%) pub fn object_lifetime_defaults(self, id: HirId) -> Option> { . self.object_lifetime_defaults_map(id.owner) 4,275 ( 0.00%) } . 5,139 ( 0.00%) pub fn late_bound_vars(self, id: HirId) -> &'tcx List { . self.mk_bound_variable_kinds( . self.late_bound_vars_map(id.owner) . .and_then(|map| map.get(&id.local_id).cloned()) . .unwrap_or_else(|| { . bug!("No bound vars found for {:?} ({:?})", self.hir().node_to_string(id), id) . }) . .iter(), . ) 5,139 ( 0.00%) } . . pub fn lifetime_scope(self, id: HirId) -> Option { . self.lifetime_scope_map(id.owner).and_then(|mut map| map.remove(&id.local_id)) . } . . /// Whether the `def_id` counts as const fn in the current crate, considering all active . /// feature gates 10 ( 0.00%) pub fn is_const_fn(self, def_id: DefId) -> bool { 1 ( 0.00%) if self.is_const_fn_raw(def_id) { 2 ( 0.00%) match self.lookup_const_stability(def_id) { 4 ( 0.00%) Some(stability) if stability.level.is_unstable() => { . // has a `rustc_const_unstable` attribute, check whether the user enabled the . // corresponding feature gate. 2 ( 0.00%) self.features() . .declared_lib_features . .iter() . .any(|&(sym, _)| sym == stability.feature) . } . // functions without const stability are either stable user written . // const fn or the user is using feature gates and we thus don't . // care what they do . _ => true, . } . } else { . false . } 9 ( 0.00%) } . } . . impl<'tcx> TyCtxtAt<'tcx> { . /// Constructs a `TyKind::Error` type and registers a `delay_span_bug` to ensure it gets used. . #[track_caller] . pub fn ty_error(self) -> Ty<'tcx> { . self.tcx.ty_error_with_message(self.span, "TyKind::Error constructed but no error reported") . } -- line 2759 ---------------------------------------- -- line 2774 ---------------------------------------- . } . . impl InternAs<[T], R> for I . where . E: InternIteratorElement, . I: Iterator, . { . type Output = E::Output; 16,728 ( 0.01%) fn intern_with(self, f: F) -> Self::Output . where . F: FnOnce(&[T]) -> R, . { 312,538 ( 0.10%) E::intern_with(self, f) 17,019 ( 0.01%) } . } . . pub trait InternIteratorElement: Sized { . type Output; . fn intern_with, F: FnOnce(&[T]) -> R>(iter: I, f: F) -> Self::Output; . } . . impl InternIteratorElement for T { . type Output = R; 15,458 ( 0.01%) fn intern_with, F: FnOnce(&[T]) -> R>( . mut iter: I, . f: F, . ) -> Self::Output { . // This code is hot enough that it's worth specializing for the most . // common length lists, to avoid the overhead of `SmallVec` creation. . // Lengths 0, 1, and 2 typically account for ~95% of cases. If . // `size_hint` is incorrect a panic will occur via an `unwrap` or an . // `assert`. 18,314 ( 0.01%) match iter.size_hint() { . (0, Some(0)) => { 3 ( 0.00%) assert!(iter.next().is_none()); . f(&[]) . } . (1, Some(1)) => { . let t0 = iter.next().unwrap(); . assert!(iter.next().is_none()); 2,072 ( 0.00%) f(&[t0]) . } . (2, Some(2)) => { . let t0 = iter.next().unwrap(); . let t1 = iter.next().unwrap(); 8 ( 0.00%) assert!(iter.next().is_none()); 1,715 ( 0.00%) f(&[t0, t1]) . } 8 ( 0.00%) _ => f(&iter.collect::>()), . } 7,195 ( 0.00%) } . } . . impl<'a, T, R> InternIteratorElement for &'a T . where . T: Clone + 'a, . { . type Output = R; 2,855 ( 0.00%) fn intern_with, F: FnOnce(&[T]) -> R>(iter: I, f: F) -> Self::Output { . // This code isn't hot. . f(&iter.cloned().collect::>()) 2,284 ( 0.00%) } . } . . impl InternIteratorElement for Result { . type Output = Result; 112,488 ( 0.04%) fn intern_with, F: FnOnce(&[T]) -> R>( . mut iter: I, . f: F, . ) -> Self::Output { . // This code is hot enough that it's worth specializing for the most . // common length lists, to avoid the overhead of `SmallVec` creation. . // Lengths 0, 1, and 2 typically account for ~95% of cases. If . // `size_hint` is incorrect a panic will occur via an `unwrap` or an . // `assert`, unless a failure happens first, in which case the result . // will be an error anyway. 59,680 ( 0.02%) Ok(match iter.size_hint() { . (0, Some(0)) => { . assert!(iter.next().is_none()); . f(&[]) . } . (1, Some(1)) => { . let t0 = iter.next().unwrap()?; . assert!(iter.next().is_none()); 1,357 ( 0.00%) f(&[t0]) . } . (2, Some(2)) => { 8 ( 0.00%) let t0 = iter.next().unwrap()?; 8 ( 0.00%) let t1 = iter.next().unwrap()?; 12 ( 0.00%) assert!(iter.next().is_none()); 328 ( 0.00%) f(&[t0, t1]) . } 5 ( 0.00%) _ => f(&iter.collect::, _>>()?), . }) 126,634 ( 0.04%) } . } . . // We are comparing types with different invariant lifetimes, so `ptr::eq` . // won't work for us. . fn ptr_eq(t: *const T, u: *const U) -> bool { 30,858 ( 0.01%) t as *const () == u as *const () . } . . pub fn provide(providers: &mut ty::query::Providers) { 2 ( 0.00%) providers.in_scope_traits_map = . |tcx, id| tcx.hir_crate(()).owners[id].as_ref().map(|owner_info| &owner_info.trait_map); 3 ( 0.00%) providers.resolutions = |tcx, ()| &tcx.untracked_resolutions; 2 ( 0.00%) providers.module_reexports = . |tcx, id| tcx.resolutions(()).reexport_map.get(&id).map(|v| &v[..]); 2 ( 0.00%) providers.crate_name = |tcx, id| { 1 ( 0.00%) assert_eq!(id, LOCAL_CRATE); 1 ( 0.00%) tcx.crate_name . }; 2 ( 0.00%) providers.maybe_unused_trait_import = . |tcx, id| tcx.resolutions(()).maybe_unused_trait_imports.contains(&id); 2 ( 0.00%) providers.maybe_unused_extern_crates = . |tcx, ()| &tcx.resolutions(()).maybe_unused_extern_crates[..]; 2 ( 0.00%) providers.names_imported_by_glob_use = |tcx, id| { . tcx.arena.alloc(tcx.resolutions(()).glob_map.get(&id).cloned().unwrap_or_default()) . }; . 11 ( 0.00%) providers.lookup_stability = |tcx, id| tcx.stability().local_stability(id.expect_local()); 2 ( 0.00%) providers.lookup_const_stability = . |tcx, id| tcx.stability().local_const_stability(id.expect_local()); 2 ( 0.00%) providers.lookup_deprecation_entry = 2,440 ( 0.00%) |tcx, id| tcx.stability().local_deprecation_entry(id.expect_local()); 2 ( 0.00%) providers.extern_mod_stmt_cnum = . |tcx, id| tcx.resolutions(()).extern_crate_map.get(&id).cloned(); 3 ( 0.00%) providers.output_filenames = |tcx, ()| tcx.output_filenames.clone(); 3 ( 0.00%) providers.features_query = |tcx, ()| tcx.sess.features_untracked(); 2 ( 0.00%) providers.is_panic_runtime = |tcx, cnum| { . assert_eq!(cnum, LOCAL_CRATE); . tcx.sess.contains_name(tcx.hir().krate_attrs(), sym::panic_runtime) . }; 2 ( 0.00%) providers.is_compiler_builtins = |tcx, cnum| { . assert_eq!(cnum, LOCAL_CRATE); . tcx.sess.contains_name(tcx.hir().krate_attrs(), sym::compiler_builtins) . }; 2 ( 0.00%) providers.has_panic_handler = |tcx, cnum| { 1 ( 0.00%) assert_eq!(cnum, LOCAL_CRATE); . // We want to check if the panic handler was defined in this crate 3 ( 0.00%) tcx.lang_items().panic_impl().map_or(false, |did| did.is_local()) . }; . } 176,435 ( 0.06%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts/kind.rs -------------------------------------------------------------------------------- Ir -- line 38 ---------------------------------------- . impl<'tcx, P: Default> Unevaluated<'tcx, P> { . #[inline] . pub fn new(def: ty::WithOptConstParam, substs: SubstsRef<'tcx>) -> Unevaluated<'tcx, P> { . Unevaluated { def, substs, promoted: Default::default() } . } . } . . /// Represents a constant in Rust. 448,062 ( 0.15%) #[derive(Copy, Clone, Debug, Eq, PartialEq, PartialOrd, Ord, TyEncodable, TyDecodable)] 135,510 ( 0.05%) #[derive(Hash, HashStable)] . pub enum ConstKind<'tcx> { . /// A const generic parameter. 58 ( 0.00%) Param(ty::ParamConst), . . /// Infer the value of the const. . Infer(InferConst<'tcx>), . . /// Bound const variable, used only when preparing a trait query. . Bound(ty::DebruijnIndex, ty::BoundVar), . . /// A placeholder const - universally quantified higher-ranked const. . Placeholder(ty::PlaceholderConst<'tcx>), . . /// Used in the HIR by using `Unevaluated` everywhere and later normalizing to one of the other . /// variants when the code is monomorphic enough for that. . Unevaluated(Unevaluated<'tcx>), . . /// Used to hold computed value. 52,838 ( 0.02%) Value(ConstValue<'tcx>), . . /// A placeholder for a const which could not be computed; this is . /// propagated to avoid useless error messages. . Error(ty::DelaySpanBugEmitted), . } . . #[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))] . static_assert_size!(ConstKind<'_>, 40); . . impl<'tcx> ConstKind<'tcx> { . #[inline] . pub fn try_to_value(self) -> Option> { 98,466 ( 0.03%) if let ConstKind::Value(val) = self { Some(val) } else { None } . } . . #[inline] . pub fn try_to_scalar(self) -> Option> { . self.try_to_value()?.try_to_scalar() . } . . #[inline] -- line 87 ---------------------------------------- -- line 96 ---------------------------------------- . . #[inline] . pub fn try_to_bool(self) -> Option { . self.try_to_scalar_int()?.try_into().ok() . } . . #[inline] . pub fn try_to_machine_usize(self, tcx: TyCtxt<'tcx>) -> Option { 217,728 ( 0.07%) self.try_to_value()?.try_to_machine_usize(tcx) . } . } . . /// An inference variable for a const, for use in const generics. 7,980 ( 0.00%) #[derive(Copy, Clone, Debug, Eq, PartialEq, PartialOrd, Ord, TyEncodable, TyDecodable, Hash)] . #[derive(HashStable)] . pub enum InferConst<'tcx> { . /// Infer the value of the const. . Var(ty::ConstVid<'tcx>), . /// A fresh const variable. See `infer::freshen` for more details. . Fresh(u32), . } . . impl<'tcx> ConstKind<'tcx> { . #[inline] . /// Tries to evaluate the constant if it is `Unevaluated`. If that doesn't succeed, return the . /// unevaluated constant. . pub fn eval(self, tcx: TyCtxt<'tcx>, param_env: ParamEnv<'tcx>) -> Self { 266,112 ( 0.09%) self.try_eval(tcx, param_env).and_then(Result::ok).map_or(self, ConstKind::Value) . } . . #[inline] . /// Tries to evaluate the constant if it is `Unevaluated`. If that isn't possible or necessary . /// return `None`. 394,240 ( 0.13%) pub(super) fn try_eval( . self, . tcx: TyCtxt<'tcx>, . param_env: ParamEnv<'tcx>, . ) -> Option, ErrorReported>> { 98,560 ( 0.03%) if let ConstKind::Unevaluated(unevaluated) = self { . use crate::mir::interpret::ErrorHandled; . . // HACK(eddyb) this erases lifetimes even though `const_eval_resolve` . // also does later, but we want to do it before checking for . // inference variables. . // Note that we erase regions *before* calling `with_reveal_all_normalized`, . // so that we don't try to invoke this query with . // any region variables. -- line 142 ---------------------------------------- -- line 172 ---------------------------------------- . // can leak through `val` into the const we return. . Ok(val) => Some(Ok(val)), . Err(ErrorHandled::TooGeneric | ErrorHandled::Linted) => None, . Err(ErrorHandled::Reported(e)) => Some(Err(e)), . } . } else { . None . } 394,240 ( 0.13%) } . } 836,507 ( 0.28%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fast_reject.rs -------------------------------------------------------------------------------- Ir -- line 12 ---------------------------------------- . pub type SimplifiedType = SimplifiedTypeGen; . . /// See `simplify_type` . /// . /// Note that we keep this type generic over the type of identifier it uses . /// because we sometimes need to use SimplifiedTypeGen values as stable sorting . /// keys (in which case we use a DefPathHash as id-type) but in the general case . /// the non-stable but fast to construct DefId-version is the better choice. 119,888 ( 0.04%) #[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, TyEncodable, TyDecodable)] . pub enum SimplifiedTypeGen . where . D: Copy + Debug + Eq, . { . BoolSimplifiedType, . CharSimplifiedType, . IntSimplifiedType(ty::IntTy), . UintSimplifiedType(ty::UintTy), -- line 28 ---------------------------------------- -- line 78 ---------------------------------------- . /// . /// ¹ meaning that if two outermost layers are different, then the whole types are also different. . /// ² FIXME(@lcnr): this seems like it can actually end up being unsound with the way it's used during . /// candidate selection. We do not consider non blanket impls for `<_ as Trait>::Assoc` even . /// though `_` can be inferred to a concrete type later at which point a concrete impl . /// could actually apply. After experimenting for about an hour I wasn't able to cause any issues . /// this way so I am not going to change this until we actually find an issue as I am really . /// interesting in getting an actual test for this. 112,920 ( 0.04%) pub fn simplify_type( . tcx: TyCtxt<'_>, . ty: Ty<'_>, . can_simplify_params: SimplifyParams, . strip_references: StripReferences, . ) -> Option { 169,380 ( 0.06%) match *ty.kind() { . ty::Bool => Some(BoolSimplifiedType), . ty::Char => Some(CharSimplifiedType), 216 ( 0.00%) ty::Int(int_type) => Some(IntSimplifiedType(int_type)), 188 ( 0.00%) ty::Uint(uint_type) => Some(UintSimplifiedType(uint_type)), 68 ( 0.00%) ty::Float(float_type) => Some(FloatSimplifiedType(float_type)), 12,950 ( 0.00%) ty::Adt(def, _) => Some(AdtSimplifiedType(def.did)), . ty::Str => Some(StrSimplifiedType), . ty::Array(..) => Some(ArraySimplifiedType), . ty::Slice(..) => Some(SliceSimplifiedType), 36 ( 0.00%) ty::RawPtr(ptr) => Some(PtrSimplifiedType(ptr.mutbl)), 12 ( 0.00%) ty::Dynamic(ref trait_info, ..) => match trait_info.principal_def_id() { 15 ( 0.00%) Some(principal_def_id) if !tcx.trait_is_auto(principal_def_id) => { 27 ( 0.00%) Some(TraitSimplifiedType(principal_def_id)) . } . _ => Some(MarkerTraitObjectSimplifiedType), . }, 368 ( 0.00%) ty::Ref(_, ty, mutbl) => { 184 ( 0.00%) if strip_references == StripReferences::Yes { . // For diagnostics, when recommending similar impls we want to . // recommend impls even when there is a reference mismatch, . // so we treat &T and T equivalently in that case. . simplify_type(tcx, ty, can_simplify_params, strip_references) . } else { . Some(RefSimplifiedType(mutbl)) . } . } . ty::FnDef(def_id, _) | ty::Closure(def_id, _) => Some(ClosureSimplifiedType(def_id)), . ty::Generator(def_id, _, _) => Some(GeneratorSimplifiedType(def_id)), . ty::GeneratorWitness(ref tys) => { . Some(GeneratorWitnessSimplifiedType(tys.skip_binder().len())) . } . ty::Never => Some(NeverSimplifiedType), 300 ( 0.00%) ty::Tuple(ref tys) => Some(TupleSimplifiedType(tys.len())), 456 ( 0.00%) ty::FnPtr(ref f) => Some(FunctionSimplifiedType(f.skip_binder().inputs().len())), . ty::Projection(_) | ty::Param(_) => { 699 ( 0.00%) if can_simplify_params == SimplifyParams::Yes { . // In normalized types, projections don't unify with . // anything. when lazy normalization happens, this . // will change. It would still be nice to have a way . // to deal with known-not-to-unify-with-anything . // projections (e.g., the likes of <__S as Encoder>::Error). . Some(ParameterSimplifiedType) . } else { . None . } . } . ty::Opaque(def_id, _) => Some(OpaqueSimplifiedType(def_id)), . ty::Foreign(def_id) => Some(ForeignSimplifiedType(def_id)), . ty::Placeholder(..) | ty::Bound(..) | ty::Infer(_) | ty::Error(_) => None, . } 254,070 ( 0.08%) } . . impl SimplifiedTypeGen { . pub fn def(self) -> Option { . match self { . AdtSimplifiedType(d) . | ForeignSimplifiedType(d) . | TraitSimplifiedType(d) . | ClosureSimplifiedType(d) -- line 151 ---------------------------------------- 273,101 ( 0.09%) -------------------------------------------------------------------------------- -- 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. 136 ( 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. 136 ( 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 }, . } 272 ( 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> { 28,585 ( 0.01%) fn new() -> InferCtxtInner<'tcx> { 194,378 ( 0.06%) 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(), 17,151 ( 0.01%) region_constraint_storage: Some(RegionConstraintStorage::new()), . region_obligations: vec![], . opaque_types: Default::default(), . opaque_types_vars: Default::default(), . } 34,302 ( 0.01%) } . . #[inline] . pub fn region_obligations(&self) -> &[(hir::HirId, RegionObligation<'tcx>)] { . &self.region_obligations . } . . #[inline] . pub fn projection_cache(&mut self) -> traits::ProjectionCache<'_, 'tcx> { 67 ( 0.00%) self.projection_cache.with_log(&mut self.undo_log) . } . . #[inline] . fn type_variables(&mut self) -> type_variable::TypeVariableTable<'_, 'tcx> { 126,121 ( 0.04%) self.type_variable_storage.with_log(&mut self.undo_log) . } . . #[inline] . fn int_unification_table( . &mut self, . ) -> ut::UnificationTable< . ut::InPlace< . ty::IntVid, -- line 245 ---------------------------------------- -- line 268 ---------------------------------------- . &mut self, . ) -> ut::UnificationTable< . ut::InPlace< . ty::ConstVid<'tcx>, . &mut ut::UnificationStorage>, . &mut InferCtxtUndoLogs<'tcx>, . >, . > { 26,774 ( 0.01%) self.const_unification_storage.with_log(&mut self.undo_log) . } . . #[inline] . pub fn unwrap_region_constraints(&mut self) -> RegionConstraintCollector<'_, 'tcx> { 2,241 ( 0.00%) self.region_constraint_storage . .as_mut() . .expect("region constraints already solved") 2,317 ( 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. 1,040 ( 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 908 ( 0.00%) #[derive(Clone, Debug)] . pub enum SubregionOrigin<'tcx> { . /// Arose from a subtyping relation 46 ( 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. 8 ( 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 10 ( 0.00%) DataBorrowed(Ty<'tcx>, Span), . . /// (&'a &'b T) where a >= b 17 ( 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> { 5,717 ( 0.00%) fn infer_ctxt(self) -> InferCtxtBuilder<'tcx> { 17,151 ( 0.01%) InferCtxtBuilder { tcx: self, defining_use_anchor: None, fresh_typeck_results: None } 5,717 ( 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. 2,610 ( 0.00%) pub fn with_fresh_in_progress_typeck_results(mut self, table_owner: LocalDefId) -> Self { 3,190 ( 0.00%) self.fresh_typeck_results = Some(RefCell::new(ty::TypeckResults::new(table_owner))); 1,450 ( 0.00%) self.with_opaque_type_inference(table_owner) 2,030 ( 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. 272 ( 0.00%) pub fn with_opaque_type_inference(mut self, defining_use_anchor: LocalDefId) -> Self { 136 ( 0.00%) self.defining_use_anchor = Some(defining_use_anchor); 852 ( 0.00%) self 408 ( 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`). 752 ( 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| { 2,058 ( 0.00%) let (value, subst) = 483 ( 0.00%) infcx.instantiate_canonical_with_fresh_inference_vars(span, canonical); 2,675 ( 0.00%) f(infcx, value, subst) . }) 813 ( 0.00%) } . 40,217 ( 0.01%) pub fn enter(&mut self, f: impl for<'a> FnOnce(InferCtxt<'a, 'tcx>) -> R) -> R { 12,721 ( 0.00%) let InferCtxtBuilder { tcx, defining_use_anchor, ref fresh_typeck_results } = *self; . let in_progress_typeck_results = fresh_typeck_results.as_ref(); 255,466 ( 0.08%) f(InferCtxt { . tcx, . defining_use_anchor, . in_progress_typeck_results, 5,717 ( 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), 5,717 ( 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), . }) 48,881 ( 0.02%) } . } . . 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 { 14 ( 0.00%) let InferOk { value, obligations } = self; 56 ( 0.00%) for obligation in obligations { . fulfill_cx.register_predicate_obligation(infcx, obligation); . } . value . } . } . . impl<'tcx> InferOk<'tcx, ()> { 315 ( 0.00%) pub fn into_obligations(self) -> PredicateObligations<'tcx> { 1,260 ( 0.00%) self.obligations 315 ( 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() 1,669 ( 0.00%) } . 9,528 ( 0.00%) pub fn freshen>(&self, t: T) -> T { 10,719 ( 0.00%) t.fold_with(&mut self.freshener()) 10,719 ( 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`. . pub fn type_var_origin(&'a self, ty: Ty<'tcx>) -> Option { . match *ty.kind() { . ty::Infer(ty::TyVar(vid)) => { . Some(*self.inner.borrow_mut().type_variables().var_origin(vid)) . } . _ => None, . } . } . 1,191 ( 0.00%) pub fn freshener<'b>(&'b self) -> TypeFreshener<'b, 'tcx> { . freshen::TypeFreshener::new(self, false) 1,191 ( 0.00%) } . . /// Like `freshener`, but does not replace `'static` regions. 10,099 ( 0.00%) pub fn freshener_keep_static<'b>(&'b self) -> TypeFreshener<'b, 'tcx> { . freshen::TypeFreshener::new(self, true) 10,099 ( 0.00%) } . 544 ( 0.00%) pub fn unsolved_variables(&self) -> Vec> { 272 ( 0.00%) let mut inner = self.inner.borrow_mut(); 272 ( 0.00%) let mut vars: Vec> = inner . .type_variables() . .unsolved_variables() . .into_iter() . .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 }) -- line 720 ---------------------------------------- -- line 723 ---------------------------------------- . ); . 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 952 ( 0.00%) } . 10,100 ( 0.00%) fn combine_fields( . &'a self, . trace: TypeTrace<'tcx>, . param_env: ty::ParamEnv<'tcx>, . ) -> CombineFields<'a, 'tcx> { 56,540 ( 0.02%) CombineFields { . infcx: self, 141,350 ( 0.05%) trace, . cause: None, . param_env, . obligations: PredicateObligations::new(), . } 10,100 ( 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. 8 ( 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); 135 ( 0.00%) let result = func(self); . self.in_snapshot.set(flag); . result 9 ( 0.00%) } . 59,690 ( 0.02%) 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(); . 179,070 ( 0.06%) 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. 29,845 ( 0.01%) _in_progress_typeck_results: self . .in_progress_typeck_results . .map(|typeck_results| typeck_results.borrow()), . } 119,380 ( 0.04%) } . 289,476 ( 0.10%) #[instrument(skip(self, snapshot), level = "debug")] . fn rollback_to(&self, cause: &str, snapshot: CombinedSnapshot<'a, 'tcx>) { . let CombinedSnapshot { 26,316 ( 0.01%) undo_snapshot, 26,316 ( 0.01%) region_constraints_snapshot, 26,316 ( 0.01%) universe, 26,316 ( 0.01%) was_in_snapshot, 52,632 ( 0.02%) _in_progress_typeck_results, . } = snapshot; . . self.in_snapshot.set(was_in_snapshot); . self.universe.set(universe); . . let mut inner = self.inner.borrow_mut(); 26,316 ( 0.01%) inner.rollback_to(undo_snapshot); . inner.unwrap_region_constraints().rollback_to(region_constraints_snapshot); . } . 52,935 ( 0.02%) #[instrument(skip(self, snapshot), level = "debug")] . fn commit_from(&self, snapshot: CombinedSnapshot<'a, 'tcx>) { . let CombinedSnapshot { 3,529 ( 0.00%) undo_snapshot, . region_constraints_snapshot: _, . universe: _, 3,529 ( 0.00%) was_in_snapshot, 7,058 ( 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. 4,248 ( 0.00%) #[instrument(skip(self, f), level = "debug")] 5,192 ( 0.00%) pub fn commit_unconditionally(&self, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 472 ( 0.00%) let snapshot = self.start_snapshot(); 1,416 ( 0.00%) let r = f(&snapshot); 3,304 ( 0.00%) self.commit_from(snapshot); 2,832 ( 0.00%) r . } . . /// Execute `f` and commit the bindings if closure `f` returns `Ok(_)`. 126,559 ( 0.04%) #[instrument(skip(self, f), level = "debug")] 156,602 ( 0.05%) pub fn commit_if_ok(&self, f: F) -> Result . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> Result, . { 15,962 ( 0.01%) let snapshot = self.start_snapshot(); 74,911 ( 0.02%) let r = f(&snapshot); . debug!("commit_if_ok() -- r.is_ok() = {}", r.is_ok()); 15,485 ( 0.01%) match r { . Ok(_) => { 22,772 ( 0.01%) self.commit_from(snapshot); . } . Err(_) => { 119,353 ( 0.04%) self.rollback_to("commit_if_ok -- error", snapshot); . } . } 94,683 ( 0.03%) r . } . . /// Execute `f` then unroll any bindings it creates. 59,235 ( 0.02%) #[instrument(skip(self, f), level = "debug")] 77,108 ( 0.03%) pub fn probe(&self, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 19,099 ( 0.01%) let snapshot = self.start_snapshot(); 37,290 ( 0.01%) let r = f(&snapshot); 86,049 ( 0.03%) self.rollback_to("probe", snapshot); 436 ( 0.00%) r . } . . /// If `should_skip` is true, then execute `f` then unroll any bindings it creates. 36,315 ( 0.01%) #[instrument(skip(self, f), level = "debug")] 48,420 ( 0.02%) pub fn probe_maybe_skip_leak_check(&self, should_skip: bool, f: F) -> R . where . F: FnOnce(&CombinedSnapshot<'a, 'tcx>) -> R, . { 8,070 ( 0.00%) let snapshot = self.start_snapshot(); 4,035 ( 0.00%) let was_skip_leak_check = self.skip_leak_check.get(); 8,070 ( 0.00%) if should_skip { . self.skip_leak_check.set(true); . } 16,140 ( 0.01%) let r = f(&snapshot); 36,315 ( 0.01%) self.rollback_to("probe", snapshot); . self.skip_leak_check.set(was_skip_leak_check); 48,420 ( 0.02%) 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 1,226 ( 0.00%) pub fn region_constraints_added_in_snapshot( . &self, . snapshot: &CombinedSnapshot<'a, 'tcx>, . ) -> Option { 2,452 ( 0.00%) self.inner . .borrow_mut() . .unwrap_region_constraints() . .region_constraints_added_in_snapshot(&snapshot.undo_snapshot) 1,839 ( 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); . } . . pub fn can_sub(&self, param_env: ty::ParamEnv<'tcx>, a: T, b: T) -> UnitResult<'tcx> . where . T: at::ToTrace<'tcx>, -- line 908 ---------------------------------------- -- line 911 ---------------------------------------- . self.probe(|_| { . self.at(origin, param_env).sub(a, b).map(|InferOk { obligations: _, .. }| { . // Ignore obligations, since we are unrolling . // everything anyway. . }) . }) . } . 120 ( 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. . }) . }) 90 ( 0.00%) } . 400 ( 0.00%) #[instrument(skip(self), level = "debug")] . pub fn sub_regions( . &self, . origin: SubregionOrigin<'tcx>, . a: ty::Region<'tcx>, . b: ty::Region<'tcx>, . ) { 360 ( 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 983 ---------------------------------------- . 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, . }); . self.subtype_predicate(cause, param_env, subtype_predicate) . } . 96 ( 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. 8 ( 0.00%) let r_a = self.shallow_resolve(predicate.skip_binder().a); 8 ( 0.00%) let r_b = self.shallow_resolve(predicate.skip_binder().b); 64 ( 0.00%) match (r_a.kind(), r_b.kind()) { 16 ( 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); 16 ( 0.00%) return None; . } . _ => {} . } . . Some(self.commit_if_ok(|_snapshot| { . let ty::SubtypePredicate { a_is_expected, a, b } = . self.replace_bound_vars_with_placeholders(predicate); . . let ok = self.at(cause, param_env).sub_exp(a_is_expected, a, b)?; . . Ok(ok.unit()) . })) 72 ( 0.00%) } . 120 ( 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) . }); 100 ( 0.00%) self.sub_regions(origin, r_b, r_a); // `b : a` ==> `a <= b` . Ok(()) . }) 80 ( 0.00%) } . . /// Number of type variables created so far. . pub fn num_ty_vars(&self) -> usize { . self.inner.borrow_mut().type_variables().num_vars() . } . 402 ( 0.00%) pub fn next_ty_var_id(&self, origin: TypeVariableOrigin) -> TyVid { 2,010 ( 0.00%) self.inner.borrow_mut().type_variables().new_var(self.universe(), origin) 603 ( 0.00%) } . 366 ( 0.00%) pub fn next_ty_var(&self, origin: TypeVariableOrigin) -> Ty<'tcx> { 1,389 ( 0.00%) self.tcx.mk_ty_var(self.next_ty_var_id(origin)) 549 ( 0.00%) } . 12 ( 0.00%) pub fn next_ty_var_in_universe( . &self, . origin: TypeVariableOrigin, . universe: ty::UniverseIndex, . ) -> Ty<'tcx> { 66 ( 0.00%) let vid = self.inner.borrow_mut().type_variables().new_var(universe, origin); 6 ( 0.00%) self.tcx.mk_ty_var(vid) 18 ( 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 1108 ---------------------------------------- . . 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. 56 ( 0.00%) pub fn next_region_var(&self, origin: RegionVariableOrigin) -> ty::Region<'tcx> { 3,451 ( 0.00%) self.next_region_var_in_universe(origin, self.universe()) 112 ( 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. 1,226 ( 0.00%) pub fn next_region_var_in_universe( . &self, . origin: RegionVariableOrigin, . universe: ty::UniverseIndex, . ) -> ty::Region<'tcx> { . let region_var = 7,969 ( 0.00%) self.inner.borrow_mut().unwrap_region_constraints().new_region_var(universe, origin); 3,065 ( 0.00%) self.tcx.mk_region(ty::ReVar(region_var)) 1,839 ( 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. 28 ( 0.00%) pub fn universe_of_region(&self, r: ty::Region<'tcx>) -> ty::UniverseIndex { . self.inner.borrow_mut().unwrap_region_constraints().universe(r) 42 ( 0.00%) } . . /// Number of region variables created so far. 1,088 ( 0.00%) pub fn num_region_vars(&self) -> usize { . self.inner.borrow_mut().unwrap_region_constraints().num_region_vars() 1,632 ( 0.00%) } . . /// Just a convenient wrapper of `next_region_var` for using during NLL. 479 ( 0.00%) pub fn next_nll_region_var(&self, origin: NllRegionVariableOrigin) -> ty::Region<'tcx> { . self.next_region_var(RegionVariableOrigin::Nll(origin)) 958 ( 0.00%) } . . /// Just a convenient wrapper of `next_region_var` for using during NLL. . pub fn next_nll_region_var_in_universe( . &self, . origin: NllRegionVariableOrigin, . universe: ty::UniverseIndex, . ) -> ty::Region<'tcx> { . self.next_region_var_in_universe(RegionVariableOrigin::Nll(origin), universe) . } . 139,088 ( 0.05%) pub fn var_for_def(&self, span: Span, param: &ty::GenericParamDef) -> GenericArg<'tcx> { 86,856 ( 0.03%) match param.kind { . GenericParamDefKind::Lifetime => { . // Create a region inference variable for the given . // region parameter definition. 37 ( 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)`. 68,116 ( 0.02%) let ty_var_id = self.inner.borrow_mut().type_variables().new_var( . self.universe(), 85,145 ( 0.03%) TypeVariableOrigin { . kind: TypeVariableOriginKind::TypeParameterDefinition( 17,029 ( 0.01%) param.name, 17,029 ( 0.01%) Some(param.def_id), . ), . span, . }, . ); . 17,029 ( 0.01%) 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 = 3,520 ( 0.00%) self.inner.borrow_mut().const_unification_table().new_key(ConstVarValue { . origin, . val: ConstVariableValue::Unknown { universe: self.universe() }, . }); 320 ( 0.00%) self.tcx.mk_const_var(const_var_id, self.tcx.type_of(param.def_id)).into() . } . } 2,560 ( 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. 51,042 ( 0.02%) pub fn fresh_substs_for_item(&self, span: Span, def_id: DefId) -> SubstsRef<'tcx> { 188,984 ( 0.06%) InternalSubsts::for_item(self.tcx, def_id, |param, _| self.var_for_def(span, param)) 34,028 ( 0.01%) } . . /// 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). 272 ( 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() . ); . 6,808 ( 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() 408 ( 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`. 6,832 ( 0.00%) pub fn resolve_regions( . &self, . region_context: DefId, . outlives_env: &OutlivesEnvironment<'tcx>, . mode: RegionckMode, . ) -> Vec> { 18,544 ( 0.01%) let (var_infos, data) = { . let mut inner = self.inner.borrow_mut(); . let inner = &mut *inner; 976 ( 0.00%) assert!( 2,928 ( 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() 976 ( 0.00%) }; . . let region_rels = 976 ( 0.00%) &RegionRelations::new(self.tcx, region_context, outlives_env.free_region_map()); . 8,784 ( 0.00%) let (lexical_region_resolutions, errors) = 23,424 ( 0.01%) lexical_region_resolve::resolve(region_rels, var_infos, data, mode); . 3,904 ( 0.00%) let old_value = self.lexical_region_resolutions.replace(Some(lexical_region_resolutions)); 976 ( 0.00%) assert!(old_value.is_none()); . . errors 8,784 ( 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`. 9,760 ( 0.00%) pub fn resolve_regions_and_report_errors( . &self, . region_context: DefId, . outlives_env: &OutlivesEnvironment<'tcx>, . mode: RegionckMode, . ) { 1,952 ( 0.00%) let errors = self.resolve_regions(region_context, outlives_env, mode); . 2,928 ( 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. 1,952 ( 0.00%) self.report_region_errors(&errors); . } 4,880 ( 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(); 844 ( 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. 680 ( 0.00%) pub fn take_region_var_origins(&self) -> VarInfos { . let mut inner = self.inner.borrow_mut(); 2,584 ( 0.00%) let (var_infos, data) = inner . .region_constraint_storage . .take() . .expect("regions already resolved") . .with_log(&mut inner.undo_log) 136 ( 0.00%) .into_infos_and_data(); 136 ( 0.00%) assert!(data.is_empty()); . var_infos 1,088 ( 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)`. 74 ( 0.00%) pub fn probe_ty_var(&self, vid: TyVid) -> Result, ty::UniverseIndex> { . use self::type_variable::TypeVariableValue; . 222 ( 0.00%) match self.inner.borrow_mut().type_variables().probe(vid) { . TypeVariableValue::Known { value } => Ok(value), . TypeVariableValue::Unknown { universe } => Err(universe), . } 259 ( 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>, . { 5,947 ( 0.00%) value.fold_with(&mut ShallowResolver { infcx: self }) . } . 150 ( 0.00%) pub fn root_var(&self, var: ty::TyVid) -> ty::TyVid { . self.inner.borrow_mut().type_variables().root_var(var) 225 ( 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. 80,724 ( 0.03%) pub fn resolve_vars_if_possible(&self, value: T) -> T . where . T: TypeFoldable<'tcx>, . { 7,213 ( 0.00%) if !value.needs_infer() { 19,230 ( 0.01%) return value; // Avoid duplicated subst-folding. . } 28,057 ( 0.01%) let mut r = resolve::OpportunisticVarResolver::new(self); 51,334 ( 0.02%) value.fold_with(&mut r) 72,653 ( 0.02%) } . . /// 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) . } . 117 ( 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 = 663 ( 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 }, . ) . }; 11,936 ( 0.00%) self.tcx.replace_bound_vars(value, fld_r, fld_t, fld_c) 78 ( 0.00%) } . . /// See the [`region_constraints::RegionConstraintCollector::verify_generic_bound`] method. 104 ( 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); . 39 ( 0.00%) self.inner . .borrow_mut() . .unwrap_region_constraints() 221 ( 0.00%) .verify_generic_bound(origin, kind, a, bound); 91 ( 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. . pub fn closure_kind(&self, closure_substs: SubstsRef<'tcx>) -> Option { . let closure_kind_ty = closure_substs.as_closure().kind_ty(); . let closure_kind_ty = self.shallow_resolve(closure_kind_ty); . closure_kind_ty.to_opt_closure_kind() -- line 1546 ---------------------------------------- -- line 1551 ---------------------------------------- . /// 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 { 60,381 ( 0.02%) self.universe.get() 11,228 ( 0.00%) } . . /// Creates and return a fresh universe that extends all previous . /// universes. Updates `self.universe` to that new universe. . pub fn create_next_universe(&self) -> ty::UniverseIndex { . let u = self.universe.get().next_universe(); . self.universe.set(u); . u . } -- line 1568 ---------------------------------------- -- line 1606 ---------------------------------------- . // variables, thus we don't need to substitute back the original values. . self.tcx.const_eval_resolve(param_env_erased, unevaluated, span) . } . . /// 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`. 597,592 ( 0.20%) fn shallow_resolve_ty(&self, typ: Ty<'tcx>) -> Ty<'tcx> { 295,600 ( 0.10%) 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`. 189,608 ( 0.06%) let known = self.inner.borrow_mut().type_variables().probe(v).known(); . known.map_or(typ, |t| self.shallow_resolve_ty(t)) . } . . ty::Infer(ty::IntVar(v)) => self . .inner . .borrow_mut() . .int_unification_table() . .probe_value(v) -- line 1637 ---------------------------------------- -- line 1643 ---------------------------------------- . .borrow_mut() . .float_unification_table() . .probe_value(v) . .map(|v| v.to_type(self.tcx)) . .unwrap_or(typ), . . _ => typ, . } 672,291 ( 0.22%) } . . /// `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))`. 2,510 ( 0.00%) 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 -- line 1678 ---------------------------------------- -- 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`). 68 ( 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, . } 68 ( 0.00%) } . . /// Tries to extract an inference variable from a type, returns `None` . /// for types other than `ty::Infer(_)` (or `InferTy::Fresh*`). 16 ( 0.00%) pub fn maybe_from_ty(ty: Ty<'tcx>) -> Option { 756 ( 0.00%) match *ty.kind() { 168 ( 0.00%) ty::Infer(ty::TyVar(v)) => Some(TyOrConstInferVar::Ty(v)), . ty::Infer(ty::IntVar(v)) => Some(TyOrConstInferVar::TyInt(v)), . ty::Infer(ty::FloatVar(v)) => Some(TyOrConstInferVar::TyFloat(v)), . _ => None, . } 16 ( 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> { 102,253 ( 0.03%) self.infcx.shallow_resolve_ty(ty) . } . 1,280 ( 0.00%) fn fold_const(&mut self, ct: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { 1,280 ( 0.00%) if let ty::Const { val: ty::ConstKind::Infer(InferConst::Var(vid)), .. } = ct { 1,600 ( 0.00%) self.infcx . .inner . .borrow_mut() . .const_unification_table() 960 ( 0.00%) .probe_value(*vid) . .val . .known() . .unwrap_or(ct) . } else { . ct . } 1,600 ( 0.00%) } . } . . impl<'tcx> TypeTrace<'tcx> { . pub fn span(&self) -> Span { . self.cause.span . } . . pub fn types( -- line 1787 ---------------------------------------- -- line 1818 ---------------------------------------- . CompareImplTypeObligation { span, .. } => span, . } . } . . pub fn from_obligation_cause(cause: &traits::ObligationCause<'tcx>, default: F) -> Self . where . F: FnOnce() -> Self, . { 169 ( 0.00%) match *cause.code() { 33 ( 0.00%) traits::ObligationCauseCode::ReferenceOutlivesReferent(ref_type) => { 165 ( 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 ---------------------------------------- 440,418 ( 0.15%) -------------------------------------------------------------------------------- -- 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 . // . 436,072 ( 0.14%) if layout.align() <= MIN_ALIGN && layout.align() <= layout.size() { 327,054 ( 0.11%) 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. 35,560 ( 0.01%) if layout.align() <= MIN_ALIGN && layout.align() <= layout.size() { 53,340 ( 0.02%) 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) { 117,897 ( 0.04%) libc::free(ptr as *mut libc::c_void) . } . . #[inline] . unsafe fn realloc(&self, ptr: *mut u8, layout: Layout, new_size: usize) -> *mut u8 { 49,800 ( 0.02%) if layout.align() <= MIN_ALIGN && layout.align() <= new_size { 99,600 ( 0.03%) 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 ---------------------------------------- -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/undo_log.rs -------------------------------------------------------------------------------- Ir -- line 28 ---------------------------------------- . PushRegionObligation, . } . . macro_rules! impl_from { . ($($ctor: ident ($ty: ty),)*) => { . $( . impl<'tcx> From<$ty> for UndoLog<'tcx> { . fn from(x: $ty) -> Self { 8 ( 0.00%) UndoLog::$ctor(x.into()) . } . } . )* . } . } . . // Upcast from a single kind of "undoable action" to the general enum . impl_from! { -- line 44 ---------------------------------------- -- line 57 ---------------------------------------- . ConstUnificationTable(sv::UndoLog>>), . . RegionUnificationTable(sv::UndoLog>>), . ProjectionCache(traits::UndoLog<'tcx>), . } . . /// The Rollback trait defines how to rollback a particular action. . impl<'tcx> Rollback> for InferCtxtInner<'tcx> { 255,063 ( 0.08%) fn reverse(&mut self, undo: UndoLog<'tcx>) { 425,105 ( 0.14%) match undo { 843,790 ( 0.28%) UndoLog::TypeVariables(undo) => self.type_variable_storage.reverse(undo), 768 ( 0.00%) UndoLog::ConstUnificationTable(undo) => self.const_unification_storage.reverse(undo), . UndoLog::IntUnificationTable(undo) => self.int_unification_storage.reverse(undo), . UndoLog::FloatUnificationTable(undo) => self.float_unification_storage.reverse(undo), . UndoLog::RegionConstraintCollector(undo) => { 994 ( 0.00%) self.region_constraint_storage.as_mut().unwrap().reverse(undo) . } . UndoLog::RegionUnificationTable(undo) => { 232 ( 0.00%) self.region_constraint_storage.as_mut().unwrap().unification_table.reverse(undo) . } . UndoLog::ProjectionCache(undo) => self.projection_cache.reverse(undo), . UndoLog::PushRegionObligation => { . self.region_obligations.pop(); . } . } 340,084 ( 0.11%) } . } . . /// The combined undo log for all the various unification tables. For each change to the storage . /// for any kind of inference variable, we record an UndoLog entry in the vector here. . pub(crate) struct InferCtxtUndoLogs<'tcx> { . logs: Vec>, . num_open_snapshots: usize, . } . . impl Default for InferCtxtUndoLogs<'_> { . fn default() -> Self { 11,434 ( 0.00%) Self { logs: Default::default(), num_open_snapshots: Default::default() } . } . } . . /// The UndoLogs trait defines how we undo a particular kind of action (of type T). We can undo any . /// action that is convertable into an UndoLog (per the From impls above). . impl<'tcx, T> UndoLogs for InferCtxtUndoLogs<'tcx> . where . UndoLog<'tcx>: From, -- line 102 ---------------------------------------- -- line 103 ---------------------------------------- . { . #[inline] . fn num_open_snapshots(&self) -> usize { . self.num_open_snapshots . } . . #[inline] . fn push(&mut self, undo: T) { 10,058 ( 0.00%) if self.in_snapshot() { 64 ( 0.00%) self.logs.push(undo.into()) . } . } . . fn clear(&mut self) { . self.logs.clear(); . self.num_open_snapshots = 0; . } . -- line 120 ---------------------------------------- -- line 125 ---------------------------------------- . { . if self.in_snapshot() { . self.logs.extend(undos.into_iter().map(UndoLog::from)) . } . } . } . . impl<'tcx> InferCtxtInner<'tcx> { 157,896 ( 0.05%) pub fn rollback_to(&mut self, snapshot: Snapshot<'tcx>) { . debug!("rollback_to({})", snapshot.undo_len); . self.undo_log.assert_open_snapshot(&snapshot); . 307,695 ( 0.10%) while self.undo_log.logs.len() > snapshot.undo_len { . let undo = self.undo_log.logs.pop().unwrap(); 1,020,252 ( 0.34%) self.reverse(undo); . } . 77,538 ( 0.03%) if self.undo_log.num_open_snapshots == 1 { . // The root snapshot. It's safe to clear the undo log because . // there's no snapshot further out that we might need to roll back . // to. 26,328 ( 0.01%) assert!(snapshot.undo_len == 0); . self.undo_log.logs.clear(); . } . 92,112 ( 0.03%) self.undo_log.num_open_snapshots -= 1; 184,212 ( 0.06%) } . . pub fn commit(&mut self, snapshot: Snapshot<'tcx>) { . debug!("commit({})", snapshot.undo_len); . 10,587 ( 0.00%) if self.undo_log.num_open_snapshots == 1 { . // The root snapshot. It's safe to clear the undo log because . // there's no snapshot further out that we might need to roll back . // to. 2,438 ( 0.00%) assert!(snapshot.undo_len == 0); . self.undo_log.logs.clear(); . } . 11,806 ( 0.00%) self.undo_log.num_open_snapshots -= 1; . } . } . . impl<'tcx> InferCtxtUndoLogs<'tcx> { . pub fn start_snapshot(&mut self) -> Snapshot<'tcx> { 119,380 ( 0.04%) self.num_open_snapshots += 1; . Snapshot { undo_len: self.logs.len(), _marker: PhantomData } . } . . pub(crate) fn region_constraints_in_snapshot( . &self, . s: &Snapshot<'tcx>, . ) -> impl Iterator> + Clone { 2,644 ( 0.00%) self.logs[s.undo_len..].iter().filter_map(|log| match log { . UndoLog::RegionConstraintCollector(log) => Some(log), . _ => None, . }) . } . . pub(crate) fn region_constraints( . &self, . ) -> impl Iterator> + Clone { -- line 186 ---------------------------------------- -- line 187 ---------------------------------------- . self.logs.iter().filter_map(|log| match log { . UndoLog::RegionConstraintCollector(log) => Some(log), . _ => None, . }) . } . . fn assert_open_snapshot(&self, snapshot: &Snapshot<'tcx>) { . // Failures here may indicate a failure to follow a stack discipline. 78,948 ( 0.03%) assert!(self.logs.len() >= snapshot.undo_len); 78,948 ( 0.03%) assert!(self.num_open_snapshots > 0); . } . } . . impl<'tcx> std::ops::Index for InferCtxtUndoLogs<'tcx> { . type Output = UndoLog<'tcx>; . . fn index(&self, key: usize) -> &Self::Output { . &self.logs[key] -- line 204 ---------------------------------------- 153,256 ( 0.05%) -------------------------------------------------------------------------------- -- 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 { 261,293 ( 0.09%) 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)); 30,644 ( 0.01%) 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::()); 5,526,533 ( 1.84%) 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" . ); . 30,212 ( 0.01%) self.stride += Group::WIDTH; 30,212 ( 0.01%) self.pos += self.stride; 25,440 ( 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. 16,910 ( 0.01%) 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. 37,125 ( 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. 6,180 ( 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 { 41,463 ( 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. 7,314 ( 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 = 35,373 ( 0.01%) size.checked_mul(buckets)?.checked_add(ctrl_align - 1)? & !(ctrl_align - 1); 46,517 ( 0.02%) 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 { 26 ( 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 { 24 ( 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 { 10 ( 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 { 1,564 ( 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")] 1,425 ( 0.00%) pub unsafe fn erase_no_drop(&mut self, item: &Bucket) { 1,425 ( 0.00%) let index = self.bucket_index(item); . self.table.erase(index); 2,850 ( 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. 170 ( 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 { 2,680 ( 0.00%) self.erase_no_drop(&item); 2 ( 0.00%) item.read() . } . . /// Finds and removes an element from the table, returning it. . #[cfg_attr(feature = "inline-more", inline)] 69,287 ( 0.02%) pub fn remove_entry(&mut self, hash: u64, eq: impl FnMut(&T) -> bool) -> Option { . // Avoid `Option::map` because it bloats LLVM IR. 542 ( 0.00%) match self.find(hash, eq) { 134 ( 0.00%) Some(bucket) => Some(unsafe { self.remove(bucket) }), 8,142 ( 0.00%) None => None, . } 105,994 ( 0.04%) } . . /// 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) { 1,848 ( 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) { 69,145 ( 0.02%) if additional > self.table.growth_left { . // Avoid `Result::unwrap_or_else` because it bloats LLVM IR. 27,447 ( 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)] 67,333 ( 0.02%) 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 . }, . ) . } 49,496 ( 0.02%) } . . /// 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)] 390,904 ( 0.13%) 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. 287 ( 0.00%) let old_ctrl = *self.table.ctrl(index); 212,169 ( 0.07%) 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); 2 ( 0.00%) bucket.write(value); . bucket . } 288,597 ( 0.10%) } . . /// 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)] 37,704 ( 0.01%) pub fn insert_entry(&mut self, hash: u64, value: T, hasher: impl Fn(&T) -> u64) -> &mut T { 24 ( 0.00%) unsafe { self.insert(hash, value, hasher).as_mut() } 28,278 ( 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"))] 50 ( 0.00%) pub unsafe fn insert_no_grow(&mut self, hash: u64, value: T) -> Bucket { 83,492 ( 0.03%) let (index, old_ctrl) = self.table.prepare_insert_slot(hash); 7,203 ( 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. 177,547 ( 0.06%) self.table.growth_left -= special_is_empty(old_ctrl) as usize; . . bucket.write(value); 143,754 ( 0.05%) self.table.items += 1; . bucket 85 ( 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] 96 ( 0.00%) pub fn find(&self, hash: u64, mut eq: impl FnMut(&T) -> bool) -> Option> { 2,302 ( 0.00%) let result = self.table.find_inner(hash, &mut |index| unsafe { 4,228 ( 0.00%) eq(self.bucket(index).as_ref()) 1,290 ( 0.00%) }); . . // Avoid `Option::map` because it bloats LLVM IR. . match result { 322 ( 0.00%) Some(index) => Some(unsafe { self.bucket(index) }), . None => None, . } 96 ( 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. 1,637 ( 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] . pub fn get_mut(&mut self, hash: u64, eq: impl FnMut(&T) -> bool) -> Option<&mut T> { . // Avoid `Option::map` because it bloats LLVM IR. 340 ( 0.00%) match self.find(hash, eq) { . Some(bucket) => Some(unsafe { bucket.as_mut() }), . None => None, . } . } . . /// 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. -- line 855 ---------------------------------------- -- 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 { 56,948 ( 0.02%) self.len() == 0 . } . . /// Returns the number of buckets in the table. . #[inline] . pub fn buckets(&self) -> usize { . self.table.bucket_mask + 1 . } . -- line 936 ---------------------------------------- -- line 938 ---------------------------------------- . /// 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 { . let data = Bucket::from_base_index(self.data_end(), 0); . RawIter { . iter: RawIterRange::new(self.table.ctrl.as_ptr(), data, self.table.buckets()), 11,858 ( 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(); 2,936 ( 0.00%) let allocation = self.into_allocation(); 2,202 ( 0.00%) RawIntoIter { 3,670 ( 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)> { 911 ( 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(( 169 ( 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 { 138,677 ( 0.05%) 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)] 63,344 ( 0.02%) 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()); . } . 14,266 ( 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)); 35,934 ( 0.01%) Ok(Self { . ctrl, 14,446 ( 0.00%) bucket_mask: buckets - 1, . items: 0, . growth_left: bucket_mask_to_capacity(buckets - 1), . alloc, . }) 46,222 ( 0.02%) } . . #[inline] 4,256 ( 0.00%) fn fallible_with_capacity( . alloc: A, . table_layout: TableLayout, . capacity: usize, . fallibility: Fallibility, . ) -> Result { 1,166 ( 0.00%) if capacity == 0 { 719 ( 0.00%) Ok(Self::new_in(alloc)) . } else { . unsafe { . let buckets = . capacity_to_buckets(capacity).ok_or_else(|| fallibility.capacity_overflow())?; . 29,044 ( 0.01%) let result = Self::new_uninitialized(alloc, table_layout, buckets, fallibility)?; . result.ctrl(0).write_bytes(EMPTY, result.num_ctrl_bytes()); . 2,472 ( 0.00%) Ok(result) . } . } 4,256 ( 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] 30,609 ( 0.01%) unsafe fn prepare_insert_slot(&self, hash: u64) -> (usize, u8) { . let index = self.find_insert_slot(hash); 30,609 ( 0.01%) let old_ctrl = *self.ctrl(index); . self.set_ctrl_h2(index, hash); . (index, old_ctrl) 61,218 ( 0.02%) } . . /// 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)); 171,149 ( 0.06%) if let Some(bit) = group.match_empty_or_deleted().lowest_set_bit() { 500,061 ( 0.17%) 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). 219,722 ( 0.07%) 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); . 4,160 ( 0.00%) loop { . let group = unsafe { Group::load(self.ctrl(probe_seq.pos)) }; . 503,131 ( 0.17%) for bit in group.match_byte(h2_hash) { 1,066,757 ( 0.35%) let index = (probe_seq.pos + bit) & self.bucket_mask; . 715,417 ( 0.24%) if likely(eq(index)) { . return Some(index); . } . } . 134,005 ( 0.04%) if likely(group.match_empty().any_bit_set()) { . return None; . } . . probe_seq.move_next(self.bucket_mask); . } . } . . #[allow(clippy::mut_mut)] -- line 1198 ---------------------------------------- -- 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(); 614,944 ( 0.20%) 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 { 2,949,859 ( 0.98%) 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) { 265,195 ( 0.09%) self.growth_left -= special_is_empty(old_ctrl) as usize; . self.set_ctrl_h2(index, hash); 212,156 ( 0.07%) 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; . probe_index(i) == probe_index(new_i) -- line 1281 ---------------------------------------- -- 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] | . // --------------------------------------------- 481,653 ( 0.16%) let index2 = ((index.wrapping_sub(Group::WIDTH)) & self.bucket_mask) + Group::WIDTH; . 160,551 ( 0.05%) *self.ctrl(index) = ctrl; 160,554 ( 0.05%) *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 { 37,038 ( 0.01%) self.bucket_mask + 1 . } . . #[inline] . fn num_ctrl_bytes(&self) -> usize { 30,569 ( 0.01%) self.bucket_mask + 1 + Group::WIDTH . } . . #[inline] . fn is_empty_singleton(&self) -> bool { 248,468 ( 0.08%) 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. 474 ( 0.00%) let mut new_table = RawTableInner::fallible_with_capacity( . self.alloc.clone(), . table_layout, . capacity, . fallibility, . )?; 17,715 ( 0.01%) 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_| { 8,201 ( 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. 16,402 ( 0.01%) let new_items = match self.items.checked_add(additional) { . Some(new_items) => new_items, . None => return Err(fallibility.capacity_overflow()), . }; 16,402 ( 0.01%) let full_capacity = bucket_mask_to_capacity(self.bucket_mask); 34,121 ( 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); . Ok(()) . } else { . // Otherwise, conservatively resize to at least the next size up . // to avoid churning deletes into frequent rehashes. . self.resize_inner( 8,201 ( 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> { 1,152 ( 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() { 94,610 ( 0.03%) 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); . 8,201 ( 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 1554 ---------------------------------------- . #[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( 5,650 ( 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) { 473 ( 0.00%) if !self.is_empty_singleton() { . unsafe { . self.ctrl(0).write_bytes(EMPTY, self.num_ctrl_bytes()); . } . } 883 ( 0.00%) self.items = 0; 473 ( 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))); 17,135 ( 0.01%) 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. 68,540 ( 0.02%) let ctrl = if empty_before.leading_zeros() + empty_after.trailing_zeros() >= Group::WIDTH { . DELETED . } else { 85,675 ( 0.03%) self.growth_left += 1; . EMPTY . }; . self.set_ctrl(index, ctrl); 68,540 ( 0.02%) self.items -= 1; . } . } . . impl Clone for RawTable { 80 ( 0.00%) fn clone(&self) -> Self { 10 ( 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) . } . } 90 ( 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; 4 ( 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 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)] 187,625 ( 0.06%) fn drop(&mut self) { 113,242 ( 0.04%) if !self.table.is_empty_singleton() { . unsafe { . self.drop_elements(); . self.free_buckets(); . } . } 208,586 ( 0.07%) } . } . #[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)] 2,936 ( 0.00%) fn into_iter(self) -> RawIntoIter { . unsafe { . let iter = self.iter(); . self.into_iter_from(iter) . } 3,670 ( 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 { 21,057 ( 0.01%) if let Some(index) = self.current_group.lowest_set_bit() { 2,335 ( 0.00%) self.current_group = self.current_group.remove_lowest_bit(); 4,174 ( 0.00%) return Some(self.data.next_n(index)); . } . 20,717 ( 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). 416 ( 0.00%) self.current_group = Group::load_aligned(self.next_ctrl).match_full(); 40 ( 0.00%) self.data = self.data.next_n(Group::WIDTH); 885 ( 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) { 509 ( 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)] 3,403 ( 0.00%) fn next(&mut self) -> Option> { 7,676 ( 0.00%) if let Some(b) = self.iter.next() { 22,178 ( 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 . } 6,806 ( 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)] 1,294 ( 0.00%) fn drop(&mut self) { . unsafe { . // Drop all remaining elements . self.iter.drop_elements(); . . // Free the table 4,101 ( 0.00%) if let Some((ptr, layout)) = self.allocation { . self.alloc.deallocate(ptr, layout); . } . } 64 ( 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)] 158 ( 0.00%) fn next(&mut self) -> Option { 12 ( 0.00%) unsafe { Some(self.iter.next()?.read()) } 316 ( 0.00%) } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 2 ( 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)] 24 ( 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 ( 0.00%) self.orig_table . .as_ptr() . .copy_from_nonoverlapping(&*self.table, 1); . } 24 ( 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 ---------------------------------------- 1,578,630 ( 0.52%) -------------------------------------------------------------------------------- -- 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 { 62,366 ( 0.02%) 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> { 234 ( 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> { 32 ( 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 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])> { 2,062 ( 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> { 13,660 ( 0.00%) 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> { 20,111 ( 0.01%) 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 { 109,573 ( 0.04%) 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 { 4 ( 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 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) { 66 ( 0.00%) let _ = &self[a]; 912 ( 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 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 { 47 ( 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]) { 42 ( 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]) { 3,470 ( 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. 789 ( 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, . { 8 ( 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(); 954 ( 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()); 486 ( 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; 323,000 ( 0.11%) while left < right { 448,308 ( 0.15%) 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. 255,650 ( 0.08%) 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. 145,437 ( 0.05%) if cmp == Less { 135,854 ( 0.05%) left = mid + 1; 81,381 ( 0.03%) } else if cmp == Greater { . right = mid; . } else { . // SAFETY: same as the `get_unchecked` above . unsafe { crate::intrinsics::assume(mid < self.len()) }; . return Ok(mid); . } . 403,852 ( 0.13%) 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, . ); . } . 4,586 ( 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! 3,920 ( 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::()) }; 3,920 ( 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), 3,920 ( 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 ---------------------------------------- 215,652 ( 0.07%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/sty.rs -------------------------------------------------------------------------------- Ir -- line 23 ---------------------------------------- . 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)] . #[derive(HashStable, TypeFoldable, Lift)] . pub struct TypeAndMut<'tcx> { 1 ( 0.00%) pub ty: Ty<'tcx>, 5 ( 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 { 592 ( 0.00%) pub scope: DefId, 954 ( 0.00%) pub bound_region: BoundRegionKind, . } . 3,216 ( 0.00%) #[derive(Clone, PartialEq, PartialOrd, Eq, Ord, Hash, TyEncodable, TyDecodable, Copy)] . #[derive(HashStable)] . pub enum BoundRegionKind { . /// An anonymous region parameter for a given fn (&T) 94 ( 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. . BrNamed(DefId, Symbol), . . /// Anonymous region for the implicit env pointer parameter . /// to a closure . BrEnv, . } . 60 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Hash, TyEncodable, TyDecodable, Debug, PartialOrd, Ord)] . #[derive(HashStable)] . pub struct BoundRegion { 394 ( 0.00%) pub var: BoundVar, 300 ( 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. 1,340,389 ( 0.45%) #[derive(Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable, Debug)] . #[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`. -- line 89 ---------------------------------------- -- 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. 12,325 ( 0.00%) 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]`. 326,204 ( 0.11%) 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`. 5,469 ( 0.00%) 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`. 16 ( 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. 29 ( 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 760 ---------------------------------------- . } . . /// Returns the type of this inline const. . pub fn ty(self) -> Ty<'tcx> { . self.split().ty.expect_ty() . } . } . 200 ( 0.00%) #[derive(Debug, Copy, Clone, PartialEq, PartialOrd, Ord, Eq, Hash, TyEncodable, TyDecodable)] . #[derive(HashStable, TypeFoldable)] . pub enum ExistentialPredicate<'tcx> { . /// E.g., `Iterator`. . Trait(ExistentialTraitRef<'tcx>), . /// E.g., `Iterator::Item = T`. . Projection(ExistentialProjection<'tcx>), . /// E.g., `Send`. 6 ( 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. 30 ( 0.00%) pub fn stable_cmp(&self, tcx: TyCtxt<'tcx>, other: &Self) -> Ordering { . use self::ExistentialPredicate::*; 32 ( 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, . } 36 ( 0.00%) } . } . . impl<'tcx> Binder<'tcx, ExistentialPredicate<'tcx>> { . pub fn with_self_ty(&self, tcx: TyCtxt<'tcx>, self_ty: Ty<'tcx>) -> ty::Predicate<'tcx> { . use crate::ty::ToPredicate; . match self.skip_binder() { . ExistentialPredicate::Trait(tr) => { . self.rebind(tr).with_self_ty(tcx, self_ty).without_const().to_predicate(tcx) -- line 805 ---------------------------------------- -- line 840 ---------------------------------------- . /// . /// 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. . pub fn principal(&self) -> Option>> { 6 ( 0.00%) self[0] 6 ( 0.00%) .map_bound(|this| match this { . ExistentialPredicate::Trait(tr) => Some(tr), . _ => None, . }) . .transpose() . } . . pub fn principal_def_id(&self) -> Option { . self.principal().map(|trait_ref| trait_ref.skip_binder().def_id) -- line 857 ---------------------------------------- -- 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. 4,222 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 432,687 ( 0.14%) #[derive(HashStable, TypeFoldable)] . pub struct TraitRef<'tcx> { 340 ( 0.00%) pub def_id: DefId, 226,129 ( 0.08%) pub substs: SubstsRef<'tcx>, . } . . impl<'tcx> TraitRef<'tcx> { 698 ( 0.00%) pub fn new(def_id: DefId, substs: SubstsRef<'tcx>) -> TraitRef<'tcx> { . TraitRef { def_id, substs } 2,792 ( 0.00%) } . . /// Returns a `TraitRef` of the form `P0: Foo` where `Pi` . /// are the parameters defined on trait. 144 ( 0.00%) pub fn identity(tcx: TyCtxt<'tcx>, def_id: DefId) -> Binder<'tcx, TraitRef<'tcx>> { 64 ( 0.00%) ty::Binder::dummy(TraitRef { . def_id, 96 ( 0.00%) substs: InternalSubsts::identity_for_item(tcx, def_id), . }) 128 ( 0.00%) } . . #[inline] . pub fn self_ty(&self) -> Ty<'tcx> { . self.substs.type_at(0) . } . 40 ( 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); . 5 ( 0.00%) ty::TraitRef { def_id: trait_id, substs: tcx.intern_substs(&substs[..defs.params.len()]) } 55 ( 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 { 54 ( 0.00%) self.skip_binder().def_id 18 ( 0.00%) } . 26 ( 0.00%) pub fn to_poly_trait_predicate(&self) -> ty::PolyTraitPredicate<'tcx> { 52 ( 0.00%) self.map_bound(|trait_ref| ty::TraitPredicate { . trait_ref, . constness: ty::BoundConstness::NotConst, . polarity: ty::ImplPolarity::Positive, . }) 26 ( 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). 28 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] . #[derive(HashStable, TypeFoldable)] . pub struct ExistentialTraitRef<'tcx> { 6 ( 0.00%) pub def_id: DefId, 12 ( 0.00%) pub substs: SubstsRef<'tcx>, . } . . impl<'tcx> ExistentialTraitRef<'tcx> { . pub fn erase_self_ty( . tcx: TyCtxt<'tcx>, . trait_ref: ty::TraitRef<'tcx>, . ) -> ty::ExistentialTraitRef<'tcx> { . // Assert there is a Self. -- line 970 ---------------------------------------- -- line 999 ---------------------------------------- . /// 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. . pub fn with_self_ty(&self, tcx: TyCtxt<'tcx>, self_ty: Ty<'tcx>) -> ty::PolyTraitRef<'tcx> { . self.map_bound(|trait_ref| trait_ref.with_self_ty(tcx, self_ty)) . } . } . 640 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] . #[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 -- line 1015 ---------------------------------------- -- line 1016 ---------------------------------------- . /// 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. 544 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug)] 54,919 ( 0.02%) 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. 245 ( 0.00%) pub fn dummy(value: T) -> Binder<'tcx, T> { 2,927 ( 0.00%) assert!(!value.has_escaping_bound_vars()); 9,227 ( 0.00%) Binder(value, ty::List::empty()) 245 ( 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); . } 2,731 ( 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 { 66,601 ( 0.02%) self.0 . } . . pub fn bound_vars(&self) -> &'tcx List { 361 ( 0.00%) self.1 . } . . pub fn as_ref(&self) -> Binder<'tcx, &T> { 670 ( 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 1089 ---------------------------------------- . { . self.as_ref().map_bound(f) . } . . pub fn map_bound>(self, f: F) -> Binder<'tcx, U> . where . F: FnOnce(T) -> U, . { 2,759 ( 0.00%) let value = f(self.0); . if cfg!(debug_assertions) { . let mut validator = ValidateBoundVars::new(self.1); . value.visit_with(&mut validator); . } 15,825 ( 0.01%) Binder(value, self.1) . } . . 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); . } 1,184 ( 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); . } 1,130 ( 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>, . { 11,971 ( 0.00%) if self.0.has_escaping_bound_vars() { None } else { Some(self.skip_binder()) } . } . . /// 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. -- line 1159 ---------------------------------------- -- 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`. 35 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, Debug, TyEncodable, TyDecodable)] 392 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct ProjectionTy<'tcx> { . /// The parameters of the associated item. 229 ( 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`. 214 ( 0.00%) pub item_def_id: DefId, . } . . impl<'tcx> ProjectionTy<'tcx> { 147 ( 0.00%) pub fn trait_def_id(&self, tcx: TyCtxt<'tcx>) -> DefId { 42 ( 0.00%) tcx.associated_item(self.item_def_id).container.id() 168 ( 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 91 ( 0.00%) pub fn trait_ref_and_own_substs( . &self, . tcx: TyCtxt<'tcx>, . ) -> (ty::TraitRef<'tcx>, &'tcx [ty::GenericArg<'tcx>]) { 39 ( 0.00%) let def_id = tcx.associated_item(self.item_def_id).container.id(); . let trait_generics = tcx.generics_of(def_id); 65 ( 0.00%) ( . ty::TraitRef { def_id, substs: self.substs.truncate_to(tcx, trait_generics) }, . &self.substs[trait_generics.count()..], . ) 117 ( 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. 189 ( 0.00%) pub fn trait_ref(&self, tcx: TyCtxt<'tcx>) -> ty::TraitRef<'tcx> { 21 ( 0.00%) let def_id = self.trait_def_id(tcx); 21 ( 0.00%) ty::TraitRef { def_id, substs: self.substs.truncate_to(tcx, tcx.generics_of(def_id)) } 231 ( 0.00%) } . 42 ( 0.00%) pub fn self_ty(&self) -> Ty<'tcx> { 126 ( 0.00%) self.substs.type_at(0) 84 ( 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. 1,126 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] 201 ( 0.00%) #[derive(HashStable, TypeFoldable)] . pub struct FnSig<'tcx> { 2 ( 0.00%) pub inputs_and_output: &'tcx List>, 185 ( 0.00%) pub c_variadic: bool, 13 ( 0.00%) pub unsafety: hir::Unsafety, 406 ( 0.00%) pub abi: abi::Abi, . } . . impl<'tcx> FnSig<'tcx> { 242 ( 0.00%) pub fn inputs(&self) -> &'tcx [Ty<'tcx>] { 1,478 ( 0.00%) &self.inputs_and_output[..self.inputs_and_output.len() - 1] 484 ( 0.00%) } . 163 ( 0.00%) pub fn output(&self) -> Ty<'tcx> { 1,423 ( 0.00%) self.inputs_and_output[self.inputs_and_output.len() - 1] 326 ( 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>]> { 43 ( 0.00%) self.map_bound_ref_unchecked(|fn_sig| fn_sig.inputs()) . } . #[inline] . pub fn input(&self, index: usize) -> ty::Binder<'tcx, Ty<'tcx>> { 28 ( 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) 8 ( 0.00%) } . #[inline] . pub fn output(&self) -> ty::Binder<'tcx, Ty<'tcx>> { 43 ( 0.00%) self.map_bound_ref(|fn_sig| fn_sig.output()) . } . pub fn c_variadic(&self) -> bool { 16 ( 0.00%) self.skip_binder().c_variadic 8 ( 0.00%) } . pub fn unsafety(&self) -> hir::Unsafety { 40 ( 0.00%) self.skip_binder().unsafety 20 ( 0.00%) } . pub fn abi(&self) -> abi::Abi { 72 ( 0.00%) self.skip_binder().abi 18 ( 0.00%) } . } . . pub type CanonicalPolyFnSig<'tcx> = Canonical<'tcx, Binder<'tcx, FnSig<'tcx>>>; . 16 ( 0.00%) #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] . #[derive(HashStable)] . pub struct ParamTy { 18 ( 0.00%) pub index: u32, . pub name: Symbol, . } . . impl<'tcx> ParamTy { 282 ( 0.00%) pub fn new(index: u32, name: Symbol) -> ParamTy { . ParamTy { index, name } 141 ( 0.00%) } . . pub fn for_def(def: &ty::GenericParamDef) -> ParamTy { 274 ( 0.00%) ParamTy::new(def.index, def.name) 137 ( 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)] . #[derive(HashStable)] . pub struct ParamConst { 58 ( 0.00%) pub index: u32, 58 ( 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 33,788 ( 0.01%) #[derive(Clone, PartialEq, Eq, Hash, Copy, TyEncodable, TyDecodable, PartialOrd, Ord)] 14 ( 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. 600 ( 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, . } . 2,556 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Hash, TyEncodable, TyDecodable, Debug, PartialOrd, Ord)] . pub struct EarlyBoundRegion { . pub def_id: DefId, 910 ( 0.00%) pub index: u32, 742 ( 0.00%) pub name: Symbol, . } . . /// A **`const`** **v**ariable **ID**. . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, TyEncodable, TyDecodable)] . pub struct ConstVid<'tcx> { 1,298 ( 0.00%) pub index: u32, 1,280 ( 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, 29 ( 0.00%) pub kind: BoundTyKind, . } . 502 ( 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 { -- line 1532 ---------------------------------------- -- line 1616 ---------------------------------------- . RegionKind::RePlaceholder(placeholder) => placeholder.name.is_named(), . RegionKind::ReEmpty(_) => false, . RegionKind::ReErased => false, . } . } . . #[inline] . pub fn is_late_bound(&self) -> bool { 22 ( 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 { 388 ( 0.00%) match *self { . ty::ReLateBound(debruijn, _) => debruijn >= index, . _ => false, . } . } . . pub fn type_flags(&self) -> TypeFlags { . let mut flags = TypeFlags::empty(); . 2,164 ( 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 54 ( 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 { 28 ( 0.00%) match self.kind() { 7 ( 0.00%) Tuple(ref tys) => tys.is_empty(), . _ => false, . } . } . . #[inline] . pub fn is_never(&self) -> bool { 920 ( 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 { 1,405 ( 0.00%) matches!(self.kind(), Infer(TyVar(_))) . } . . #[inline] . pub fn ty_vid(&self) -> Option { 2,284 ( 0.00%) match self.kind() { 99 ( 0.00%) &Infer(TyVar(vid)) => Some(vid), . _ => None, . } . } . . #[inline] . pub fn is_ty_infer(&self) -> bool { . matches!(self.kind(), Infer(_)) . } -- line 1763 ---------------------------------------- -- line 1791 ---------------------------------------- . match self.kind() { . RawPtr(TypeAndMut { ty, .. }) | Ref(_, ty, _) => matches!(ty.kind(), Slice(_) | Str), . _ => false, . } . } . . #[inline] . pub fn is_array(&self) -> bool { 1 ( 0.00%) matches!(self.kind(), Array(..)) . } . . #[inline] . pub fn is_simd(&self) -> bool { . match self.kind() { . Adt(def, _) => def.repr.simd(), . _ => false, . } -- line 1807 ---------------------------------------- -- line 1861 ---------------------------------------- . match self.kind() { . Ref(_, _, mutability) => Some(*mutability), . _ => None, . } . } . . #[inline] . pub fn is_unsafe_ptr(&self) -> bool { 16 ( 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 { . self.is_region_ptr() || self.is_unsafe_ptr() || self.is_fn_ptr() . } . . #[inline] . pub fn is_box(&self) -> bool { 682 ( 0.00%) match self.kind() { 115 ( 0.00%) Adt(def, _) => def.is_box(), . _ => false, . } . } . . /// Panics if called on any type other than `Box`. . pub fn boxed_ty(&self) -> Ty<'tcx> { . match self.kind() { . Adt(def, substs) if def.is_box() => substs.type_at(0), -- line 1889 ---------------------------------------- -- line 1922 ---------------------------------------- . . #[inline] . pub fn is_enum(&self) -> bool { . matches!(self.kind(), Adt(adt_def, _) if adt_def.is_enum()) . } . . #[inline] . pub fn is_union(&self) -> bool { 76 ( 0.00%) matches!(self.kind(), Adt(adt_def, _) if adt_def.is_union()) . } . . #[inline] . pub fn is_closure(&self) -> bool { 8 ( 0.00%) matches!(self.kind(), Closure(..)) . } . . #[inline] . pub fn is_generator(&self) -> bool { 12 ( 0.00%) matches!(self.kind(), Generator(..)) . } . . #[inline] . pub fn is_integral(&self) -> bool { 20 ( 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 { 236 ( 0.00%) matches!(self.kind(), Infer(FreshTy(_) | FreshIntTy(_) | FreshFloatTy(_))) . } . . #[inline] . pub fn is_char(&self) -> bool { . matches!(self.kind(), Char) . } . . #[inline] -- line 1963 ---------------------------------------- -- line 1972 ---------------------------------------- . . #[inline] . pub fn is_ptr_sized_integral(&self) -> bool { . matches!(self.kind(), Int(ty::IntTy::Isize) | Uint(ty::UintTy::Usize)) . } . . #[inline] . pub fn has_concrete_skeleton(&self) -> bool { 3 ( 0.00%) !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. 66 ( 0.00%) pub fn builtin_deref(&self, explicit: bool) -> Option> { 356 ( 0.00%) match self.kind() { 4 ( 0.00%) Adt(def, _) if def.is_box() => { . Some(TypeAndMut { ty: self.boxed_ty(), mutbl: hir::Mutability::Not }) . } 214 ( 0.00%) Ref(_, ty, mutbl) => Some(TypeAndMut { ty, mutbl: *mutbl }), . RawPtr(mt) if explicit => Some(*mt), . _ => None, . } 132 ( 0.00%) } . . /// Returns the type of `ty[i]`. . pub fn builtin_index(&self) -> Option> { . match self.kind() { . Array(ty, _) | Slice(ty) => Some(ty), . _ => None, . } . } . 392 ( 0.00%) pub fn fn_sig(&self, tcx: TyCtxt<'tcx>) -> PolyFnSig<'tcx> { 196 ( 0.00%) match self.kind() { 147 ( 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), . } 441 ( 0.00%) } . . #[inline] . pub fn is_fn(&self) -> bool { . matches!(self.kind(), FnDef(..) | FnPtr(_)) . } . . #[inline] . pub fn is_fn_ptr(&self) -> bool { -- line 2027 ---------------------------------------- -- line 2030 ---------------------------------------- . . #[inline] . pub fn is_impl_trait(&self) -> bool { . matches!(self.kind(), Opaque(..)) . } . . #[inline] . pub fn ty_adt_def(&self) -> Option<&'tcx AdtDef> { 521 ( 0.00%) match self.kind() { . Adt(adt, _) => Some(adt), . _ => None, . } . } . . /// Iterates over tuple fields. . /// Panics when called on anything but a tuple. . pub fn tuple_fields(&self) -> impl DoubleEndedIterator> { 18 ( 0.00%) match self.kind() { 9 ( 0.00%) Tuple(substs) => substs.iter().map(|field| field.expect_ty()), . _ => bug!("tuple_fields called on non-tuple"), . } . } . . /// Get the `i`-th element of a tuple. . /// Panics when called on anything but a tuple. . pub fn tuple_element_ty(&self, i: usize) -> Option> { . match self.kind() { -- line 2056 ---------------------------------------- -- line 2095 ---------------------------------------- . TyKind::Generator(def_id, substs, _) => { . Some(substs.as_generator().discriminant_for_variant(*def_id, tcx, variant_index)) . } . _ => None, . } . } . . /// Returns the type of the discriminant of this type. 80 ( 0.00%) pub fn discriminant_ty(&'tcx self, tcx: TyCtxt<'tcx>) -> Ty<'tcx> { 40 ( 0.00%) match self.kind() { 64 ( 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) . } . } 64 ( 0.00%) } . . /// Returns the type of metadata for (potentially fat) pointers to this type. . pub fn ptr_metadata_ty( . &'tcx self, . tcx: TyCtxt<'tcx>, . normalize: impl FnMut(Ty<'tcx>) -> Ty<'tcx>, . ) -> Ty<'tcx> { . let tail = tcx.struct_tail_with_normalize(self, normalize); -- line 2151 ---------------------------------------- -- line 2229 ---------------------------------------- . /// 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`. 2,169 ( 0.00%) pub fn is_trivially_sized(&self, tcx: TyCtxt<'tcx>) -> bool { 1,446 ( 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, . 18 ( 0.00%) ty::Tuple(tys) => tys.iter().all(|ty| ty.expect_ty().is_trivially_sized(tcx)), . 105 ( 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) . } . } 2,169 ( 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. . /// -- line 2280 ---------------------------------------- -- 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. 200 ( 0.00%) pub fn xform(self, other: VarianceDiagInfo<'tcx>) -> VarianceDiagInfo<'tcx> { . // For now, just use the first `VarianceDiagInfo::Invariant` that we see 300 ( 0.00%) match self { . VarianceDiagInfo::None => other, . VarianceDiagInfo::Invariant { .. } => self, . } 100 ( 0.00%) } . } 1,008,689 ( 0.34%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/alloc/src/raw_vec.rs -------------------------------------------------------------------------------- Ir -- line 124 ---------------------------------------- . Self { ptr: Unique::dangling(), cap: 0, alloc } . } . . /// Like `with_capacity`, but parameterized over the choice of . /// allocator for the returned `RawVec`. . #[cfg(not(no_global_oom_handling))] . #[inline] . pub fn with_capacity_in(capacity: usize, alloc: A) -> Self { 10 ( 0.00%) Self::allocate_in(capacity, AllocInit::Uninitialized, alloc) . } . . /// Like `with_capacity_zeroed`, but parameterized over the choice . /// of allocator for the returned `RawVec`. . #[cfg(not(no_global_oom_handling))] . #[inline] . pub fn with_capacity_zeroed_in(capacity: usize, alloc: A) -> Self { . Self::allocate_in(capacity, AllocInit::Zeroed, alloc) -- line 140 ---------------------------------------- -- line 147 ---------------------------------------- . /// . /// # Safety . /// . /// * `len` must be greater than or equal to the most recently requested capacity, and . /// * `len` must be less than or equal to `self.capacity()`. . /// . /// Note, that the requested capacity and `self.capacity()` could differ, as . /// an allocator could overallocate and return a greater memory block than requested. 18 ( 0.00%) pub unsafe fn into_box(self, len: usize) -> Box<[MaybeUninit], A> { . // Sanity-check one half of the safety requirement (we cannot check the other half). . debug_assert!( . len <= self.capacity(), . "`len` must be smaller than or equal to `self.capacity()`" . ); . . let me = ManuallyDrop::new(self); . unsafe { . let slice = slice::from_raw_parts_mut(me.ptr() as *mut MaybeUninit, len); . Box::from_raw_in(slice, ptr::read(&me.alloc)) . } 18 ( 0.00%) } . . #[cfg(not(no_global_oom_handling))] 20 ( 0.00%) fn allocate_in(capacity: usize, init: AllocInit, alloc: A) -> Self { . if mem::size_of::() == 0 { . Self::new_in(alloc) . } else { . // We avoid `unwrap_or_else` here because it bloats the amount of . // LLVM IR generated. . let layout = match Layout::array::(capacity) { . Ok(layout) => layout, . Err(_) => capacity_overflow(), . }; . match alloc_guard(layout.size()) { . Ok(_) => {} . Err(_) => capacity_overflow(), . } 10 ( 0.00%) let result = match init { . AllocInit::Uninitialized => alloc.allocate(layout), . AllocInit::Zeroed => alloc.allocate_zeroed(layout), . }; . let ptr = match result { . Ok(ptr) => ptr, . Err(_) => handle_alloc_error(layout), . }; . -- line 192 ---------------------------------------- -- line 194 ---------------------------------------- . // matches the size requested. If that ever changes, the capacity . // here should change to `ptr.len() / mem::size_of::()`. . Self { . ptr: unsafe { Unique::new_unchecked(ptr.cast().as_ptr()) }, . cap: capacity, . alloc, . } . } 25 ( 0.00%) } . . /// Reconstitutes a `RawVec` from a pointer, capacity, and allocator. . /// . /// # Safety . /// . /// The `ptr` must be allocated (via the given allocator `alloc`), and with the given . /// `capacity`. . /// The `capacity` cannot exceed `isize::MAX` for sized types. (only a concern on 32-bit -- line 210 ---------------------------------------- -- line 233 ---------------------------------------- . } . . /// Returns a shared reference to the allocator backing this `RawVec`. . pub fn allocator(&self) -> &A { . &self.alloc . } . . fn current_memory(&self) -> Option<(NonNull, Layout)> { 718,244 ( 0.24%) if mem::size_of::() == 0 || self.cap == 0 { 51,841 ( 0.02%) None . } else { . // We have an allocated chunk of memory, so we can bypass runtime . // checks to get our current layout. . unsafe { . let align = mem::align_of::(); 212,720 ( 0.07%) let size = mem::size_of::() * self.cap; . let layout = Layout::from_size_align_unchecked(size, align); 47,480 ( 0.02%) Some((self.ptr.cast().into(), layout)) . } . } . } . . /// Ensures that the buffer contains at least enough space to hold `len + . /// additional` elements. If it doesn't already have enough capacity, will . /// reallocate enough space plus comfortable slack space to get amortized . /// *O*(1) behavior. Will limit this behavior if it would needlessly cause -- line 258 ---------------------------------------- -- line 274 ---------------------------------------- . #[cfg(not(no_global_oom_handling))] . #[inline] . pub fn reserve(&mut self, len: usize, additional: usize) { . // Callers expect this function to be very cheap when there is already sufficient capacity. . // Therefore, we move all the resizing and error-handling logic from grow_amortized and . // handle_reserve behind a call, while making sure that this function is likely to be . // inlined as just a comparison and a call if the comparison fails. . #[cold] 85,021 ( 0.03%) fn do_reserve_and_handle( . slf: &mut RawVec, . len: usize, . additional: usize, . ) { 133 ( 0.00%) handle_reserve(slf.grow_amortized(len, additional)); 106,317 ( 0.04%) } . 57,650 ( 0.02%) if self.needs_to_grow(len, additional) { 76,807 ( 0.03%) do_reserve_and_handle(self, len, additional); . } . } . . /// A specialized version of `reserve()` used only by the hot and . /// oft-instantiated `Vec::push()`, which does its own capacity check. . #[cfg(not(no_global_oom_handling))] . #[inline(never)] 166,408 ( 0.06%) pub fn reserve_for_push(&mut self, len: usize) { . handle_reserve(self.grow_amortized(len, 1)); 206,971 ( 0.07%) } . . /// The same as `reserve`, but returns on errors instead of panicking or aborting. . pub fn try_reserve(&mut self, len: usize, additional: usize) -> Result<(), TryReserveError> { . if self.needs_to_grow(len, additional) { . self.grow_amortized(len, additional) . } else { . Ok(()) . } -- line 309 ---------------------------------------- -- line 322 ---------------------------------------- . /// # Panics . /// . /// Panics if the new capacity exceeds `isize::MAX` bytes. . /// . /// # Aborts . /// . /// Aborts on OOM. . #[cfg(not(no_global_oom_handling))] 4,230 ( 0.00%) pub fn reserve_exact(&mut self, len: usize, additional: usize) { . handle_reserve(self.try_reserve_exact(len, additional)); 4,230 ( 0.00%) } . . /// The same as `reserve_exact`, but returns on errors instead of panicking or aborting. . pub fn try_reserve_exact( . &mut self, . len: usize, . additional: usize, . ) -> Result<(), TryReserveError> { 1,824 ( 0.00%) if self.needs_to_grow(len, additional) { self.grow_exact(len, additional) } else { Ok(()) } . } . . /// Shrinks the buffer down to the specified capacity. If the given amount . /// is 0, actually completely deallocates. . /// . /// # Panics . /// . /// Panics if the given amount is *larger* than the current capacity. . /// . /// # Aborts . /// . /// Aborts on OOM. . #[cfg(not(no_global_oom_handling))] 2,040 ( 0.00%) pub fn shrink_to_fit(&mut self, cap: usize) { . handle_reserve(self.shrink(cap)); 2,448 ( 0.00%) } . } . . impl RawVec { . /// Returns if the buffer needs to grow to fulfill the needed extra capacity. . /// Mainly used to make inlining reserve-calls possible without inlining `grow`. . fn needs_to_grow(&self, len: usize, additional: usize) -> bool { 115,152 ( 0.04%) additional > self.capacity().wrapping_sub(len) . } . . fn set_ptr_and_cap(&mut self, ptr: NonNull<[u8]>, cap: usize) { . // Allocators currently return a `NonNull<[u8]>` whose length matches . // the size requested. If that ever changes, the capacity here should . // change to `ptr.len() / mem::size_of::()`. 64,284 ( 0.02%) self.ptr = unsafe { Unique::new_unchecked(ptr.cast().as_ptr()) }; 64,312 ( 0.02%) self.cap = cap; . } . . // This method is usually instantiated many times. So we want it to be as . // small as possible, to improve compile times. But we also want as much of . // its contents to be statically computable as possible, to make the . // generated code run faster. Therefore, this method is carefully written . // so that all of the code that depends on `T` is within it, while as much . // of the code that doesn't depend on `T` as possible is in functions that . // are non-generic over `T`. 168 ( 0.00%) fn grow_amortized(&mut self, len: usize, additional: usize) -> Result<(), TryReserveError> { . // This is ensured by the calling contexts. . debug_assert!(additional > 0); . . if mem::size_of::() == 0 { . // Since we return a capacity of `usize::MAX` when `elem_size` is . // 0, getting to here necessarily means the `RawVec` is overfull. . return Err(CapacityOverflow.into()); . } . . // Nothing we can really do about these checks, sadly. . let required_cap = len.checked_add(additional).ok_or(CapacityOverflow)?; . . // This guarantees exponential growth. The doubling cannot overflow . // because `cap <= isize::MAX` and the type of `cap` is `usize`. 252,748 ( 0.08%) let cap = cmp::max(self.cap * 2, required_cap); . let cap = cmp::max(Self::MIN_NON_ZERO_CAP, cap); . . let new_layout = Layout::array::(cap); . . // `finish_grow` is non-generic over `T`. 190,272 ( 0.06%) let ptr = finish_grow(new_layout, self.current_memory(), &mut self.alloc)?; . self.set_ptr_and_cap(ptr, cap); . Ok(()) 168 ( 0.00%) } . . // The constraints on this method are much the same as those on . // `grow_amortized`, but this method is usually instantiated less often so . // it's less critical. . fn grow_exact(&mut self, len: usize, additional: usize) -> Result<(), TryReserveError> { . if mem::size_of::() == 0 { . // Since we return a capacity of `usize::MAX` when the type size is . // 0, getting to here necessarily means the `RawVec` is overfull. . return Err(CapacityOverflow.into()); . } . . let cap = len.checked_add(additional).ok_or(CapacityOverflow)?; . let new_layout = Layout::array::(cap); . . // `finish_grow` is non-generic over `T`. 2,056 ( 0.00%) let ptr = finish_grow(new_layout, self.current_memory(), &mut self.alloc)?; . self.set_ptr_and_cap(ptr, cap); . Ok(()) . } . . fn shrink(&mut self, cap: usize) -> Result<(), TryReserveError> { 1,224 ( 0.00%) assert!(cap <= self.capacity(), "Tried to shrink to a larger capacity"); . . let (ptr, layout) = if let Some(mem) = self.current_memory() { mem } else { return Ok(()) }; 1,224 ( 0.00%) let new_size = cap * mem::size_of::(); . . let ptr = unsafe { . let new_layout = Layout::from_size_align_unchecked(new_size, layout.align()); . self.alloc . .shrink(ptr, layout, new_layout) . .map_err(|_| AllocError { layout: new_layout, non_exhaustive: () })? . }; . self.set_ptr_and_cap(ptr, cap); -- line 438 ---------------------------------------- -- line 440 ---------------------------------------- . } . } . . // This function is outside `RawVec` to minimize compile times. See the comment . // above `RawVec::grow_amortized` for details. (The `A` parameter isn't . // significant, because the number of different `A` types seen in practice is . // much smaller than the number of `T` types.) . #[inline(never)] 319,360 ( 0.11%) fn finish_grow( . new_layout: Result, . current_memory: Option<(NonNull, Layout)>, . alloc: &mut A, . ) -> Result, TryReserveError> . where . A: Allocator, . { . // Check for the error here to minimize the size of `RawVec::grow_*`. . let new_layout = new_layout.map_err(|_| CapacityOverflow)?; . . alloc_guard(new_layout.size())?; . 203,325 ( 0.07%) let memory = if let Some((ptr, old_layout)) = current_memory { . debug_assert_eq!(old_layout.align(), new_layout.align()); . unsafe { . // The allocator checks for alignment equality . intrinsics::assume(old_layout.align() == new_layout.align()); . alloc.grow(ptr, old_layout, new_layout) . } . } else { . alloc.allocate(new_layout) . }; . . memory.map_err(|_| AllocError { layout: new_layout, non_exhaustive: () }.into()) 255,488 ( 0.08%) } . . unsafe impl<#[may_dangle] T, A: Allocator> Drop for RawVec { . /// Frees the memory owned by the `RawVec` *without* trying to drop its contents. 477 ( 0.00%) fn drop(&mut self) { 252,009 ( 0.08%) if let Some((ptr, layout)) = self.current_memory() { . unsafe { self.alloc.deallocate(ptr, layout) } . } 612 ( 0.00%) } . } . . // Central function for reserve error handling. . #[cfg(not(no_global_oom_handling))] . #[inline] . fn handle_reserve(result: Result<(), TryReserveError>) { . match result.map_err(|e| e.kind()) { . Err(CapacityOverflow) => capacity_overflow(), -- line 489 ---------------------------------------- 1,023,889 ( 0.34%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_metadata/src/rmeta/decoder.rs -------------------------------------------------------------------------------- Ir -- line 176 ---------------------------------------- . } . fn sess(self) -> Option<&'tcx Session> { . None . } . fn tcx(self) -> Option> { . None . } . 1,896 ( 0.00%) fn decoder(self, pos: usize) -> DecodeContext<'a, 'tcx> { 632 ( 0.00%) let tcx = self.tcx(); 241,097 ( 0.08%) DecodeContext { 25,181 ( 0.01%) opaque: opaque::Decoder::new(self.blob(), pos), 632 ( 0.00%) cdata: self.cdata(), . blob: self.blob(), 3,776 ( 0.00%) sess: self.sess().or(tcx.map(|tcx| tcx.sess)), . tcx, . last_source_file_index: 0, . lazy_state: LazyState::NoNode, . alloc_decoding_session: self . .cdata() 19,915 ( 0.01%) .map(|cdata| cdata.cdata.alloc_decoding_state.new_decoding_session()), . } 1,896 ( 0.00%) } . } . . impl<'a, 'tcx> Metadata<'a, 'tcx> for &'a MetadataBlob { . #[inline] . fn blob(self) -> &'a MetadataBlob { . self . } . } -- line 206 ---------------------------------------- -- line 255 ---------------------------------------- . } . #[inline] . fn tcx(self) -> Option> { . Some(self.1) . } . } . . impl<'a, 'tcx, T: Decodable>> Lazy { 15,921 ( 0.01%) fn decode>(self, metadata: M) -> T { 8,223 ( 0.00%) let mut dcx = metadata.decoder(self.position.get()); 71,512 ( 0.02%) dcx.lazy_state = LazyState::NodeStart(self.position); 39,876 ( 0.01%) T::decode(&mut dcx) 20,388 ( 0.01%) } . } . . impl<'a: 'x, 'tcx: 'x, 'x, T: Decodable>> Lazy<[T]> { . fn decode>( . self, . metadata: M, . ) -> impl ExactSizeIterator + Captures<'a> + Captures<'tcx> + 'x { 14 ( 0.00%) let mut dcx = metadata.decoder(self.position.get()); 4 ( 0.00%) dcx.lazy_state = LazyState::NodeStart(self.position); 5,375 ( 0.00%) (0..self.meta).map(move |_| T::decode(&mut dcx)) . } . } . . impl<'a, 'tcx> DecodeContext<'a, 'tcx> { . #[inline] . fn tcx(&self) -> TyCtxt<'tcx> { . debug_assert!(self.tcx.is_some(), "missing TyCtxt in DecodeContext"); . self.tcx.unwrap() -- line 285 ---------------------------------------- -- line 292 ---------------------------------------- . . #[inline] . pub fn cdata(&self) -> CrateMetadataRef<'a> { . debug_assert!(self.cdata.is_some(), "missing CrateMetadata in DecodeContext"); . self.cdata.unwrap() . } . . fn map_encoded_cnum_to_current(&self, cnum: CrateNum) -> CrateNum { 54,991 ( 0.02%) if cnum == LOCAL_CRATE { self.cdata().cnum } else { self.cdata().cnum_map[cnum] } . } . 12,952 ( 0.00%) fn read_lazy_with_meta(&mut self, meta: T::Meta) -> Lazy { . let distance = self.read_usize(); 12,066 ( 0.00%) let position = match self.lazy_state { . LazyState::NoNode => bug!("read_lazy_with_meta: outside of a metadata node"), 2,527 ( 0.00%) LazyState::NodeStart(start) => { . let start = start.get(); 5,054 ( 0.00%) assert!(distance <= start); . start - distance . } 2,691 ( 0.00%) LazyState::Previous(last_pos) => last_pos.get() + distance, . }; 6,848 ( 0.00%) self.lazy_state = LazyState::Previous(NonZeroUsize::new(position).unwrap()); . Lazy::from_position_and_meta(NonZeroUsize::new(position).unwrap(), meta) 12,952 ( 0.00%) } . . #[inline] . pub fn read_raw_bytes(&mut self, len: usize) -> &'a [u8] { . self.opaque.read_raw_bytes(len) . } . } . . impl<'a, 'tcx> TyDecoder<'tcx> for DecodeContext<'a, 'tcx> { -- line 324 ---------------------------------------- -- line 326 ---------------------------------------- . . #[inline] . fn tcx(&self) -> TyCtxt<'tcx> { . self.tcx.expect("missing TyCtxt in DecodeContext") . } . . #[inline] . fn peek_byte(&self) -> u8 { 22,475 ( 0.01%) self.opaque.data[self.opaque.position()] . } . . #[inline] . fn position(&self) -> usize { . self.opaque.position() . } . 20,986 ( 0.01%) fn cached_ty_for_shorthand(&mut self, shorthand: usize, or_insert_with: F) -> Ty<'tcx> . where . F: FnOnce(&mut Self) -> Ty<'tcx>, . { 2,998 ( 0.00%) let tcx = self.tcx(); . 2,998 ( 0.00%) let key = ty::CReaderCacheKey { cnum: Some(self.cdata().cnum), pos: shorthand }; . 8,484 ( 0.00%) if let Some(&ty) = tcx.ty_rcache.borrow().get(&key) { . return ty; . } . 877 ( 0.00%) let ty = or_insert_with(self); . tcx.ty_rcache.borrow_mut().insert(key, ty); . ty 26,982 ( 0.01%) } . . fn with_position(&mut self, pos: usize, f: F) -> R . where . F: FnOnce(&mut Self) -> R, . { . let new_opaque = opaque::Decoder::new(self.opaque.data, pos); . let old_opaque = mem::replace(&mut self.opaque, new_opaque); . let old_state = mem::replace(&mut self.lazy_state, LazyState::NoNode); . let r = f(self); 4,590 ( 0.00%) self.opaque = old_opaque; 918 ( 0.00%) self.lazy_state = old_state; . r . } . . fn decode_alloc_id(&mut self) -> rustc_middle::mir::interpret::AllocId { . if let Some(alloc_decoding_session) = self.alloc_decoding_session { . alloc_decoding_session.decode_alloc_id(self) . } else { . bug!("Attempting to decode interpret::AllocId without CrateMetadata") . } . } . } . . impl<'a, 'tcx> Decodable> for CrateNum { . fn decode(d: &mut DecodeContext<'a, 'tcx>) -> CrateNum { 32,811 ( 0.01%) let cnum = CrateNum::from_u32(d.read_u32()); . d.map_encoded_cnum_to_current(cnum) . } . } . . impl<'a, 'tcx> Decodable> for DefIndex { 204 ( 0.00%) fn decode(d: &mut DecodeContext<'a, 'tcx>) -> DefIndex { 70,956 ( 0.02%) DefIndex::from_u32(d.read_u32()) 408 ( 0.00%) } . } . . impl<'a, 'tcx> Decodable> for ExpnIndex { . fn decode(d: &mut DecodeContext<'a, 'tcx>) -> ExpnIndex { . ExpnIndex::from_u32(d.read_u32()) . } . } . . impl<'a, 'tcx> Decodable> for SyntaxContext { 87,480 ( 0.03%) fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> SyntaxContext { 21,870 ( 0.01%) let cdata = decoder.cdata(); 21,870 ( 0.01%) let sess = decoder.sess.unwrap(); 43,740 ( 0.01%) let cname = cdata.root.name; . rustc_span::hygiene::decode_syntax_context(decoder, &cdata.hygiene_context, |_, id| { . debug!("SpecializedDecoder: decoding {}", id); 1,040 ( 0.00%) cdata . .root . .syntax_contexts . .get(cdata, id) . .unwrap_or_else(|| panic!("Missing SyntaxContext {:?} for crate {:?}", id, cname)) . .decode((cdata, sess)) . }) 109,350 ( 0.04%) } . } . . impl<'a, 'tcx> Decodable> for ExpnId { 5,586 ( 0.00%) fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> ExpnId { 798 ( 0.00%) let local_cdata = decoder.cdata(); 798 ( 0.00%) let sess = decoder.sess.unwrap(); . . let cnum = CrateNum::decode(decoder); . let index = u32::decode(decoder); . . let expn_id = rustc_span::hygiene::decode_expn_id(cnum, index, |expn_id| { . let ExpnId { krate: cnum, local_id: index } = expn_id; . // Lookup local `ExpnData`s in our own crate data. Foreign `ExpnData`s . // are stored in the owning crate, to avoid duplication. . debug_assert_ne!(cnum, LOCAL_CRATE); 271 ( 0.00%) let crate_data = if cnum == local_cdata.cnum { . local_cdata . } else { . local_cdata.cstore.get_crate_data(cnum) . }; 1,355 ( 0.00%) let expn_data = crate_data . .root . .expn_data . .get(crate_data, index) . .unwrap() . .decode((crate_data, sess)); 1,355 ( 0.00%) let expn_hash = crate_data . .root . .expn_hashes . .get(crate_data, index) . .unwrap() . .decode((crate_data, sess)); 2,710 ( 0.00%) (expn_data, expn_hash) . }); . expn_id 6,384 ( 0.00%) } . } . . impl<'a, 'tcx> Decodable> for Span { 168,720 ( 0.06%) fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> Span { 21,090 ( 0.01%) let ctxt = SyntaxContext::decode(decoder); . let tag = u8::decode(decoder); . 42,180 ( 0.01%) if tag == TAG_PARTIAL_SPAN { . return DUMMY_SP.with_ctxt(ctxt); . } . . debug_assert!(tag == TAG_VALID_SPAN_LOCAL || tag == TAG_VALID_SPAN_FOREIGN); . . let lo = BytePos::decode(decoder); . let len = BytePos::decode(decoder); . let hi = lo + len; . 63,249 ( 0.02%) let Some(sess) = decoder.sess else { . bug!("Cannot decode Span without Session.") . }; . . // There are two possibilities here: . // 1. This is a 'local span', which is located inside a `SourceFile` . // that came from this crate. In this case, we use the source map data . // encoded in this crate. This branch should be taken nearly all of the time. . // 2. This is a 'foreign span', which is located inside a `SourceFile` -- line 476 ---------------------------------------- -- line 492 ---------------------------------------- . // a transitive dependency. . // . // When we encode a foreign span, we adjust its 'lo' and 'high' values . // to be based on the *foreign* crate (e.g. crate C), not the crate . // we are writing metadata for (e.g. crate B). This allows us to . // treat the 'local' and 'foreign' cases almost identically during deserialization: . // we can call `imported_source_files` for the proper crate, and binary search . // through the returned slice using our span. 57,994 ( 0.02%) let imported_source_files = if tag == TAG_VALID_SPAN_LOCAL { . decoder.cdata().imported_source_files(sess) . } else { . // When we encode a proc-macro crate, all `Span`s should be encoded . // with `TAG_VALID_SPAN_LOCAL` 5 ( 0.00%) if decoder.cdata().root.is_proc_macro_crate() { . // Decode `CrateNum` as u32 - using `CrateNum::decode` will ICE . // since we don't have `cnum_map` populated. . let cnum = u32::decode(decoder); . panic!( . "Decoding of crate {:?} tried to access proc-macro dep {:?}", . decoder.cdata().root.name, . cnum . ); -- line 513 ---------------------------------------- -- line 518 ---------------------------------------- . "SpecializedDecoder::specialized_decode: loading source files from cnum {:?}", . cnum . ); . . // Decoding 'foreign' spans should be rare enough that it's . // not worth it to maintain a per-CrateNum cache for `last_source_file_index`. . // We just set it to 0, to ensure that we don't try to access something out . // of bounds for our initial 'guess' 10 ( 0.00%) decoder.last_source_file_index = 0; . 5 ( 0.00%) let foreign_data = decoder.cdata().cstore.get_crate_data(cnum); . foreign_data.imported_source_files(sess) . }; . . let source_file = { . // Optimize for the case that most spans within a translated item . // originate from the same source_file. 63,249 ( 0.02%) let last_source_file = &imported_source_files[decoder.last_source_file_index]; . 78,877 ( 0.03%) if lo >= last_source_file.original_start_pos && lo <= last_source_file.original_end_pos . { . last_source_file . } else { . let index = imported_source_files . .binary_search_by_key(&lo, |source_file| source_file.original_start_pos) 31,656 ( 0.01%) .unwrap_or_else(|index| index - 1); . . // Don't try to cache the index for foreign spans, . // as this would require a map from CrateNums to indices 15,828 ( 0.01%) if tag == TAG_VALID_SPAN_LOCAL { 15,823 ( 0.01%) decoder.last_source_file_index = index; . } 31,656 ( 0.01%) &imported_source_files[index] . } . }; . . // Make sure our binary search above is correct. . debug_assert!( . lo >= source_file.original_start_pos && lo <= source_file.original_end_pos, . "Bad binary search: lo={:?} source_file.original_start_pos={:?} source_file.original_end_pos={:?}", . lo, -- line 558 ---------------------------------------- -- line 565 ---------------------------------------- . hi >= source_file.original_start_pos && hi <= source_file.original_end_pos, . "Bad binary search: hi={:?} source_file.original_start_pos={:?} source_file.original_end_pos={:?}", . hi, . source_file.original_start_pos, . source_file.original_end_pos . ); . . let lo = 84,332 ( 0.03%) (lo + source_file.translated_source_file.start_pos) - source_file.original_start_pos; . let hi = . (hi + source_file.translated_source_file.start_pos) - source_file.original_start_pos; . . // Do not try to decode parent for foreign spans. . Span::new(lo, hi, ctxt, None) 189,810 ( 0.06%) } . } . . impl<'a, 'tcx> Decodable> for &'tcx [thir::abstract_const::Node<'tcx>] { . fn decode(d: &mut DecodeContext<'a, 'tcx>) -> Self { . ty::codec::RefDecodable::decode(d) . } . } . -- line 587 ---------------------------------------- -- line 590 ---------------------------------------- . ty::codec::RefDecodable::decode(d) . } . } . . impl<'a, 'tcx, T: Decodable>> Decodable> . for Lazy . { . fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> Self { 4,434 ( 0.00%) decoder.read_lazy_with_meta(()) . } . } . . impl<'a, 'tcx, T: Decodable>> Decodable> . for Lazy<[T]> . { . fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> Self { . let len = decoder.read_usize(); 6,279 ( 0.00%) if len == 0 { Lazy::empty() } else { decoder.read_lazy_with_meta(len) } . } . } . . impl<'a, 'tcx, I: Idx, T: Decodable>> Decodable> . for Lazy> . where . Option: FixedSizeEncoding, . { . fn decode(decoder: &mut DecodeContext<'a, 'tcx>) -> Self { . let len = decoder.read_usize(); 2,535 ( 0.00%) decoder.read_lazy_with_meta(len) . } . } . . implement_ty_decoder!(DecodeContext<'a, 'tcx>); . . impl<'tcx> MetadataBlob { . crate fn new(metadata_ref: MetadataRef) -> MetadataBlob { . MetadataBlob(Lrc::new(metadata_ref)) -- line 626 ---------------------------------------- -- line 630 ---------------------------------------- . self.blob().starts_with(METADATA_HEADER) . } . . crate fn get_rustc_version(&self) -> String { . Lazy::::from_position(NonZeroUsize::new(METADATA_HEADER.len() + 4).unwrap()) . .decode(self) . } . 45 ( 0.00%) crate fn get_root(&self) -> CrateRoot<'tcx> { 15 ( 0.00%) let slice = &self.blob()[..]; . let offset = METADATA_HEADER.len(); 75 ( 0.00%) let pos = (((slice[offset + 0] as u32) << 24) 30 ( 0.00%) | ((slice[offset + 1] as u32) << 16) 60 ( 0.00%) | ((slice[offset + 2] as u32) << 8) 45 ( 0.00%) | ((slice[offset + 3] as u32) << 0)) as usize; . Lazy::>::from_position(NonZeroUsize::new(pos).unwrap()).decode(self) 75 ( 0.00%) } . . crate fn list_crate_metadata(&self, out: &mut dyn io::Write) -> io::Result<()> { . let root = self.get_root(); . writeln!(out, "Crate info:")?; . writeln!(out, "name {}{}", root.name, root.extra_filename)?; . writeln!(out, "hash {} stable_crate_id {:?}", root.hash, root.stable_crate_id)?; . writeln!(out, "proc_macro {:?}", root.proc_macro_data.is_some())?; . writeln!(out, "=External Dependencies=")?; -- line 654 ---------------------------------------- -- line 666 ---------------------------------------- . } . write!(out, "\n")?; . Ok(()) . } . } . . impl CrateRoot<'_> { . crate fn is_proc_macro_crate(&self) -> bool { 10 ( 0.00%) self.proc_macro_data.is_some() . } . . crate fn name(&self) -> Symbol { 8 ( 0.00%) self.name . } . . crate fn hash(&self) -> Svh { 5 ( 0.00%) self.hash . } . . crate fn stable_crate_id(&self) -> StableCrateId { 10 ( 0.00%) self.stable_crate_id . } . . crate fn triple(&self) -> &TargetTriple { . &self.triple . } . . crate fn decode_crate_deps<'a>( . &self, . metadata: &'a MetadataBlob, . ) -> impl ExactSizeIterator + Captures<'a> { 10 ( 0.00%) self.crate_deps.decode(metadata) . } . } . . impl<'a, 'tcx> CrateMetadataRef<'a> { . fn raw_proc_macro(self, id: DefIndex) -> &'a ProcMacro { . // DefIndex's in root.proc_macro_data have a one-to-one correspondence . // with items in 'raw_proc_macros'. . let pos = self -- line 705 ---------------------------------------- -- line 709 ---------------------------------------- . .unwrap() . .macros . .decode(self) . .position(|i| i == id) . .unwrap(); . &self.raw_proc_macros.unwrap()[pos] . } . 75,438 ( 0.03%) fn opt_item_ident(self, item_index: DefIndex, sess: &Session) -> Option { 54,954 ( 0.02%) let name = self.def_key(item_index).disambiguated_data.data.get_opt_name()?; 17,493 ( 0.01%) let span = match self.root.tables.ident_span.get(self, item_index) { . Some(lazy_span) => lazy_span.decode((self, sess)), . None => { . // FIXME: this weird case of a name with no span is specific to `extern crate` . // items, which are supposed to be treated like `use` items and only be encoded . // to metadata as `Export`s, return `None` because that's what all the callers . // expect in this case. 126 ( 0.00%) assert_eq!(self.def_kind(item_index), DefKind::ExternCrate); . return None; . } . }; . Some(Ident::new(name, span)) 96,048 ( 0.03%) } . 164 ( 0.00%) fn item_ident(self, item_index: DefIndex, sess: &Session) -> Ident { 940 ( 0.00%) self.opt_item_ident(item_index, sess).expect("no encoded ident for item") 328 ( 0.00%) } . . fn maybe_kind(self, item_id: DefIndex) -> Option { 5,072 ( 0.00%) self.root.tables.kind.get(self, item_id).map(|k| k.decode(self)) . } . 20,288 ( 0.01%) fn kind(self, item_id: DefIndex) -> EntryKind { . self.maybe_kind(item_id).unwrap_or_else(|| { . bug!( . "CrateMetadata::kind({:?}): id not found, in crate {:?} with number {}", . item_id, . self.root.name, . self.cnum, . ) . }) 15,216 ( 0.01%) } . 17,171 ( 0.01%) fn def_kind(self, item_id: DefIndex) -> DefKind { 10,197 ( 0.00%) self.root.tables.def_kind.get(self, item_id).map(|k| k.decode(self)).unwrap_or_else(|| { . bug!( . "CrateMetadata::def_kind({:?}): id not found, in crate {:?} with number {}", . item_id, . self.root.name, . self.cnum, . ) . }) 9,812 ( 0.00%) } . 1,476 ( 0.00%) fn get_span(self, index: DefIndex, sess: &Session) -> Span { 9,600 ( 0.00%) self.root . .tables . .span . .get(self, index) . .unwrap_or_else(|| panic!("Missing span for {:?}", index)) . .decode((self, sess)) 820 ( 0.00%) } . . fn load_proc_macro(self, id: DefIndex, sess: &Session) -> SyntaxExtension { . let (name, kind, helper_attrs) = match *self.raw_proc_macro(id) { . ProcMacro::CustomDerive { trait_name, attributes, client } => { . let helper_attrs = . attributes.iter().cloned().map(Symbol::intern).collect::>(); . ( . trait_name, -- line 778 ---------------------------------------- -- line 795 ---------------------------------------- . self.get_span(id, sess), . helper_attrs, . self.root.edition, . Symbol::intern(name), . &attrs, . ) . } . 195 ( 0.00%) fn get_trait_def(self, item_id: DefIndex, sess: &Session) -> ty::TraitDef { 60 ( 0.00%) match self.kind(item_id) { 15 ( 0.00%) EntryKind::Trait(data) => { 90 ( 0.00%) let data = data.decode((self, sess)); 240 ( 0.00%) ty::TraitDef::new( . self.local_def_id(item_id), 30 ( 0.00%) data.unsafety, 30 ( 0.00%) data.paren_sugar, 30 ( 0.00%) data.has_auto_impl, 30 ( 0.00%) data.is_marker, 15 ( 0.00%) data.skip_array_during_method_dispatch, 15 ( 0.00%) data.specialization_kind, 60 ( 0.00%) self.def_path_hash(item_id), 15 ( 0.00%) data.must_implement_one_of, . ) . } . EntryKind::TraitAlias => ty::TraitDef::new( . self.local_def_id(item_id), . hir::Unsafety::Normal, . false, . false, . false, . false, . ty::trait_def::TraitSpecializationKind::None, . self.def_path_hash(item_id), . None, . ), . _ => bug!("def-index does not refer to trait or trait alias"), . } 135 ( 0.00%) } . 99 ( 0.00%) fn get_variant( . self, . kind: &EntryKind, . index: DefIndex, . parent_did: DefId, . sess: &Session, . ) -> ty::VariantDef { 44 ( 0.00%) let data = match kind { . EntryKind::Variant(data) | EntryKind::Struct(data, _) | EntryKind::Union(data, _) => { 55 ( 0.00%) data.decode(self) . } . _ => bug!(), . }; . 36 ( 0.00%) let adt_kind = match kind { . EntryKind::Variant(_) => ty::AdtKind::Enum, . EntryKind::Struct(..) => ty::AdtKind::Struct, . EntryKind::Union(..) => ty::AdtKind::Union, . _ => bug!(), . }; . . let variant_did = . if adt_kind == ty::AdtKind::Enum { Some(self.local_def_id(index)) } else { None }; 22 ( 0.00%) let ctor_did = data.ctor.map(|index| self.local_def_id(index)); . 242 ( 0.00%) ty::VariantDef::new( . self.item_ident(index, sess).name, . variant_did, . ctor_did, 44 ( 0.00%) data.discr, 66 ( 0.00%) self.root . .tables . .children . .get(self, index) . .unwrap_or_else(Lazy::empty) . .decode(self) . .map(|index| ty::FieldDef { 12 ( 0.00%) did: self.local_def_id(index), 24 ( 0.00%) name: self.item_ident(index, sess).name, 24 ( 0.00%) vis: self.get_visibility(index), . }) . .collect(), . data.ctor_kind, . adt_kind, . parent_did, . false, 11 ( 0.00%) data.is_non_exhaustive, . ) 99 ( 0.00%) } . 150 ( 0.00%) fn get_adt_def(self, item_id: DefIndex, tcx: TyCtxt<'tcx>) -> &'tcx ty::AdtDef { 40 ( 0.00%) let kind = self.kind(item_id); 20 ( 0.00%) let did = self.local_def_id(item_id); . 44 ( 0.00%) let (adt_kind, repr) = match kind { . EntryKind::Enum(repr) => (ty::AdtKind::Enum, repr), . EntryKind::Struct(_, repr) => (ty::AdtKind::Struct, repr), . EntryKind::Union(_, repr) => (ty::AdtKind::Union, repr), . _ => bug!("get_adt_def called on a non-ADT {:?}", did), . }; . . let variants = if let ty::AdtKind::Enum = adt_kind { 15 ( 0.00%) self.root . .tables . .children . .get(self, item_id) . .unwrap_or_else(Lazy::empty) . .decode(self) 68 ( 0.00%) .map(|index| self.get_variant(&self.kind(index), index, did, tcx.sess)) . .collect() . } else { 56 ( 0.00%) std::iter::once(self.get_variant(&kind, item_id, did, tcx.sess)).collect() . }; . 155 ( 0.00%) tcx.alloc_adt_def(did, adt_kind, variants, repr) 70 ( 0.00%) } . . fn get_explicit_predicates( . self, . item_id: DefIndex, . tcx: TyCtxt<'tcx>, . ) -> ty::GenericPredicates<'tcx> { 310 ( 0.00%) self.root.tables.explicit_predicates.get(self, item_id).unwrap().decode((self, tcx)) . } . . fn get_inferred_outlives( . self, . item_id: DefIndex, . tcx: TyCtxt<'tcx>, . ) -> &'tcx [(ty::Predicate<'tcx>, Span)] { 310 ( 0.00%) self.root . .tables . .inferred_outlives . .get(self, item_id) 4 ( 0.00%) .map(|predicates| tcx.arena.alloc_from_iter(predicates.decode((self, tcx)))) . .unwrap_or_default() . } . . fn get_super_predicates( . self, . item_id: DefIndex, . tcx: TyCtxt<'tcx>, . ) -> ty::GenericPredicates<'tcx> { 45 ( 0.00%) self.root.tables.super_predicates.get(self, item_id).unwrap().decode((self, tcx)) . } . . fn get_explicit_item_bounds( . self, . item_id: DefIndex, . tcx: TyCtxt<'tcx>, . ) -> &'tcx [(ty::Predicate<'tcx>, Span)] { 5 ( 0.00%) self.root . .tables . .explicit_item_bounds . .get(self, item_id) 4 ( 0.00%) .map(|bounds| tcx.arena.alloc_from_iter(bounds.decode((self, tcx)))) . .unwrap_or_default() . } . . fn get_generics(self, item_id: DefIndex, sess: &Session) -> ty::Generics { 1,222 ( 0.00%) self.root.tables.generics.get(self, item_id).unwrap().decode((self, sess)) . } . . fn get_type(self, id: DefIndex, tcx: TyCtxt<'tcx>) -> Ty<'tcx> { 2,735 ( 0.00%) self.root . .tables . .ty . .get(self, id) . .unwrap_or_else(|| panic!("Not a type: {:?}", id)) . .decode((self, tcx)) . } . . fn get_stability(self, id: DefIndex) -> Option { 160 ( 0.00%) self.root.tables.stability.get(self, id).map(|stab| stab.decode(self)) . } . . fn get_const_stability(self, id: DefIndex) -> Option { 5 ( 0.00%) self.root.tables.const_stability.get(self, id).map(|stab| stab.decode(self)) . } . . fn get_deprecation(self, id: DefIndex) -> Option { 145 ( 0.00%) self.root.tables.deprecation.get(self, id).map(|depr| depr.decode(self)) . } . 240 ( 0.00%) fn get_visibility(self, id: DefIndex) -> ty::Visibility { 9,358 ( 0.00%) self.root.tables.visibility.get(self, id).unwrap().decode(self) 160 ( 0.00%) } . . fn get_impl_data(self, id: DefIndex) -> ImplData { 7,590 ( 0.00%) match self.kind(id) { 6,325 ( 0.00%) EntryKind::Impl(data) => data.decode(self), . _ => bug!(), . } . } . . fn get_parent_impl(self, id: DefIndex) -> Option { 3,708 ( 0.00%) self.get_impl_data(id).parent_impl . } . . fn get_impl_polarity(self, id: DefIndex) -> ty::ImplPolarity { 25 ( 0.00%) self.get_impl_data(id).polarity . } . . fn get_impl_defaultness(self, id: DefIndex) -> hir::Defaultness { 2 ( 0.00%) self.get_impl_data(id).defaultness . } . . fn get_impl_constness(self, id: DefIndex) -> hir::Constness { 2 ( 0.00%) self.get_impl_data(id).constness . } . . fn get_trait_item_def_id(self, id: DefIndex) -> Option { 610 ( 0.00%) self.root.tables.trait_item_def_id.get(self, id).map(|d| d.decode(self)) . } . . fn get_coerce_unsized_info(self, id: DefIndex) -> Option { . self.get_impl_data(id).coerce_unsized_info . } . . fn get_impl_trait(self, id: DefIndex, tcx: TyCtxt<'tcx>) -> Option> { 15,077 ( 0.01%) self.root.tables.impl_trait_ref.get(self, id).map(|tr| tr.decode((self, tcx))) . } . . fn get_expn_that_defined(self, id: DefIndex, sess: &Session) -> ExpnId { 1,335 ( 0.00%) self.root.tables.expn_that_defined.get(self, id).unwrap().decode((self, sess)) . } . . fn get_const_param_default( . self, . tcx: TyCtxt<'tcx>, . id: DefIndex, . ) -> rustc_middle::ty::Const<'tcx> { . self.root.tables.const_defaults.get(self, id).unwrap().decode((self, tcx)) -- line 1026 ---------------------------------------- -- line 1028 ---------------------------------------- . . /// Iterates over all the stability attributes in the given crate. . fn get_lib_features(self, tcx: TyCtxt<'tcx>) -> &'tcx [(Symbol, Option)] { . tcx.arena.alloc_from_iter(self.root.lib_features.decode(self)) . } . . /// Iterates over the language items in the given crate. . fn get_lang_items(self, tcx: TyCtxt<'tcx>) -> &'tcx [(DefId, usize)] { 15 ( 0.00%) tcx.arena.alloc_from_iter( 10 ( 0.00%) self.root . .lang_items . .decode(self) 532 ( 0.00%) .map(|(def_index, index)| (self.local_def_id(def_index), index)), . ) . } . . /// Iterates over the diagnostic items in the given crate. . fn get_diagnostic_items(self) -> DiagnosticItems { . let mut id_to_name = FxHashMap::default(); 10 ( 0.00%) let name_to_id = self . .root . .diagnostic_items . .decode(self) . .map(|(name, def_index)| { 106 ( 0.00%) let id = self.local_def_id(def_index); 106 ( 0.00%) id_to_name.insert(id, name); . (name, id) . }) . .collect(); 45 ( 0.00%) DiagnosticItems { id_to_name, name_to_id } . } . . /// Iterates over all named children of the given module, . /// including both proper items and reexports. . /// Module here is understood in name resolution sense - it can be a `mod` item, . /// or a crate root, or an enum, or a trait. 4,378 ( 0.00%) fn for_each_module_child( . self, . id: DefIndex, . mut callback: impl FnMut(ModChild), . sess: &Session, . ) { 1,756 ( 0.00%) if let Some(data) = &self.root.proc_macro_data { . // If we are loading as a proc macro, we want to return . // the view of this crate as a proc macro crate. . if id == CRATE_DEF_INDEX { . for def_index in data.macros.decode(self) { . let raw_macro = self.raw_proc_macro(def_index); . let res = Res::Def( . DefKind::Macro(macro_kind(raw_macro)), . self.local_def_id(def_index), -- line 1078 ---------------------------------------- -- line 1085 ---------------------------------------- . span: ident.span, . }); . } . } . return; . } . . // Iterate over all children. 3,114 ( 0.00%) if let Some(children) = self.root.tables.children.get(self, id) { 11,604 ( 0.00%) for child_index in children.decode((self, sess)) { 55,983 ( 0.02%) if let Some(ident) = self.opt_item_ident(child_index, sess) { 8,369 ( 0.00%) let kind = self.def_kind(child_index); 4,346 ( 0.00%) if matches!(kind, DefKind::Macro(..)) { . // FIXME: Macros are currently encoded twice, once as items and once as . // reexports. We ignore the items here and only use the reexports. . continue; . } . let def_id = self.local_def_id(child_index); . let res = Res::Def(kind, def_id); . let vis = self.get_visibility(child_index); . let span = self.get_span(child_index, sess); . . callback(ModChild { ident, res, vis, span }); . . // For non-re-export structs and variants add their constructors to children. . // Re-export lists automatically contain constructors when necessary. 15,258 ( 0.01%) match kind { . DefKind::Struct => { 143 ( 0.00%) if let Some((ctor_def_id, ctor_kind)) = . self.get_ctor_def_id_and_kind(child_index) . { . let ctor_res = . Res::Def(DefKind::Ctor(CtorOf::Struct, ctor_kind), ctor_def_id); . let vis = self.get_visibility(ctor_def_id.index); . callback(ModChild { ident, res: ctor_res, vis, span }); . } . } . DefKind::Variant => { . // Braced variants, unlike structs, generate unusable names in . // value namespace, they are reserved for possible future use. . // It's ok to use the variant's id as a ctor id since an . // error will be reported on any use of such resolution anyway. 198 ( 0.00%) let (ctor_def_id, ctor_kind) = self . .get_ctor_def_id_and_kind(child_index) . .unwrap_or((def_id, CtorKind::Fictive)); . let ctor_res = . Res::Def(DefKind::Ctor(CtorOf::Variant, ctor_kind), ctor_def_id); . let mut vis = self.get_visibility(ctor_def_id.index); 74 ( 0.00%) if ctor_def_id == def_id && vis.is_public() { . // For non-exhaustive variants lower the constructor visibility to . // within the crate. We only need this for fictive constructors, . // for other constructors correct visibilities . // were already encoded in metadata. 6 ( 0.00%) let mut attrs = self.get_item_attrs(def_id.index, sess); 2 ( 0.00%) if attrs.any(|item| item.has_name(sym::non_exhaustive)) { . let crate_def_id = self.local_def_id(CRATE_DEF_INDEX); . vis = ty::Visibility::Restricted(crate_def_id); . } . } . callback(ModChild { ident, res: ctor_res, vis, span }); . } . _ => {} . } . } . } . } . 4,215 ( 0.00%) match self.kind(id) { 518 ( 0.00%) EntryKind::Mod(exports) => { 4,288 ( 0.00%) for exp in exports.decode((self, sess)) { . callback(exp); . } . } . EntryKind::Enum(..) | EntryKind::Trait(..) => {} . _ => bug!("`for_each_module_child` is called on a non-module: {:?}", self.def_kind(id)), . } 3,184 ( 0.00%) } . . fn is_ctfe_mir_available(self, id: DefIndex) -> bool { . self.root.tables.mir_for_ctfe.get(self, id).is_some() . } . . fn is_item_mir_available(self, id: DefIndex) -> bool { . self.root.tables.mir.get(self, id).is_some() . } . . fn module_expansion(self, id: DefIndex, sess: &Session) -> ExpnId { 1,820 ( 0.00%) match self.kind(id) { . EntryKind::Mod(_) | EntryKind::Enum(_) | EntryKind::Trait(_) => { . self.get_expn_that_defined(id, sess) . } . _ => panic!("Expected module, found {:?}", self.local_def_id(id)), . } . } . . fn get_optimized_mir(self, tcx: TyCtxt<'tcx>, id: DefIndex) -> Body<'tcx> { -- line 1180 ---------------------------------------- -- line 1242 ---------------------------------------- . qualif, . _, . ) => qualif, . _ => bug!("mir_const_qualif: unexpected kind"), . } . } . . fn get_fn_has_self_parameter(self, id: DefIndex) -> bool { 555 ( 0.00%) match self.kind(id) { 444 ( 0.00%) EntryKind::AssocFn(data) => data.decode(self).has_self, . _ => false, . } . } . . fn get_associated_item_def_ids(self, tcx: TyCtxt<'tcx>, id: DefIndex) -> &'tcx [DefId] { 112 ( 0.00%) if let Some(children) = self.root.tables.children.get(self, id) { 48 ( 0.00%) tcx.arena.alloc_from_iter( 16 ( 0.00%) children.decode((self, tcx.sess)).map(|child_index| self.local_def_id(child_index)), . ) . } else { . &[] . } . } . 1,380 ( 0.00%) fn get_associated_item(self, id: DefIndex, sess: &Session) -> ty::AssocItem { 805 ( 0.00%) let def_key = self.def_key(id); . let parent = self.local_def_id(def_key.parent.unwrap()); . let ident = self.item_ident(id, sess); . 815 ( 0.00%) let (kind, container, has_self) = match self.kind(id) { . EntryKind::AssocConst(container, _, _) => (ty::AssocKind::Const, container, false), 110 ( 0.00%) EntryKind::AssocFn(data) => { . let data = data.decode(self); 770 ( 0.00%) (ty::AssocKind::Fn, data.container, data.has_self) . } 10 ( 0.00%) EntryKind::AssocType(container) => (ty::AssocKind::Type, container, false), . _ => bug!("cannot get associated-item of `{:?}`", def_key), . }; . 2,070 ( 0.00%) ty::AssocItem { . name: ident.name, . kind, . vis: self.get_visibility(id), . defaultness: container.defaultness(), . def_id: self.local_def_id(id), . trait_item_def_id: self.get_trait_item_def_id(id), . container: container.with_def_id(parent), . fn_has_self_parameter: has_self, . } 1,035 ( 0.00%) } . . fn get_item_variances(self, id: DefIndex) -> impl Iterator + 'a { 30 ( 0.00%) self.root.tables.variances.get(self, id).unwrap_or_else(Lazy::empty).decode(self) . } . . fn get_ctor_def_id_and_kind(self, node_id: DefIndex) -> Option<(DefId, CtorKind)> { 2,588 ( 0.00%) match self.kind(node_id) { . EntryKind::Struct(data, _) | EntryKind::Variant(data) => { 1,139 ( 0.00%) let vdata = data.decode(self); 510 ( 0.00%) vdata.ctor.map(|index| (self.local_def_id(index), vdata.ctor_kind)) . } . _ => None, . } 901 ( 0.00%) } . 24 ( 0.00%) fn get_item_attrs( . self, . id: DefIndex, . sess: &'a Session, . ) -> impl Iterator + 'a { 168 ( 0.00%) self.root . .tables . .attributes . .get(self, id) . .unwrap_or_else(|| { . // Structure and variant constructors don't have any attributes encoded for them, . // but we assume that someone passing a constructor ID actually wants to look at . // the attributes on the corresponding struct or variant. . let def_key = self.def_key(id); -- line 1320 ---------------------------------------- -- line 1322 ---------------------------------------- . let parent_id = def_key.parent.expect("no parent for a constructor"); . self.root . .tables . .attributes . .get(self, parent_id) . .expect("no encoded attributes for a structure or variant") . }) . .decode((self, sess)) 18 ( 0.00%) } . . fn get_struct_field_names( . self, . id: DefIndex, . sess: &'a Session, . ) -> impl Iterator> + 'a { 515 ( 0.00%) self.root . .tables . .children . .get(self, id) . .unwrap_or_else(Lazy::empty) . .decode(self) 1,640 ( 0.00%) .map(move |index| respan(self.get_span(index, sess), self.item_ident(index, sess).name)) . } . . fn get_struct_field_visibilities(self, id: DefIndex) -> impl Iterator + 'a { 220 ( 0.00%) self.root . .tables . .children . .get(self, id) . .unwrap_or_else(Lazy::empty) . .decode(self) 80 ( 0.00%) .map(move |field_index| self.get_visibility(field_index)) . } . . fn get_inherent_implementations_for_type( . self, . tcx: TyCtxt<'tcx>, . id: DefIndex, . ) -> &'tcx [DefId] { 4 ( 0.00%) tcx.arena.alloc_from_iter( 5 ( 0.00%) self.root . .tables . .inherent_impls . .get(self, id) . .unwrap_or_else(Lazy::empty) . .decode(self) 113 ( 0.00%) .map(|index| self.local_def_id(index)), . ) . } . . fn get_traits(self) -> impl Iterator + 'a { . self.root.traits.decode(self).map(move |index| self.local_def_id(index)) . } . . fn get_trait_impls(self) -> impl Iterator)> + 'a { -- line 1376 ---------------------------------------- -- line 1380 ---------------------------------------- . index: *trait_index, . }; . impls.decode(self).map(move |(impl_index, simplified_self_ty)| { . (trait_def_id, self.local_def_id(impl_index), simplified_self_ty) . }) . }) . } . 720 ( 0.00%) fn get_implementations_of_trait( . self, . tcx: TyCtxt<'tcx>, . trait_def_id: DefId, . ) -> &'tcx [(DefId, Option)] { 80 ( 0.00%) if self.trait_impls.is_empty() { . return &[]; . } . . // Do a reverse lookup beforehand to avoid touching the crate_num . // hash map in the loop below. 112 ( 0.00%) let key = match self.reverse_translate_def_id(trait_def_id) { . Some(def_id) => (def_id.krate.as_u32(), def_id.index), . None => return &[], . }; . . if let Some(impls) = self.trait_impls.get(&key) { 136 ( 0.00%) tcx.arena.alloc_from_iter( 68 ( 0.00%) impls . .decode(self) 1,589 ( 0.00%) .map(|(idx, simplified_self_ty)| (self.local_def_id(idx), simplified_self_ty)), . ) . } else { . &[] . } 640 ( 0.00%) } . . fn get_trait_of_item(self, id: DefIndex) -> Option { 20 ( 0.00%) let def_key = self.def_key(id); 25 ( 0.00%) match def_key.disambiguated_data.data { . DefPathData::TypeNs(..) | DefPathData::ValueNs(..) => (), . // Not an associated item . _ => return None, . } 45 ( 0.00%) def_key.parent.and_then(|parent_index| match self.kind(parent_index) { . EntryKind::Trait(_) | EntryKind::TraitAlias => Some(self.local_def_id(parent_index)), . _ => None, . }) . } . . fn get_native_libraries(self, sess: &'a Session) -> impl Iterator + 'a { 10 ( 0.00%) self.root.native_libraries.decode((self, sess)) . } . . fn get_proc_macro_quoted_span(self, index: usize, sess: &Session) -> Span { . self.root . .tables . .proc_macro_quoted_spans . .get(self, index) . .unwrap_or_else(|| panic!("Missing proc macro quoted span: {:?}", index)) -- line 1437 ---------------------------------------- -- line 1450 ---------------------------------------- . self.root.dylib_dependency_formats.decode(self).enumerate().flat_map(|(i, link)| { . let cnum = CrateNum::new(i + 1); . link.map(|link| (self.cnum_map[cnum], link)) . }), . ) . } . . fn get_missing_lang_items(self, tcx: TyCtxt<'tcx>) -> &'tcx [lang_items::LangItem] { 25 ( 0.00%) tcx.arena.alloc_from_iter(self.root.lang_items_missing.decode(self)) . } . . fn get_fn_param_names(self, tcx: TyCtxt<'tcx>, id: DefIndex) -> &'tcx [Ident] { . let param_names = match self.kind(id) { . EntryKind::Fn(data) | EntryKind::ForeignFn(data) => data.decode(self).param_names, . EntryKind::AssocFn(data) => data.decode(self).fn_data.param_names, . _ => Lazy::empty(), . }; -- line 1466 ---------------------------------------- -- line 1479 ---------------------------------------- . EntryKind::AnonConst(_, data) . | EntryKind::Const(_, data) . | EntryKind::AssocConst(_, _, data) => data.decode(self).0, . _ => bug!(), . } . } . . fn get_macro(self, id: DefIndex, sess: &Session) -> MacroDef { 6 ( 0.00%) match self.kind(id) { 1 ( 0.00%) EntryKind::MacroDef(macro_def) => macro_def.decode((self, sess)), . _ => bug!(), . } . } . . // This replicates some of the logic of the crate-local `is_const_fn_raw` query, because we . // don't serialize constness for tuple variant and tuple struct constructors. . fn is_const_fn_raw(self, id: DefIndex) -> bool { 9 ( 0.00%) let constness = match self.kind(id) { . EntryKind::AssocFn(data) => data.decode(self).fn_data.constness, 6 ( 0.00%) EntryKind::Fn(data) => data.decode(self).constness, . EntryKind::ForeignFn(data) => data.decode(self).constness, . EntryKind::Variant(..) | EntryKind::Struct(..) => hir::Constness::Const, . _ => hir::Constness::NotConst, . }; . constness == hir::Constness::Const . } . . fn asyncness(self, id: DefIndex) -> hir::IsAsync { -- line 1506 ---------------------------------------- -- line 1532 ---------------------------------------- . fn generator_kind(self, id: DefIndex) -> Option { . match self.kind(id) { . EntryKind::Generator(data) => Some(data), . _ => None, . } . } . . fn fn_sig(self, id: DefIndex, tcx: TyCtxt<'tcx>) -> ty::PolyFnSig<'tcx> { 60 ( 0.00%) self.root.tables.fn_sig.get(self, id).unwrap().decode((self, tcx)) . } . . #[inline] 50,981 ( 0.02%) fn def_key(self, index: DefIndex) -> DefKey { 14,566 ( 0.00%) *self . .def_key_cache . .lock() . .entry(index) 29,220 ( 0.01%) .or_insert_with(|| self.root.tables.def_keys.get(self, index).unwrap().decode(self)) 58,264 ( 0.02%) } . . // Returns the path leading to the thing with this `id`. . fn def_path(self, id: DefIndex) -> DefPath { . debug!("def_path(cnum={:?}, id={:?})", self.cnum, id); . DefPath::make(self.cnum, id, |parent| self.def_key(parent)) . } . . fn def_path_hash_unlocked( . self, . index: DefIndex, . def_path_hashes: &mut FxHashMap, . ) -> DefPathHash { 2,030 ( 0.00%) *def_path_hashes.entry(index).or_insert_with(|| { 230 ( 0.00%) self.root.tables.def_path_hashes.get(self, index).unwrap().decode(self) . }) . } . . #[inline] 7,105 ( 0.00%) fn def_path_hash(self, index: DefIndex) -> DefPathHash { . let mut def_path_hashes = self.def_path_hash_cache.lock(); . self.def_path_hash_unlocked(index, &mut def_path_hashes) 8,120 ( 0.00%) } . . #[inline] . fn def_path_hash_to_def_index(self, hash: DefPathHash) -> DefIndex { . self.def_path_hash_map.def_path_hash_to_def_index(&hash) . } . . fn expn_hash_to_expn_id(self, sess: &Session, index_guess: u32, hash: ExpnHash) -> ExpnId { . debug_assert_eq!(ExpnId::from_hash(hash), None); -- line 1580 ---------------------------------------- -- line 1635 ---------------------------------------- . /// Proc macro crates don't currently export spans, so this function does not have . /// to work for them. . fn imported_source_files(self, sess: &Session) -> &'a [ImportedSourceFile] { . // Translate the virtual `/rustc/$hash` prefix back to a real directory . // that should hold actual sources, where possible. . // . // NOTE: if you update this, you might need to also update bootstrap's code for generating . // the `rust-src` component in `Src::run` in `src/bootstrap/dist.rs`. 42,166 ( 0.01%) let virtual_rust_source_base_dir = option_env!("CFG_VIRTUAL_RUST_SOURCE_BASE_DIR") . .map(Path::new) . .filter(|_| { . // Only spend time on further checks if we have what to translate *to*. . sess.opts.real_rust_source_base_dir.is_some() . }) . .filter(|virtual_dir| { . // Don't translate away `/rustc/$hash` if we're still remapping to it, . // since that means we're still building `std`/`rustc` that need it, . // and we don't want the real path to leak into codegen/debuginfo. . !sess.opts.remap_path_prefix.iter().any(|(_from, to)| to == virtual_dir) . }); 42,166 ( 0.01%) let try_to_translate_virtual_to_real = |name: &mut rustc_span::FileName| { . debug!( . "try_to_translate_virtual_to_real(name={:?}): \ . virtual_rust_source_base_dir={:?}, real_rust_source_base_dir={:?}", . name, virtual_rust_source_base_dir, sess.opts.real_rust_source_base_dir, . ); . 1,850 ( 0.00%) if let Some(virtual_dir) = virtual_rust_source_base_dir { . if let Some(real_dir) = &sess.opts.real_rust_source_base_dir { . if let rustc_span::FileName::Real(old_name) = name { . if let rustc_span::RealFileName::Remapped { local_path: _, virtual_name } = . old_name . { . if let Ok(rest) = virtual_name.strip_prefix(virtual_dir) { . let virtual_name = virtual_name.clone(); . -- line 1670 ---------------------------------------- -- line 1709 ---------------------------------------- . *old_name = new_name; . } . } . } . } . } . }; . 42,161 ( 0.01%) self.cdata.source_map_import_info.get_or_init(|| { 15 ( 0.00%) let external_source_map = self.root.source_map.decode(self); . . external_source_map . .map(|source_file_to_import| { . // We can't reuse an existing SourceFile, so allocate a new one . // containing the information we need. . let rustc_span::SourceFile { 7,770 ( 0.00%) mut name, 2,220 ( 0.00%) src_hash, 370 ( 0.00%) start_pos, 740 ( 0.00%) end_pos, 1,850 ( 0.00%) mut lines, 1,850 ( 0.00%) mut multibyte_chars, 2,220 ( 0.00%) mut non_narrow_chars, 1,850 ( 0.00%) mut normalized_pos, 2,220 ( 0.00%) name_hash, . .. . } = source_file_to_import; . . // If this file is under $sysroot/lib/rustlib/src/ but has not been remapped . // during rust bootstrapping by `remap-debuginfo = true`, and the user . // wish to simulate that behaviour by -Z simulate-remapped-rust-src-base, . // then we change `name` to a similar state as if the rust was bootstrapped . // with `remap-debuginfo = true`. . // This is useful for testing so that tests about the effects of . // `try_to_translate_virtual_to_real` don't have to worry about how the . // compiler is bootstrapped. 740 ( 0.00%) if let Some(virtual_dir) = . &sess.opts.debugging_opts.simulate_remapped_rust_src_base . { . if let Some(real_dir) = &sess.opts.real_rust_source_base_dir { . if let rustc_span::FileName::Real(ref mut old_name) = name { . if let rustc_span::RealFileName::LocalPath(local) = old_name { . if let Ok(rest) = local.strip_prefix(real_dir) { . *old_name = rustc_span::RealFileName::Remapped { . local_path: None, -- line 1753 ---------------------------------------- -- line 1767 ---------------------------------------- . let source_length = (end_pos - start_pos).to_usize(); . . // Translate line-start positions and multibyte character . // position into frame of reference local to file. . // `SourceMap::new_imported_source_file()` will then translate those . // coordinates to their new global frame of reference when the . // offset of the SourceFile is known. . for pos in &mut lines { 547,704 ( 0.18%) *pos = *pos - start_pos; . } . for mbc in &mut multibyte_chars { 1,372 ( 0.00%) mbc.pos = mbc.pos - start_pos; . } . for swc in &mut non_narrow_chars { 882 ( 0.00%) *swc = *swc - start_pos; . } . for np in &mut normalized_pos { . np.pos = np.pos - start_pos; . } . 6,660 ( 0.00%) let local_version = sess.source_map().new_imported_source_file( 4,810 ( 0.00%) name, 2,590 ( 0.00%) src_hash, . name_hash, . source_length, 740 ( 0.00%) self.cnum, 1,850 ( 0.00%) lines, 2,220 ( 0.00%) multibyte_chars, 1,850 ( 0.00%) non_narrow_chars, 1,480 ( 0.00%) normalized_pos, . start_pos, . end_pos, . ); . debug!( . "CrateMetaData::imported_source_files alloc \ . source_file {:?} original (start_pos {:?} end_pos {:?}) \ . translated (start_pos {:?} end_pos {:?})", . local_version.name, -- line 1804 ---------------------------------------- -- line 1808 ---------------------------------------- . local_version.end_pos . ); . . ImportedSourceFile { . original_start_pos: start_pos, . original_end_pos: end_pos, . translated_source_file: local_version, . } 1,110 ( 0.00%) }) . .collect() . }) . } . } . . impl CrateMetadata { 60 ( 0.00%) crate fn new( . sess: &Session, . blob: MetadataBlob, . root: CrateRoot<'static>, . raw_proc_macros: Option<&'static [ProcMacro]>, . cnum: CrateNum, . cnum_map: CrateNumMap, . dep_kind: CrateDepKind, . source: CrateSource, . private_dep: bool, . host_hash: Option, . ) -> CrateMetadata { 15 ( 0.00%) let trait_impls = root . .impls . .decode((&blob, sess)) . .map(|trait_impls| (trait_impls.trait_id, trait_impls.impls)) . .collect(); . let alloc_decoding_state = 15 ( 0.00%) AllocDecodingState::new(root.interpret_alloc_index.decode(&blob).collect()); . let dependencies = Lock::new(cnum_map.iter().cloned().collect()); . . // Pre-decode the DefPathHash->DefIndex table. This is a cheap operation . // that does not copy any data. It just does some data verification. 5 ( 0.00%) let def_path_hash_map = root.def_path_hash_map.decode(&blob); . 115 ( 0.00%) CrateMetadata { 5 ( 0.00%) blob, 15 ( 0.00%) root, 20 ( 0.00%) trait_impls, . raw_proc_macros, . source_map_import_info: OnceCell::new(), 20 ( 0.00%) def_path_hash_map, . expn_hash_map: Default::default(), 35 ( 0.00%) alloc_decoding_state, . cnum, 20 ( 0.00%) cnum_map, 25 ( 0.00%) dependencies, . dep_kind: Lock::new(dep_kind), 60 ( 0.00%) source, . private_dep, . host_hash, . extern_crate: Lock::new(None), . hygiene_context: Default::default(), . def_key_cache: Default::default(), . def_path_hash_cache: Default::default(), . } 45 ( 0.00%) } . . crate fn dependencies(&self) -> LockGuard<'_, Vec> { . self.dependencies.borrow() . } . . crate fn add_dependency(&self, cnum: CrateNum) { . self.dependencies.borrow_mut().push(cnum); . } . . crate fn update_extern_crate(&self, new_extern_crate: ExternCrate) -> bool { . let mut extern_crate = self.extern_crate.borrow_mut(); . let update = Some(new_extern_crate.rank()) > extern_crate.as_ref().map(ExternCrate::rank); . if update { 25 ( 0.00%) *extern_crate = Some(new_extern_crate); . } . update . } . . crate fn source(&self) -> &CrateSource { 80 ( 0.00%) &self.source . } . . crate fn dep_kind(&self) -> CrateDepKind { . *self.dep_kind.lock() . } . . crate fn update_dep_kind(&self, f: impl FnOnce(CrateDepKind) -> CrateDepKind) { 29 ( 0.00%) self.dep_kind.with_lock(|dep_kind| *dep_kind = f(*dep_kind)) . } . . crate fn panic_strategy(&self) -> PanicStrategy { . self.root.panic_strategy . } . . crate fn needs_panic_runtime(&self) -> bool { . self.root.needs_panic_runtime -- line 1905 ---------------------------------------- -- line 1909 ---------------------------------------- . self.root.panic_runtime . } . . crate fn is_profiler_runtime(&self) -> bool { . self.root.profiler_runtime . } . . crate fn needs_allocator(&self) -> bool { 4 ( 0.00%) self.root.needs_allocator . } . . crate fn has_global_allocator(&self) -> bool { . self.root.has_global_allocator . } . . crate fn has_default_lib_allocator(&self) -> bool { . self.root.has_default_lib_allocator . } . . crate fn is_proc_macro_crate(&self) -> bool { . self.root.is_proc_macro_crate() . } . . crate fn name(&self) -> Symbol { 72 ( 0.00%) self.root.name . } . . crate fn stable_crate_id(&self) -> StableCrateId { . self.root.stable_crate_id . } . . crate fn hash(&self) -> Svh { . self.root.hash . } . . fn num_def_ids(&self) -> usize { . self.root.tables.def_keys.size() . } . . fn local_def_id(&self, index: DefIndex) -> DefId { 9,365 ( 0.00%) DefId { krate: self.cnum, index } . } . . // Translate a DefId from the current compilation environment to a DefId . // for an external crate. . fn reverse_translate_def_id(&self, did: DefId) -> Option { . for (local, &global) in self.cnum_map.iter_enumerated() { 206 ( 0.00%) if global == did.krate { . return Some(DefId { krate: local, index: did.index }); . } . } . . None . } . } . -- line 1964 ---------------------------------------- 446,382 ( 0.15%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/leb128.rs -------------------------------------------------------------------------------- Ir -- line 17 ---------------------------------------- . #[inline] . pub fn $fn_name( . out: &mut [::std::mem::MaybeUninit; max_leb128_len!($int_ty)], . mut value: $int_ty, . ) -> &[u8] { . let mut i = 0; . . loop { 53,220 ( 0.02%) if value < 0x80 { . unsafe { 27,845 ( 0.01%) *out.get_unchecked_mut(i).as_mut_ptr() = value as u8; . } . 37,509 ( 0.01%) i += 1; . break; . } else { . unsafe { 20,328 ( 0.01%) *out.get_unchecked_mut(i).as_mut_ptr() = ((value & 0x7f) | 0x80) as u8; . } . 9,167 ( 0.00%) value >>= 7; . i += 1; . } . } . . unsafe { ::std::mem::MaybeUninit::slice_assume_init_ref(&out.get_unchecked(..i)) } . } . }; . } -- line 45 ---------------------------------------- -- line 53 ---------------------------------------- . macro_rules! impl_read_unsigned_leb128 { . ($fn_name:ident, $int_ty:ty) => { . #[inline] . pub fn $fn_name(slice: &[u8], position: &mut usize) -> $int_ty { . // The first iteration of this loop is unpeeled. This is a . // performance win because this code is hot and integer values less . // than 128 are very common, typically occurring 50-80% or more of . // the time, even for u64 and u128. 938,204 ( 0.31%) let byte = slice[*position]; 469,102 ( 0.16%) *position += 1; 469,102 ( 0.16%) if (byte & 0x80) == 0 { 72 ( 0.00%) return byte as $int_ty; . } 740 ( 0.00%) let mut result = (byte & 0x7F) as $int_ty; . let mut shift = 7; . loop { 379,311 ( 0.13%) let byte = slice[*position]; 248,749 ( 0.08%) *position += 1; 252,874 ( 0.08%) if (byte & 0x80) == 0 { 188,014 ( 0.06%) result |= (byte as $int_ty) << shift; . return result; . } else { . result |= ((byte & 0x7F) as $int_ty) << shift; . } . shift += 7; . } . } . }; -- line 80 ---------------------------------------- 424,713 ( 0.14%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/relate.rs -------------------------------------------------------------------------------- Ir -- line 36 ---------------------------------------- . fn with_cause(&mut self, _cause: Cause, f: F) -> R . where . F: FnOnce(&mut Self) -> R, . { . f(self) . } . . /// Generic relation routine suitable for most anything. 4,757 ( 0.00%) fn relate>(&mut self, a: T, b: T) -> RelateResult<'tcx, T> { 72,553 ( 0.02%) Relate::relate(self, a, b) 3,908 ( 0.00%) } . . /// Relate the two substitutions for the given item. The default . /// is to look up the variance for the item and proceed . /// accordingly. 330 ( 0.00%) fn relate_item_substs( . &mut self, . item_def_id: DefId, . a_subst: SubstsRef<'tcx>, . b_subst: SubstsRef<'tcx>, . ) -> RelateResult<'tcx, SubstsRef<'tcx>> { . debug!( . "relate_item_substs(item_def_id={:?}, a_subst={:?}, b_subst={:?})", . item_def_id, a_subst, b_subst . ); . . let tcx = self.tcx(); . let opt_variances = tcx.variances_of(item_def_id); 132 ( 0.00%) relate_substs(self, Some((item_def_id, opt_variances)), a_subst, b_subst) 297 ( 0.00%) } . . /// Switch variance for the purpose of relating `a` and `b`. . fn relate_with_variance>( . &mut self, . variance: ty::Variance, . info: ty::VarianceDiagInfo<'tcx>, . a: T, . b: T, -- line 73 ---------------------------------------- -- line 108 ---------------------------------------- . a: Self, . b: Self, . ) -> RelateResult<'tcx, Self>; . } . . /////////////////////////////////////////////////////////////////////////// . // Relate impls . 596 ( 0.00%) pub fn relate_type_and_mut<'tcx, R: TypeRelation<'tcx>>( . relation: &mut R, . a: ty::TypeAndMut<'tcx>, . b: ty::TypeAndMut<'tcx>, . base_ty: Ty<'tcx>, . ) -> RelateResult<'tcx, ty::TypeAndMut<'tcx>> { . debug!("{}.mts({:?}, {:?})", relation.tag(), a, b); 125 ( 0.00%) if a.mutbl != b.mutbl { 4 ( 0.00%) Err(TypeError::Mutability) . } else { . let mutbl = a.mutbl; . let (variance, info) = match mutbl { . ast::Mutability::Not => (ty::Covariant, ty::VarianceDiagInfo::None), . ast::Mutability::Mut => { . (ty::Invariant, ty::VarianceDiagInfo::Invariant { ty: base_ty, param_index: 0 }) . } . }; 43 ( 0.00%) let ty = relation.relate_with_variance(variance, info, a.ty, b.ty)?; 298 ( 0.00%) Ok(ty::TypeAndMut { ty, mutbl }) . } 596 ( 0.00%) } . . pub fn relate_substs<'tcx, R: TypeRelation<'tcx>>( . relation: &mut R, . variances: Option<(DefId, &[ty::Variance])>, . a_subst: SubstsRef<'tcx>, . b_subst: SubstsRef<'tcx>, . ) -> RelateResult<'tcx, SubstsRef<'tcx>> { 52,321 ( 0.02%) let tcx = relation.tcx(); 13,981 ( 0.00%) let mut cached_ty = None; . . let params = iter::zip(a_subst, b_subst).enumerate().map(|(i, (a, b))| { 70,190 ( 0.02%) let (variance, variance_info) = match variances { 266 ( 0.00%) Some((ty_def_id, variances)) => { 399 ( 0.00%) let variance = variances[i]; 133 ( 0.00%) let variance_info = if variance == ty::Invariant { . let ty = 42 ( 0.00%) cached_ty.get_or_insert_with(|| tcx.type_of(ty_def_id).subst(tcx, a_subst)); . ty::VarianceDiagInfo::Invariant { ty, param_index: i.try_into().unwrap() } . } else { . ty::VarianceDiagInfo::default() . }; . (variance, variance_info) . } . None => (ty::Invariant, ty::VarianceDiagInfo::default()), . }; 14,039 ( 0.00%) relation.relate_with_variance(variance, variance_info, a, b) . }); . . tcx.mk_substs(params) . } . . impl<'tcx> Relate<'tcx> for ty::FnSig<'tcx> { 65 ( 0.00%) fn relate>( . relation: &mut R, . a: ty::FnSig<'tcx>, . b: ty::FnSig<'tcx>, . ) -> RelateResult<'tcx, ty::FnSig<'tcx>> { . let tcx = relation.tcx(); . 30 ( 0.00%) if a.c_variadic != b.c_variadic { . return Err(TypeError::VariadicMismatch(expected_found( . relation, . a.c_variadic, . b.c_variadic, . ))); . } 30 ( 0.00%) let unsafety = relation.relate(a.unsafety, b.unsafety)?; . let abi = relation.relate(a.abi, b.abi)?; . 40 ( 0.00%) if a.inputs().len() != b.inputs().len() { . return Err(TypeError::ArgCount); . } . 45 ( 0.00%) let inputs_and_output = iter::zip(a.inputs(), b.inputs()) 20 ( 0.00%) .map(|(&a, &b)| ((a, b), false)) 40 ( 0.00%) .chain(iter::once(((a.output(), b.output()), true))) 9 ( 0.00%) .map(|((a, b), is_output)| { 9 ( 0.00%) if is_output { . relation.relate(a, b) . } else { . relation.relate_with_variance( . ty::Contravariant, . ty::VarianceDiagInfo::default(), . a, . b, . ) . } . }) . .enumerate() 24 ( 0.00%) .map(|(i, r)| match r { . Err(TypeError::Sorts(exp_found) | TypeError::ArgumentSorts(exp_found, _)) => { . Err(TypeError::ArgumentSorts(exp_found, i)) . } . Err(TypeError::Mutability | TypeError::ArgumentMutability(_)) => { . Err(TypeError::ArgumentMutability(i)) . } 49 ( 0.00%) r => r, . }); 40 ( 0.00%) Ok(ty::FnSig { . inputs_and_output: tcx.mk_type_list(inputs_and_output)?, 5 ( 0.00%) c_variadic: a.c_variadic, . unsafety, . abi, . }) 45 ( 0.00%) } . } . . impl<'tcx> Relate<'tcx> for ty::BoundConstness { . fn relate>( . relation: &mut R, . a: ty::BoundConstness, . b: ty::BoundConstness, . ) -> RelateResult<'tcx, ty::BoundConstness> { 2 ( 0.00%) if a != b { . Err(TypeError::ConstnessMismatch(expected_found(relation, a, b))) . } else { . Ok(a) . } . } . } . . impl<'tcx> Relate<'tcx> for ast::Unsafety { . fn relate>( . relation: &mut R, . a: ast::Unsafety, . b: ast::Unsafety, . ) -> RelateResult<'tcx, ast::Unsafety> { 5 ( 0.00%) if a != b { . Err(TypeError::UnsafetyMismatch(expected_found(relation, a, b))) . } else { . Ok(a) . } . } . } . . impl<'tcx> Relate<'tcx> for abi::Abi { -- line 252 ---------------------------------------- -- line 255 ---------------------------------------- . a: abi::Abi, . b: abi::Abi, . ) -> RelateResult<'tcx, abi::Abi> { . if a == b { Ok(a) } else { Err(TypeError::AbiMismatch(expected_found(relation, a, b))) } . } . } . . impl<'tcx> Relate<'tcx> for ty::ProjectionTy<'tcx> { 28 ( 0.00%) fn relate>( . relation: &mut R, . a: ty::ProjectionTy<'tcx>, . b: ty::ProjectionTy<'tcx>, . ) -> RelateResult<'tcx, ty::ProjectionTy<'tcx>> { 6 ( 0.00%) if a.item_def_id != b.item_def_id { . Err(TypeError::ProjectionMismatched(expected_found( . relation, . a.item_def_id, . b.item_def_id, . ))) . } else { . let substs = relation.relate(a.substs, b.substs)?; 8 ( 0.00%) Ok(ty::ProjectionTy { item_def_id: a.item_def_id, substs: &substs }) . } 18 ( 0.00%) } . } . . impl<'tcx> Relate<'tcx> for ty::ExistentialProjection<'tcx> { . fn relate>( . relation: &mut R, . a: ty::ExistentialProjection<'tcx>, . b: ty::ExistentialProjection<'tcx>, . ) -> RelateResult<'tcx, ty::ExistentialProjection<'tcx>> { -- line 286 ---------------------------------------- -- line 304 ---------------------------------------- . b.substs, . )?; . Ok(ty::ExistentialProjection { item_def_id: a.item_def_id, substs, term }) . } . } . } . . impl<'tcx> Relate<'tcx> for ty::TraitRef<'tcx> { 178,574 ( 0.06%) fn relate>( . relation: &mut R, . a: ty::TraitRef<'tcx>, . b: ty::TraitRef<'tcx>, . ) -> RelateResult<'tcx, ty::TraitRef<'tcx>> { . // Different traits cannot be related. 40,861 ( 0.01%) if a.def_id != b.def_id { 3 ( 0.00%) Err(TypeError::Traits(expected_found(relation, a.def_id, b.def_id))) . } else { 13,620 ( 0.00%) let substs = relate_substs(relation, None, a.substs, b.substs)?; 5,212 ( 0.00%) Ok(ty::TraitRef { def_id: a.def_id, substs }) . } 114,513 ( 0.04%) } . } . . impl<'tcx> Relate<'tcx> for ty::ExistentialTraitRef<'tcx> { . fn relate>( . relation: &mut R, . a: ty::ExistentialTraitRef<'tcx>, . b: ty::ExistentialTraitRef<'tcx>, . ) -> RelateResult<'tcx, ty::ExistentialTraitRef<'tcx>> { -- line 332 ---------------------------------------- -- line 358 ---------------------------------------- . . impl<'tcx> Relate<'tcx> for Ty<'tcx> { . #[inline] . fn relate>( . relation: &mut R, . a: Ty<'tcx>, . b: Ty<'tcx>, . ) -> RelateResult<'tcx, Ty<'tcx>> { 133,534 ( 0.04%) relation.tys(a, b) . } . } . . /// The main "type relation" routine. Note that this does not handle . /// inference artifacts, so you should filter those out before calling . /// it. 180,896 ( 0.06%) pub fn super_relate_tys<'tcx, R: TypeRelation<'tcx>>( . relation: &mut R, . a: Ty<'tcx>, . b: Ty<'tcx>, . ) -> RelateResult<'tcx, Ty<'tcx>> { . let tcx = relation.tcx(); . debug!("super_relate_tys: a={:?} b={:?}", a, b); 406,738 ( 0.14%) match (a.kind(), b.kind()) { . (&ty::Infer(_), _) | (_, &ty::Infer(_)) => { . // The caller should handle these cases! . bug!("var types encountered in super_relate_tys") . } . . (ty::Bound(..), _) | (_, ty::Bound(..)) => { . bug!("bound types encountered in super_relate_tys") . } -- line 388 ---------------------------------------- -- line 391 ---------------------------------------- . . (&ty::Never, _) . | (&ty::Char, _) . | (&ty::Bool, _) . | (&ty::Int(_), _) . | (&ty::Uint(_), _) . | (&ty::Float(_), _) . | (&ty::Str, _) 157 ( 0.00%) if a == b => . { . Ok(a) . } . 35,416 ( 0.01%) (&ty::Param(ref a_p), &ty::Param(ref b_p)) if a_p.index == b_p.index => Ok(a), . . (ty::Placeholder(p1), ty::Placeholder(p2)) if p1 == p2 => Ok(a), . 3,570 ( 0.00%) (&ty::Adt(a_def, a_substs), &ty::Adt(b_def, b_substs)) if a_def == b_def => { 1,155 ( 0.00%) let substs = relation.relate_item_substs(a_def.did, a_substs, b_substs)?; . Ok(tcx.mk_adt(a_def, substs)) . } . . (&ty::Foreign(a_id), &ty::Foreign(b_id)) if a_id == b_id => Ok(tcx.mk_foreign(a_id)), . . (&ty::Dynamic(a_obj, a_region), &ty::Dynamic(b_obj, b_region)) => { . let region_bound = relation.with_cause(Cause::ExistentialRegionBound, |relation| { . relation.relate_with_variance( -- line 417 ---------------------------------------- -- line 452 ---------------------------------------- . Ok(tcx.mk_closure(a_id, &substs)) . } . . (&ty::RawPtr(a_mt), &ty::RawPtr(b_mt)) => { . let mt = relate_type_and_mut(relation, a_mt, b_mt, a)?; . Ok(tcx.mk_ptr(mt)) . } . 1,228 ( 0.00%) (&ty::Ref(a_r, a_ty, a_mutbl), &ty::Ref(b_r, b_ty, b_mutbl)) => { 406 ( 0.00%) let r = relation.relate_with_variance( . ty::Contravariant, . ty::VarianceDiagInfo::default(), . a_r, . b_r, . )?; . let a_mt = ty::TypeAndMut { ty: a_ty, mutbl: a_mutbl }; . let b_mt = ty::TypeAndMut { ty: b_ty, mutbl: b_mutbl }; 728 ( 0.00%) let mt = relate_type_and_mut(relation, a_mt, b_mt, a)?; . Ok(tcx.mk_ref(r, mt)) . } . 64,000 ( 0.02%) (&ty::Array(a_t, sz_a), &ty::Array(b_t, sz_b)) => { . let t = relation.relate(a_t, b_t)?; 25,600 ( 0.01%) match relation.relate(sz_a, sz_b) { 2,112 ( 0.00%) Ok(sz) => Ok(tcx.mk_ty(ty::Array(t, sz))), . Err(err) => { . // Check whether the lengths are both concrete/known values, . // but are unequal, for better diagnostics. . // . // It might seem dubious to eagerly evaluate these constants here, . // we however cannot end up with errors in `Relate` during both . // `type_of` and `predicates_of`. This means that evaluating the . // constants should not cause cycle errors here. 60,480 ( 0.02%) let sz_a = sz_a.try_eval_usize(tcx, relation.param_env()); 36,288 ( 0.01%) let sz_b = sz_b.try_eval_usize(tcx, relation.param_env()); 72,576 ( 0.02%) match (sz_a, sz_b) { 48,384 ( 0.02%) (Some(sz_a_val), Some(sz_b_val)) if sz_a_val != sz_b_val => Err( . TypeError::FixedArraySize(expected_found(relation, sz_a_val, sz_b_val)), . ), . _ => Err(err), . } . } . } . } . . (&ty::Slice(a_t), &ty::Slice(b_t)) => { . let t = relation.relate(a_t, b_t)?; . Ok(tcx.mk_slice(t)) . } . 170 ( 0.00%) (&ty::Tuple(as_), &ty::Tuple(bs)) => { 170 ( 0.00%) if as_.len() == bs.len() { . Ok(tcx.mk_tup( . iter::zip(as_, bs).map(|(a, b)| relation.relate(a.expect_ty(), b.expect_ty())), . )?) . } else if !(as_.is_empty() || bs.is_empty()) { . Err(TypeError::TupleSize(expected_found(relation, as_.len(), bs.len()))) . } else { . Err(TypeError::Sorts(expected_found(relation, a, b))) . } . } . 6 ( 0.00%) (&ty::FnDef(a_def_id, a_substs), &ty::FnDef(b_def_id, b_substs)) 10 ( 0.00%) if a_def_id == b_def_id => . { 8 ( 0.00%) let substs = relation.relate_item_substs(a_def_id, a_substs, b_substs)?; . Ok(tcx.mk_fn_def(a_def_id, substs)) . } . . (&ty::FnPtr(a_fty), &ty::FnPtr(b_fty)) => { 80 ( 0.00%) let fty = relation.relate(a_fty, b_fty)?; . Ok(tcx.mk_fn_ptr(fty)) . } . . // these two are already handled downstream in case of lazy normalization . (&ty::Projection(a_data), &ty::Projection(b_data)) => { . let projection_ty = relation.relate(a_data, b_data)?; . Ok(tcx.mk_projection(projection_ty.item_def_id, projection_ty.substs)) . } -- line 530 ---------------------------------------- -- line 533 ---------------------------------------- . if a_def_id == b_def_id => . { . let substs = relate_substs(relation, None, a_substs, b_substs)?; . Ok(tcx.mk_opaque(a_def_id, substs)) . } . . _ => Err(TypeError::Sorts(expected_found(relation, a, b))), . } 203,508 ( 0.07%) } . . /// The main "const relation" routine. Note that this does not handle . /// inference artifacts, so you should filter those out before calling . /// it. 125,440 ( 0.04%) pub fn super_relate_consts<'tcx, R: TypeRelation<'tcx>>( . relation: &mut R, . a: &'tcx ty::Const<'tcx>, . b: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { . debug!("{}.super_relate_consts(a = {:?}, b = {:?})", relation.tag(), a, b); . let tcx = relation.tcx(); . . // FIXME(oli-obk): once const generics can have generic types, this assertion . // will likely get triggered. Move to `normalize_erasing_regions` at that point. 25,088 ( 0.01%) let a_ty = tcx.erase_regions(a.ty); 25,088 ( 0.01%) let b_ty = tcx.erase_regions(b.ty); 12,544 ( 0.00%) if a_ty != b_ty { . relation.tcx().sess.delay_span_bug( . DUMMY_SP, . &format!("cannot relate constants of different types: {} != {}", a_ty, b_ty), . ); . } . . let eagerly_eval = |x: &'tcx ty::Const<'tcx>| x.eval(tcx, relation.param_env()); 12,544 ( 0.00%) let a = eagerly_eval(a); 25,088 ( 0.01%) let b = eagerly_eval(b); . . // Currently, the values that can be unified are primitive types, . // and those that derive both `PartialEq` and `Eq`, corresponding . // to structural-match types. 137,984 ( 0.05%) let is_match = match (a.val, b.val) { . (ty::ConstKind::Infer(_), _) | (_, ty::ConstKind::Infer(_)) => { . // The caller should handle these cases! . bug!("var types encountered in super_relate_consts: {:?} {:?}", a, b) . } . . (ty::ConstKind::Error(_), _) => return Ok(a), . (_, ty::ConstKind::Error(_)) => return Ok(b), . -- line 580 ---------------------------------------- -- line 608 ---------------------------------------- . substs, . promoted: au.promoted, . }), . ty: a.ty, . })); . } . _ => false, . }; 63,168 ( 0.02%) if is_match { Ok(a) } else { Err(TypeError::ConstMismatch(expected_found(relation, a, b))) } 112,896 ( 0.04%) } . . fn check_const_value_eq<'tcx, R: TypeRelation<'tcx>>( . relation: &mut R, . a_val: ConstValue<'tcx>, . b_val: ConstValue<'tcx>, . // FIXME(oli-obk): these arguments should go away with valtrees . a: &'tcx ty::Const<'tcx>, . b: &'tcx ty::Const<'tcx>, . // FIXME(oli-obk): this should just be `bool` with valtrees . ) -> RelateResult<'tcx, bool> { 12,544 ( 0.00%) let tcx = relation.tcx(); 137,984 ( 0.05%) Ok(match (a_val, b_val) { 275,968 ( 0.09%) (ConstValue::Scalar(Scalar::Int(a_val)), ConstValue::Scalar(Scalar::Int(b_val))) => { 12,544 ( 0.00%) a_val == b_val . } . ( . ConstValue::Scalar(Scalar::Ptr(a_val, _a_size)), . ConstValue::Scalar(Scalar::Ptr(b_val, _b_size)), . ) => { . a_val == b_val . || match (tcx.global_alloc(a_val.provenance), tcx.global_alloc(b_val.provenance)) { . (GlobalAlloc::Function(a_instance), GlobalAlloc::Function(b_instance)) => { -- line 639 ---------------------------------------- -- line 737 ---------------------------------------- . } . . impl<'tcx> Relate<'tcx> for SubstsRef<'tcx> { . fn relate>( . relation: &mut R, . a: SubstsRef<'tcx>, . b: SubstsRef<'tcx>, . ) -> RelateResult<'tcx, SubstsRef<'tcx>> { 2 ( 0.00%) relate_substs(relation, None, a, b) . } . } . . impl<'tcx> Relate<'tcx> for ty::Region<'tcx> { . fn relate>( . relation: &mut R, . a: ty::Region<'tcx>, . b: ty::Region<'tcx>, . ) -> RelateResult<'tcx, ty::Region<'tcx>> { 602 ( 0.00%) relation.regions(a, b) . } . } . . impl<'tcx> Relate<'tcx> for &'tcx ty::Const<'tcx> { . fn relate>( . relation: &mut R, . a: &'tcx ty::Const<'tcx>, . b: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { 1,472 ( 0.00%) relation.consts(a, b) . } . } . . impl<'tcx, T: Relate<'tcx>> Relate<'tcx> for ty::Binder<'tcx, T> { . fn relate>( . relation: &mut R, . a: ty::Binder<'tcx, T>, . b: ty::Binder<'tcx, T>, . ) -> RelateResult<'tcx, ty::Binder<'tcx, T>> { 51 ( 0.00%) relation.binders(a, b) . } . } . . impl<'tcx> Relate<'tcx> for GenericArg<'tcx> { 64,400 ( 0.02%) fn relate>( . relation: &mut R, . a: GenericArg<'tcx>, . b: GenericArg<'tcx>, . ) -> RelateResult<'tcx, GenericArg<'tcx>> { 83,916 ( 0.03%) match (a.unpack(), b.unpack()) { . (GenericArgKind::Lifetime(a_lt), GenericArgKind::Lifetime(b_lt)) => { . Ok(relation.relate(a_lt, b_lt)?.into()) . } . (GenericArgKind::Type(a_ty), GenericArgKind::Type(b_ty)) => { . Ok(relation.relate(a_ty, b_ty)?.into()) . } . (GenericArgKind::Const(a_ct), GenericArgKind::Const(b_ct)) => { . Ok(relation.relate(a_ct, b_ct)?.into()) -- line 793 ---------------------------------------- -- line 797 ---------------------------------------- . } . (GenericArgKind::Type(unpacked), x) => { . bug!("impossible case reached: can't relate: {:?} with {:?}", unpacked, x) . } . (GenericArgKind::Const(unpacked), x) => { . bug!("impossible case reached: can't relate: {:?} with {:?}", unpacked, x) . } . } 65,780 ( 0.02%) } . } . . impl<'tcx> Relate<'tcx> for ty::ImplPolarity { . fn relate>( . relation: &mut R, . a: ty::ImplPolarity, . b: ty::ImplPolarity, . ) -> RelateResult<'tcx, ty::ImplPolarity> { 2 ( 0.00%) if a != b { . Err(TypeError::PolarityMismatch(expected_found(relation, a, b))) . } else { . Ok(a) . } . } . } . . impl<'tcx> Relate<'tcx> for ty::TraitPredicate<'tcx> { 24 ( 0.00%) fn relate>( . relation: &mut R, . a: ty::TraitPredicate<'tcx>, . b: ty::TraitPredicate<'tcx>, . ) -> RelateResult<'tcx, ty::TraitPredicate<'tcx>> { 12 ( 0.00%) Ok(ty::TraitPredicate { 15 ( 0.00%) trait_ref: relation.relate(a.trait_ref, b.trait_ref)?, 12 ( 0.00%) constness: relation.relate(a.constness, b.constness)?, 4 ( 0.00%) polarity: relation.relate(a.polarity, b.polarity)?, . }) 21 ( 0.00%) } . } . . impl<'tcx> Relate<'tcx> for ty::Term<'tcx> { . fn relate>( . relation: &mut R, . a: Self, . b: Self, . ) -> RelateResult<'tcx, Self> { -- line 841 ---------------------------------------- 972,355 ( 0.32%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/equate.rs -------------------------------------------------------------------------------- Ir -- line 24 ---------------------------------------- . } . . impl<'tcx> TypeRelation<'tcx> for Equate<'_, '_, 'tcx> { . fn tag(&self) -> &'static str { . "Equate" . } . . fn tcx(&self) -> TyCtxt<'tcx> { 25,139 ( 0.01%) self.fields.tcx() 8,922 ( 0.00%) } . . fn param_env(&self) -> ty::ParamEnv<'tcx> { 73,216 ( 0.02%) self.fields.param_env . } . . fn a_is_expected(&self) -> bool { 63,230 ( 0.02%) self.a_is_expected . } . 430 ( 0.00%) fn relate_item_substs( . &mut self, . _item_def_id: DefId, . a_subst: SubstsRef<'tcx>, . b_subst: SubstsRef<'tcx>, . ) -> RelateResult<'tcx, SubstsRef<'tcx>> { . // N.B., once we are equating types, we don't care about . // variance, so don't try to lookup the variance here. This . // also avoids some cycles (e.g., #41849) since looking up . // variance requires computing types which can require . // performing trait matching (which then performs equality . // unification). . 86 ( 0.00%) relate::relate_substs(self, None, a_subst, b_subst) 516 ( 0.00%) } . . fn relate_with_variance>( . &mut self, . _: ty::Variance, . _info: ty::VarianceDiagInfo<'tcx>, . a: T, . b: T, . ) -> RelateResult<'tcx, T> { . self.relate(a, b) . } . 319,833 ( 0.11%) fn tys(&mut self, a: Ty<'tcx>, b: Ty<'tcx>) -> RelateResult<'tcx, Ty<'tcx>> { . debug!("{}.tys({:?}, {:?})", self.tag(), a, b); 35,537 ( 0.01%) if a == b { . return Ok(a); . } . 52,068 ( 0.02%) let infcx = self.fields.infcx; 52,068 ( 0.02%) let a = infcx.inner.borrow_mut().type_variables().replace_if_possible(a); 52,068 ( 0.02%) let b = infcx.inner.borrow_mut().type_variables().replace_if_possible(b); . . debug!("{}.tys: replacements ({:?}, {:?})", self.tag(), a, b); . 168,297 ( 0.06%) match (a.kind(), b.kind()) { . (&ty::Infer(TyVar(a_id)), &ty::Infer(TyVar(b_id))) => { . infcx.inner.borrow_mut().type_variables().equate(a_id, b_id); . } . 5 ( 0.00%) (&ty::Infer(TyVar(a_id)), _) => { 20 ( 0.00%) self.fields.instantiate(b, RelationDir::EqTo, a_id, self.a_is_expected)?; . } . 8,976 ( 0.00%) (_, &ty::Infer(TyVar(b_id))) => { 44,880 ( 0.01%) self.fields.instantiate(a, RelationDir::EqTo, b_id, self.a_is_expected)?; . } . . _ => { 91,147 ( 0.03%) self.fields.infcx.super_combine_tys(self, a, b)?; . } . } . . Ok(a) 319,833 ( 0.11%) } . 873 ( 0.00%) fn regions( . &mut self, . a: ty::Region<'tcx>, . b: ty::Region<'tcx>, . ) -> RelateResult<'tcx, ty::Region<'tcx>> { . debug!("{}.regions({:?}, {:?})", self.tag(), a, b); 291 ( 0.00%) let origin = Subtype(Box::new(self.fields.trace.clone())); 582 ( 0.00%) self.fields . .infcx . .inner . .borrow_mut() . .unwrap_region_constraints() 582 ( 0.00%) .make_eqregion(origin, a, b); 194 ( 0.00%) Ok(a) 873 ( 0.00%) } . . fn consts( . &mut self, . a: &'tcx ty::Const<'tcx>, . b: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { 88,704 ( 0.03%) self.fields.infcx.super_combine_consts(self, a, b) . } . . fn binders( . &mut self, . a: ty::Binder<'tcx, T>, . b: ty::Binder<'tcx, T>, . ) -> RelateResult<'tcx, ty::Binder<'tcx, T>> . where -- line 131 ---------------------------------------- 125,444 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/consts.rs -------------------------------------------------------------------------------- Ir -- line 13 ---------------------------------------- . mod kind; . mod valtree; . . pub use int::*; . pub use kind::*; . pub use valtree::*; . . /// Typed constant value. 238,277 ( 0.08%) #[derive(Copy, Clone, Debug, Hash, TyEncodable, TyDecodable, Eq, PartialEq, Ord, PartialOrd)] . #[derive(HashStable)] . pub struct Const<'tcx> { 63,766 ( 0.02%) pub ty: Ty<'tcx>, . 63,766 ( 0.02%) pub val: ConstKind<'tcx>, . } . . #[cfg(all(target_arch = "x86_64", target_pointer_width = "64"))] . static_assert_size!(Const<'_>, 48); . . impl<'tcx> Const<'tcx> { . /// Literals and const generic parameters are eagerly converted to a constant, everything else . /// becomes `Unevaluated`. . pub fn from_anon_const(tcx: TyCtxt<'tcx>, def_id: LocalDefId) -> &'tcx Self { 512 ( 0.00%) Self::from_opt_const_arg_anon_const(tcx, ty::WithOptConstParam::unknown(def_id)) . } . 2,048 ( 0.00%) #[instrument(skip(tcx), level = "debug")] 2,048 ( 0.00%) pub fn from_opt_const_arg_anon_const( . tcx: TyCtxt<'tcx>, . def: ty::WithOptConstParam, . ) -> &'tcx Self { . debug!("Const::from_anon_const(def={:?})", def); . 1,024 ( 0.00%) let body_id = match tcx.hir().get_by_def_id(def.did) { 512 ( 0.00%) hir::Node::AnonConst(ac) => ac.body, . _ => span_bug!( . tcx.def_span(def.did.to_def_id()), . "from_anon_const can only process anonymous constants" . ), . }; . 1,536 ( 0.00%) let expr = &tcx.hir().body(body_id).value; . debug!(?expr); . . let ty = tcx.type_of(def.def_id_for_type_of()); . 1,536 ( 0.00%) match Self::try_eval_lit_or_param(tcx, ty, expr) { . Some(v) => v, . None => tcx.mk_const(ty::Const { . val: ty::ConstKind::Unevaluated(ty::Unevaluated { . def: def.to_global(), . substs: InternalSubsts::identity_for_item(tcx, def.did.to_def_id()), . promoted: None, . }), . ty, . }), . } . } . 4,608 ( 0.00%) #[instrument(skip(tcx), level = "debug")] . fn try_eval_lit_or_param( . tcx: TyCtxt<'tcx>, . ty: Ty<'tcx>, . expr: &'tcx hir::Expr<'tcx>, . ) -> Option<&'tcx Self> { . // Unwrap a block, so that e.g. `{ P }` is recognised as a parameter. Const arguments . // currently have to be wrapped in curly brackets, so it's necessary to special-case. 768 ( 0.00%) let expr = match &expr.kind { . hir::ExprKind::Block(block, _) if block.stmts.is_empty() && block.expr.is_some() => { . block.expr.as_ref().unwrap() . } . _ => expr, . }; . 512 ( 0.00%) let lit_input = match expr.kind { 512 ( 0.00%) hir::ExprKind::Lit(ref lit) => Some(LitToConstInput { lit: &lit.node, ty, neg: false }), . hir::ExprKind::Unary(hir::UnOp::Neg, ref expr) => match expr.kind { . hir::ExprKind::Lit(ref lit) => { . Some(LitToConstInput { lit: &lit.node, ty, neg: true }) . } . _ => None, . }, . _ => None, . }; . . if let Some(lit_input) = lit_input { . // If an error occurred, ignore that it's a literal and leave reporting the error up to . // mir. 832 ( 0.00%) match tcx.at(expr.span).lit_to_const(lit_input) { . Ok(c) => return Some(c), . Err(e) => { . tcx.sess.delay_span_bug( . expr.span, . &format!("Const::from_anon_const: couldn't lit_to_const {:?}", e), . ); . } . } -- line 109 ---------------------------------------- -- line 167 ---------------------------------------- . }; . debug_assert!(!ret.has_free_regions()); . ret . } . . /// Interns the given value as a constant. . #[inline] . pub fn from_value(tcx: TyCtxt<'tcx>, val: ConstValue<'tcx>, ty: Ty<'tcx>) -> &'tcx Self { 2,285 ( 0.00%) tcx.mk_const(Self { val: ConstKind::Value(val), ty }) . } . . #[inline] . /// Interns the given scalar as a constant. . pub fn from_scalar(tcx: TyCtxt<'tcx>, val: Scalar, ty: Ty<'tcx>) -> &'tcx Self { . Self::from_value(tcx, ConstValue::Scalar(val), ty) . } . . #[inline] . /// Creates a constant with the given integer value and interns it. . pub fn from_bits(tcx: TyCtxt<'tcx>, bits: u128, ty: ParamEnvAnd<'tcx, Ty<'tcx>>) -> &'tcx Self { 128 ( 0.00%) let size = tcx . .layout_of(ty) . .unwrap_or_else(|e| panic!("could not compute layout for {:?}: {:?}", ty, e)) . .size; . Self::from_scalar(tcx, Scalar::from_uint(bits, size), ty.value) . } . . #[inline] . /// Creates an interned zst constant. . pub fn zero_sized(tcx: TyCtxt<'tcx>, ty: Ty<'tcx>) -> &'tcx Self { . Self::from_scalar(tcx, Scalar::ZST, ty) . } . . #[inline] . /// Creates an interned bool constant. 1,024 ( 0.00%) pub fn from_bool(tcx: TyCtxt<'tcx>, v: bool) -> &'tcx Self { 768 ( 0.00%) Self::from_bits(tcx, v as u128, ParamEnv::empty().and(tcx.types.bool)) 1,024 ( 0.00%) } . . #[inline] . /// Creates an interned usize constant. . pub fn from_usize(tcx: TyCtxt<'tcx>, n: u64) -> &'tcx Self { . Self::from_bits(tcx, n as u128, ParamEnv::empty().and(tcx.types.usize)) . } . . #[inline] -- line 212 ---------------------------------------- -- line 226 ---------------------------------------- . } . . #[inline] . pub fn try_eval_bool(&self, tcx: TyCtxt<'tcx>, param_env: ParamEnv<'tcx>) -> Option { . self.val.eval(tcx, param_env).try_to_bool() . } . . #[inline] 193,536 ( 0.06%) pub fn try_eval_usize(&self, tcx: TyCtxt<'tcx>, param_env: ParamEnv<'tcx>) -> Option { 72,576 ( 0.02%) self.val.eval(tcx, param_env).try_to_machine_usize(tcx) 145,152 ( 0.05%) } . . #[inline] . /// Tries to evaluate the constant if it is `Unevaluated`. If that doesn't succeed, return the . /// unevaluated constant. . pub fn eval(&self, tcx: TyCtxt<'tcx>, param_env: ParamEnv<'tcx>) -> &Const<'tcx> { 389,760 ( 0.13%) if let Some(val) = self.val.try_eval(tcx, param_env) { . match val { . Ok(val) => Const::from_value(tcx, val, self.ty), . Err(ErrorReported) => tcx.const_error(self.ty), . } . } else { . self . } . } -- line 250 ---------------------------------------- 239,524 ( 0.08%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/stacker-0.1.14/src/lib.rs -------------------------------------------------------------------------------- Ir -- line 42 ---------------------------------------- . /// `stack_size` bytes. . /// . /// The closure `f` is guaranteed to run on a stack with at least `red_zone` bytes, and it will be . /// run on the current stack if there's space available. . #[inline(always)] . pub fn maybe_grow R>(red_zone: usize, stack_size: usize, callback: F) -> R { . // if we can't guess the remaining stack (unsupported on some platforms) we immediately grow . // the stack and then cache the new stack size (which we do know now because we allocated it. 101,150 ( 0.03%) let enough_space = match remaining_stack() { . Some(remaining) => remaining >= red_zone, . None => false, . }; 142,998 ( 0.05%) if enough_space { 4,886 ( 0.00%) callback() . } else { . grow(stack_size, callback) . } . } . . /// Always creates a new stack for the passed closure to run on. . /// The closure will still be on the same thread as the caller of `grow`. . /// This will allocate a new stack with at least `stack_size` bytes. -- line 63 ---------------------------------------- -- line 82 ---------------------------------------- . _grow(stack_size, dyn_callback); . ret.unwrap() . } . . /// Queries the amount of remaining stack as interpreted by this library. . /// . /// This function will return the amount of stack space left which will be used . /// to determine whether a stack switch should be made or not. 95,332 ( 0.03%) pub fn remaining_stack() -> Option { . let current_ptr = current_stack_ptr(); 95,332 ( 0.03%) get_stack_limit().map(|limit| current_ptr - limit) 190,664 ( 0.06%) } . . psm_stack_information! ( . yes { . fn current_stack_ptr() -> usize { 95,332 ( 0.03%) psm::stack_pointer() as usize . } . } . no { . #[inline(always)] . fn current_stack_ptr() -> usize { . unsafe { . let mut x = std::mem::MaybeUninit::::uninit(); . // Unlikely to be ever exercised. As a fallback we execute a volatile read to a -- line 106 ---------------------------------------- -- line 111 ---------------------------------------- . x.as_ptr() as usize . } . } . } . ); . . thread_local! { . static STACK_LIMIT: Cell> = Cell::new(unsafe { 1 ( 0.00%) guess_os_stack_limit() . }) . } . . #[inline(always)] . fn get_stack_limit() -> Option { . STACK_LIMIT.with(|s| s.get()) . } . -- line 127 ---------------------------------------- -- line 403 ---------------------------------------- . VirtualQuery( . psm::stack_pointer() as *const _, . mi.as_mut_ptr(), . std::mem::size_of::() as SIZE_T, . ); . Some(mi.assume_init().AllocationBase as usize + get_thread_stack_guarantee() + 0x1000) . } . } else if #[cfg(any(target_os = "linux", target_os="solaris", target_os = "netbsd"))] { 2 ( 0.00%) unsafe fn guess_os_stack_limit() -> Option { . let mut attr = std::mem::MaybeUninit::::uninit(); 4 ( 0.00%) assert_eq!(libc::pthread_attr_init(attr.as_mut_ptr()), 0); 7 ( 0.00%) assert_eq!(libc::pthread_getattr_np(libc::pthread_self(), . attr.as_mut_ptr()), 0); 1 ( 0.00%) let mut stackaddr = std::ptr::null_mut(); 4 ( 0.00%) let mut stacksize = 0; 4 ( 0.00%) assert_eq!(libc::pthread_attr_getstack( . attr.as_ptr(), &mut stackaddr, &mut stacksize . ), 0); 4 ( 0.00%) assert_eq!(libc::pthread_attr_destroy(attr.as_mut_ptr()), 0); 1 ( 0.00%) Some(stackaddr as usize) 3 ( 0.00%) } . } else if #[cfg(any(target_os = "freebsd", target_os = "dragonfly"))] { . unsafe fn guess_os_stack_limit() -> Option { . let mut attr = std::mem::MaybeUninit::::uninit(); . assert_eq!(libc::pthread_attr_init(attr.as_mut_ptr()), 0); . assert_eq!(libc::pthread_attr_get_np(libc::pthread_self(), attr.as_mut_ptr()), 0); . let mut stackaddr = std::ptr::null_mut(); . let mut stacksize = 0; . assert_eq!(libc::pthread_attr_getstack( -- line 431 ---------------------------------------- 61,114 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/type_variable.rs -------------------------------------------------------------------------------- Ir -- line 44 ---------------------------------------- . /// Convert from a specific kind of undo to the more general UndoLog . impl<'tcx> From for UndoLog<'tcx> { . fn from(l: Instantiate) -> Self { . UndoLog::Values(sv::UndoLog::Other(l)) . } . } . . impl<'tcx> Rollback> for TypeVariableStorage<'tcx> { 84,379 ( 0.03%) fn reverse(&mut self, undo: UndoLog<'tcx>) { 354,403 ( 0.12%) match undo { 67,492 ( 0.02%) UndoLog::EqRelation(undo) => self.eq_relations.reverse(undo), 49,902 ( 0.02%) UndoLog::SubRelation(undo) => self.sub_relations.reverse(undo), 51,364 ( 0.02%) UndoLog::Values(undo) => self.values.reverse(undo), . } 168,758 ( 0.06%) } . } . . pub struct TypeVariableStorage<'tcx> { . values: sv::SnapshotVecStorage, . . /// Two variables are unified in `eq_relations` when we have a . /// constraint `?X == ?Y`. This table also stores, for each key, . /// the known value. -- line 66 ---------------------------------------- -- line 136 ---------------------------------------- . DynReturnFn, . LatticeVariable, . } . . pub(crate) struct TypeVariableData { . origin: TypeVariableOrigin, . } . 183,356 ( 0.06%) #[derive(Copy, Clone, Debug)] . pub enum TypeVariableValue<'tcx> { . Known { value: Ty<'tcx> }, . Unknown { universe: ty::UniverseIndex }, . } . . impl<'tcx> TypeVariableValue<'tcx> { . /// If this value is known, returns the type it is known to be. . /// Otherwise, `None`. . pub fn known(&self) -> Option> { 95,624 ( 0.03%) match *self { . TypeVariableValue::Unknown { .. } => None, . TypeVariableValue::Known { value } => Some(value), . } . } . . pub fn is_unknown(&self) -> bool { . match *self { . TypeVariableValue::Unknown { .. } => true, -- line 162 ---------------------------------------- -- line 166 ---------------------------------------- . } . . pub(crate) struct Instantiate; . . pub(crate) struct Delegate; . . impl<'tcx> TypeVariableStorage<'tcx> { . pub fn new() -> TypeVariableStorage<'tcx> { 17,151 ( 0.01%) TypeVariableStorage { . values: sv::SnapshotVecStorage::new(), . eq_relations: ut::UnificationTableStorage::new(), . sub_relations: ut::UnificationTableStorage::new(), . } . } . . #[inline] . pub(crate) fn with_log<'a>( -- line 182 ---------------------------------------- -- line 188 ---------------------------------------- . } . . impl<'tcx> TypeVariableTable<'_, 'tcx> { . /// Returns the origin that was given when `vid` was created. . /// . /// Note that this function does not return care whether . /// `vid` has been unified with something else or not. . pub fn var_origin(&self, vid: ty::TyVid) -> &TypeVariableOrigin { 8 ( 0.00%) &self.storage.values.get(vid.as_usize()).origin . } . . /// Records that `a == b`, depending on `dir`. . /// . /// Precondition: neither `a` nor `b` are known. . pub fn equate(&mut self, a: ty::TyVid, b: ty::TyVid) { . debug_assert!(self.probe(a).is_unknown()); . debug_assert!(self.probe(b).is_unknown()); 28,224 ( 0.01%) self.eq_relations().union(a, b); 24,192 ( 0.01%) self.sub_relations().union(a, b); . } . . /// Records that `a <: b`, depending on `dir`. . /// . /// Precondition: neither `a` nor `b` are known. . pub fn sub(&mut self, a: ty::TyVid, b: ty::TyVid) { . debug_assert!(self.probe(a).is_unknown()); . debug_assert!(self.probe(b).is_unknown()); 72 ( 0.00%) self.sub_relations().union(a, b); . } . . /// Instantiates `vid` with the type `ty`. . /// . /// Precondition: `vid` must not have been previously instantiated. 45,910 ( 0.02%) pub fn instantiate(&mut self, vid: ty::TyVid, ty: Ty<'tcx>) { . let vid = self.root_var(vid); . debug_assert!(self.probe(vid).is_unknown()); . debug_assert!( . self.eq_relations().probe_value(vid).is_unknown(), . "instantiating type variable `{:?}` twice: new-value = {:?}, old-value={:?}", . vid, . ty, . self.eq_relations().probe_value(vid) . ); 64,274 ( 0.02%) self.eq_relations().union_value(vid, TypeVariableValue::Known { value: ty }); . . // Hack: we only need this so that `types_escaping_snapshot` . // can see what has been unified; see the Delegate impl for . // more details. . self.undo_log.push(Instantiate); 45,910 ( 0.02%) } . . /// Creates a new type variable. . /// . /// - `diverging`: indicates if this is a "diverging" type . /// variable, e.g., one created as the type of a `return` . /// expression. The code in this module doesn't care if a . /// variable is diverging, but the main Rust type-checker will . /// sometimes "unify" such variables with the `!` or `()` types. . /// - `origin`: indicates *why* the type variable was created. . /// The code in this module doesn't care, but it can be useful . /// for improving error messages. 103,464 ( 0.03%) pub fn new_var( . &mut self, . universe: ty::UniverseIndex, . origin: TypeVariableOrigin, . ) -> ty::TyVid { 155,196 ( 0.05%) let eq_key = self.eq_relations().new_key(TypeVariableValue::Unknown { universe }); . 86,220 ( 0.03%) let sub_key = self.sub_relations().new_key(()); 17,244 ( 0.01%) assert_eq!(eq_key.vid, sub_key); . 155,196 ( 0.05%) let index = self.values().push(TypeVariableData { origin }); 68,976 ( 0.02%) assert_eq!(eq_key.vid.as_u32(), index as u32); . . debug!("new_var(index={:?}, universe={:?}, origin={:?}", eq_key.vid, universe, origin,); . . eq_key.vid 120,708 ( 0.04%) } . . /// Returns the number of type variables created thus far. . pub fn num_vars(&self) -> usize { 22 ( 0.00%) self.storage.values.len() . } . . /// Returns the "root" variable of `vid` in the `eq_relations` . /// equivalence table. All type variables that have been equated . /// will yield the same root variable (per the union-find . /// algorithm), so `root_var(a) == root_var(b)` implies that `a == . /// b` (transitively). . pub fn root_var(&mut self, vid: ty::TyVid) -> ty::TyVid { 27,831 ( 0.01%) self.eq_relations().find(vid).vid . } . . /// Returns the "root" variable of `vid` in the `sub_relations` . /// equivalence table. All type variables that have been are . /// related via equality or subtyping will yield the same root . /// variable (per the union-find algorithm), so `sub_root_var(a) . /// == sub_root_var(b)` implies that: . /// . /// exists X. (a <: X || X <: a) && (b <: X || X <: b) 2 ( 0.00%) pub fn sub_root_var(&mut self, vid: ty::TyVid) -> ty::TyVid { 27,609 ( 0.01%) self.sub_relations().find(vid) 4 ( 0.00%) } . . /// Returns `true` if `a` and `b` have same "sub-root" (i.e., exists some . /// type X such that `forall i in {a, b}. (i <: X || X <: i)`. . pub fn sub_unified(&mut self, a: ty::TyVid, b: ty::TyVid) -> bool { . self.sub_root_var(a) == self.sub_root_var(b) . } . . /// Retrieves the type to which `vid` has been instantiated, if . /// any. 372,170 ( 0.12%) pub fn probe(&mut self, vid: ty::TyVid) -> TypeVariableValue<'tcx> { . self.inlined_probe(vid) 372,170 ( 0.12%) } . . /// An always-inlined variant of `probe`, for very hot call sites. . #[inline(always)] . pub fn inlined_probe(&mut self, vid: ty::TyVid) -> TypeVariableValue<'tcx> { 149,848 ( 0.05%) self.eq_relations().inlined_probe_value(vid) . } . . /// If `t` is a type-inference variable, and it has been . /// instantiated, then return the with which it was . /// instantiated. Otherwise, returns `t`. . pub fn replace_if_possible(&mut self, t: Ty<'tcx>) -> Ty<'tcx> { 139,846 ( 0.05%) match *t.kind() { 104,018 ( 0.03%) ty::Infer(ty::TyVar(v)) => match self.probe(v) { . TypeVariableValue::Unknown { .. } => t, . TypeVariableValue::Known { value } => value, . }, . _ => t, . } . } . . #[inline] -- line 323 ---------------------------------------- -- line 324 ---------------------------------------- . fn values( . &mut self, . ) -> sv::SnapshotVec, &mut InferCtxtUndoLogs<'tcx>> { . self.storage.values.with_log(self.undo_log) . } . . #[inline] . fn eq_relations(&mut self) -> super::UnificationTable<'_, 'tcx, TyVidEqKey<'tcx>> { 307,197 ( 0.10%) self.storage.eq_relations.with_log(self.undo_log) . } . . #[inline] . fn sub_relations(&mut self) -> super::UnificationTable<'_, 'tcx, ty::TyVid> { 30,515 ( 0.01%) self.storage.sub_relations.with_log(self.undo_log) . } . . /// Returns a range of the type variables created during the snapshot. 110 ( 0.00%) pub fn vars_since_snapshot( . &mut self, . value_count: usize, . ) -> (Range, Vec) { . let range = TyVid::from_usize(value_count)..TyVid::from_usize(self.num_vars()); 132 ( 0.00%) ( . range.start..range.end, . (range.start.as_usize()..range.end.as_usize()) . .map(|index| self.storage.values.get(index).origin) . .collect(), . ) 132 ( 0.00%) } . . /// Returns indices of all variables that are not yet . /// instantiated. . pub fn unsolved_variables(&mut self) -> Vec { . (0..self.storage.values.len()) . .filter_map(|i| { . let vid = ty::TyVid::from_usize(i); 344 ( 0.00%) match self.probe(vid) { . TypeVariableValue::Unknown { .. } => Some(vid), . TypeVariableValue::Known { .. } => None, . } . }) . .collect() . } . } . -- line 368 ---------------------------------------- -- line 391 ---------------------------------------- . /// These structs (a newtyped TyVid) are used as the unification key . /// for the `eq_relations`; they carry a `TypeVariableValue` along . /// with them. . #[derive(Copy, Clone, Debug, PartialEq, Eq)] . pub(crate) struct TyVidEqKey<'tcx> { . vid: ty::TyVid, . . // in the table, we map each ty-vid to one of these: 106,459 ( 0.04%) phantom: PhantomData>, . } . . impl<'tcx> From for TyVidEqKey<'tcx> { . #[inline] // make this function eligible for inlining - it is quite hot. . fn from(vid: ty::TyVid) -> Self { . TyVidEqKey { vid, phantom: PhantomData } . } . } -- line 407 ---------------------------------------- -- line 419 ---------------------------------------- . "TyVidEqKey" . } . } . . impl<'tcx> ut::UnifyValue for TypeVariableValue<'tcx> { . type Error = ut::NoError; . . fn unify_values(value1: &Self, value2: &Self) -> Result { 56,888 ( 0.02%) match (value1, value2) { . // We never equate two type variables, both of which . // have known types. Instead, we recursively equate . // those types. . (&TypeVariableValue::Known { .. }, &TypeVariableValue::Known { .. }) => { . bug!("equating two type variables, both of which have known types") . } . . // If one side is known, prefer that one. . (&TypeVariableValue::Known { .. }, &TypeVariableValue::Unknown { .. }) => Ok(*value1), . (&TypeVariableValue::Unknown { .. }, &TypeVariableValue::Known { .. }) => Ok(*value2), . . // If both sides are *unknown*, it hardly matters, does it? . ( 4,032 ( 0.00%) &TypeVariableValue::Unknown { universe: universe1 }, 4,032 ( 0.00%) &TypeVariableValue::Unknown { universe: universe2 }, . ) => { . // If we unify two unbound variables, ?T and ?U, then whatever . // value they wind up taking (which must be the same value) must . // be nameable by both universes. Therefore, the resulting . // universe is the minimum of the two universes, because that is . // the one which contains the fewest names in scope. . let universe = cmp::min(universe1, universe2); 16,128 ( 0.01%) Ok(TypeVariableValue::Unknown { universe }) . } . } . } . } 58,670 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/core/src/iter/adapters/zip.rs -------------------------------------------------------------------------------- Ir -- line 63 ---------------------------------------- . /// assert!(iter.next().is_none()); . /// ``` . #[stable(feature = "iter_zip", since = "1.59.0")] . pub fn zip(a: A, b: B) -> Zip . where . A: IntoIterator, . B: IntoIterator, . { 718 ( 0.00%) ZipImpl::new(a.into_iter(), b.into_iter()) . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl Iterator for Zip . where . A: Iterator, . B: Iterator, . { -- line 79 ---------------------------------------- -- line 147 ---------------------------------------- . index: 0, // unused . len: 0, // unused . a_len: 0, // unused . } . } . . #[inline] . default fn next(&mut self) -> Option<(A::Item, B::Item)> { 1,976 ( 0.00%) let x = self.a.next()?; 1,826 ( 0.00%) let y = self.b.next()?; 96 ( 0.00%) Some((x, y)) 68 ( 0.00%) } . . #[inline] . default fn nth(&mut self, n: usize) -> Option { . self.super_nth(n) . } . . #[inline] . default fn next_back(&mut self) -> Option<(A::Item, B::Item)> -- line 166 ---------------------------------------- -- line 263 ---------------------------------------- . fn new(a: A, b: B) -> Self { . let a_len = a.size(); . let len = cmp::min(a_len, b.size()); . Zip { a, b, index: 0, len, a_len } . } . . #[inline] . fn next(&mut self) -> Option<(A::Item, B::Item)> { 351,607 ( 0.12%) if self.index < self.len { . let i = self.index; . // since get_unchecked executes code which can panic we increment the counters beforehand . // so that the same index won't be accessed twice, as required by TrustedRandomAccess 92,664 ( 0.03%) self.index += 1; . // SAFETY: `i` is smaller than `self.len`, thus smaller than `self.a.len()` and `self.b.len()` . unsafe { . Some((self.a.__iterator_get_unchecked(i), self.b.__iterator_get_unchecked(i))) . } . } else if A::MAY_HAVE_SIDE_EFFECT && self.index < self.a_len { . let i = self.index; . // as above, increment before executing code that may panic . self.index += 1; -- line 283 ---------------------------------------- -- line 290 ---------------------------------------- . None . } else { . None . } . } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 42,214 ( 0.01%) let len = self.len - self.index; . (len, Some(len)) . } . . #[inline] . fn nth(&mut self, n: usize) -> Option { . let delta = cmp::min(n, self.len - self.index); . let end = self.index + delta; . while self.index < end { -- line 306 ---------------------------------------- -- line 555 ---------------------------------------- . /// Same requirements calling `get_unchecked` directly. . #[doc(hidden)] . pub(in crate::iter::adapters) unsafe fn try_get_unchecked(it: &mut I, idx: usize) -> I::Item . where . I: Iterator, . { . // SAFETY: the caller must uphold the contract for . // `Iterator::__iterator_get_unchecked`. 14 ( 0.00%) unsafe { it.try_get_unchecked(idx) } . } . . unsafe trait SpecTrustedRandomAccess: Iterator { . /// If `Self: TrustedRandomAccess`, it must be safe to call . /// `Iterator::__iterator_get_unchecked(self, index)`. . unsafe fn try_get_unchecked(&mut self, index: usize) -> Self::Item; . } . -- line 571 ---------------------------------------- 77,289 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/rustc-hash-1.1.0/src/lib.rs -------------------------------------------------------------------------------- Ir -- line 71 ---------------------------------------- . fn default() -> FxHasher { . FxHasher { hash: 0 } . } . } . . impl FxHasher { . #[inline] . fn add_to_hash(&mut self, i: usize) { 332,275 ( 0.11%) self.hash = self.hash.rotate_left(5).bitxor(i).wrapping_mul(K); . } . } . . impl Hasher for FxHasher { . #[inline] 26,914 ( 0.01%) fn write(&mut self, mut bytes: &[u8]) { . #[cfg(target_pointer_width = "32")] . let read_usize = |bytes: &[u8]| u32::from_ne_bytes(bytes[..4].try_into().unwrap()); . #[cfg(target_pointer_width = "64")] . let read_usize = |bytes: &[u8]| u64::from_ne_bytes(bytes[..8].try_into().unwrap()); . 66,287 ( 0.02%) let mut hash = FxHasher { hash: self.hash }; . assert!(size_of::() <= 8); 1,196,768 ( 0.40%) while bytes.len() >= size_of::() { . hash.add_to_hash(read_usize(bytes) as usize); . bytes = &bytes[size_of::()..]; . } 132,382 ( 0.04%) if (size_of::() > 4) && (bytes.len() >= 4) { . hash.add_to_hash(u32::from_ne_bytes(bytes[..4].try_into().unwrap()) as usize); . bytes = &bytes[4..]; . } 132,382 ( 0.04%) if (size_of::() > 2) && bytes.len() >= 2 { . hash.add_to_hash(u16::from_ne_bytes(bytes[..2].try_into().unwrap()) as usize); . bytes = &bytes[2..]; . } 142,209 ( 0.05%) if (size_of::() > 1) && bytes.len() >= 1 { 20,710 ( 0.01%) hash.add_to_hash(bytes[0] as usize); . } 27,042 ( 0.01%) self.hash = hash.hash; 26,914 ( 0.01%) } . . #[inline] . fn write_u8(&mut self, i: u8) { 388 ( 0.00%) self.add_to_hash(i as usize); . } . . #[inline] . fn write_u16(&mut self, i: u16) { 352 ( 0.00%) self.add_to_hash(i as usize); . } . . #[inline] . fn write_u32(&mut self, i: u32) { 230,550 ( 0.08%) self.add_to_hash(i as usize); . } . . #[cfg(target_pointer_width = "32")] . #[inline] . fn write_u64(&mut self, i: u64) { . self.add_to_hash(i as usize); . self.add_to_hash((i >> 32) as usize); . } -- line 131 ---------------------------------------- 1 ( 0.00%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/core/src/cell.rs -------------------------------------------------------------------------------- Ir -- line 347 ---------------------------------------- . /// let c = Cell::new(5); . /// . /// c.set(10); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn set(&self, val: T) { . let old = self.replace(val); 552 ( 0.00%) drop(old); . } . . /// Swaps the values of two `Cell`s. . /// Difference with `std::mem::swap` is that this function doesn't require `&mut` reference. . /// . /// # Examples . /// . /// ``` -- line 363 ---------------------------------------- -- line 434 ---------------------------------------- . /// . /// let five = c.get(); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn get(&self) -> T { . // SAFETY: This can cause data races if called from a separate thread, . // but `Cell` is `!Sync` so this won't happen. 16,663 ( 0.01%) unsafe { *self.value.get() } . } . . /// Updates the contained value using a function and returns the new value. . /// . /// # Examples . /// . /// ``` . /// #![feature(cell_update)] -- line 450 ---------------------------------------- -- line 689 ---------------------------------------- . . #[inline(always)] . fn is_writing(x: BorrowFlag) -> bool { . x < UNUSED . } . . #[inline(always)] . fn is_reading(x: BorrowFlag) -> bool { 28,832 ( 0.01%) x > UNUSED . } . . impl RefCell { . /// Creates a new `RefCell` containing `value`. . /// . /// # Examples . /// . /// ``` -- line 705 ---------------------------------------- -- line 706 ---------------------------------------- . /// use std::cell::RefCell; . /// . /// let c = RefCell::new(5); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_refcell_new", since = "1.24.0")] . #[inline] . pub const fn new(value: T) -> RefCell { 29,513 ( 0.01%) RefCell { 17,263 ( 0.01%) value: UnsafeCell::new(value), . borrow: Cell::new(UNUSED), . #[cfg(feature = "debug_refcell")] . borrowed_at: Cell::new(None), . } . } . . /// Consumes the `RefCell`, returning the wrapped value. . /// -- line 723 ---------------------------------------- -- line 731 ---------------------------------------- . /// let five = c.into_inner(); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_unstable(feature = "const_cell_into_inner", issue = "78729")] . #[inline] . pub const fn into_inner(self) -> T { . // Since this function takes `self` (the `RefCell`) by value, the . // compiler statically verifies that it is not currently borrowed. 68 ( 0.00%) self.value.into_inner() . } . . /// Replaces the wrapped value with a new one, returning the old value, . /// without deinitializing either one. . /// . /// This function corresponds to [`std::mem::replace`](../mem/fn.replace.html). . /// . /// # Panics -- line 747 ---------------------------------------- -- line 845 ---------------------------------------- . /// let c = RefCell::new(5); . /// . /// let m = c.borrow_mut(); . /// let b = c.borrow(); // this causes a panic . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . #[track_caller] 113 ( 0.00%) pub fn borrow(&self) -> Ref<'_, T> { . self.try_borrow().expect("already mutably borrowed") 339 ( 0.00%) } . . /// Immutably borrows the wrapped value, returning an error if the value is currently mutably . /// borrowed. . /// . /// The borrow lasts until the returned `Ref` exits scope. Multiple immutable borrows can be . /// taken out at the same time. . /// . /// This is the non-panicking variant of [`borrow`](#method.borrow). -- line 863 ---------------------------------------- -- line 937 ---------------------------------------- . /// let c = RefCell::new(5); . /// let m = c.borrow(); . /// . /// let b = c.borrow_mut(); // this causes a panic . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] . #[track_caller] 434 ( 0.00%) pub fn borrow_mut(&self) -> RefMut<'_, T> { . self.try_borrow_mut().expect("already borrowed") 1,302 ( 0.00%) } . . /// Mutably borrows the wrapped value, returning an error if the value is currently borrowed. . /// . /// The borrow lasts until the returned `RefMut` or all `RefMut`s derived . /// from it exit scope. The value cannot be borrowed while this borrow is . /// active. . /// . /// This is the non-panicking variant of [`borrow_mut`](#method.borrow_mut). -- line 955 ---------------------------------------- -- line 975 ---------------------------------------- . match BorrowRefMut::new(&self.borrow) { . Some(b) => { . #[cfg(feature = "debug_refcell")] . { . self.borrowed_at.set(Some(crate::panic::Location::caller())); . } . . // SAFETY: `BorrowRef` guarantees unique access. 22 ( 0.00%) Ok(RefMut { value: unsafe { &mut *self.value.get() }, borrow: b }) . } . None => Err(BorrowMutError { . // If a borrow occurred, then we must already have an outstanding borrow, . // so `borrowed_at` will be `Some` . #[cfg(feature = "debug_refcell")] . location: self.borrowed_at.get().unwrap(), . }), . } -- line 991 ---------------------------------------- -- line 1254 ---------------------------------------- . . struct BorrowRef<'b> { . borrow: &'b Cell, . } . . impl<'b> BorrowRef<'b> { . #[inline] . fn new(borrow: &'b Cell) -> Option> { 52,995 ( 0.02%) let b = borrow.get().wrapping_add(1); 27,801 ( 0.01%) if !is_reading(b) { . // Incrementing borrow can result in a non-reading value (<= 0) in these cases: . // 1. It was < 0, i.e. there are writing borrows, so we can't allow a read borrow . // due to Rust's reference aliasing rules . // 2. It was isize::MAX (the max amount of reading borrows) and it overflowed . // into isize::MIN (the max amount of writing borrows) so we can't allow . // an additional read borrow because isize can't represent so many read borrows . // (this can only happen if you mem::forget more than a small constant amount of . // `Ref`s, which is not good practice) -- line 1271 ---------------------------------------- -- line 1279 ---------------------------------------- . Some(BorrowRef { borrow }) . } . } . } . . impl Drop for BorrowRef<'_> { . #[inline] . fn drop(&mut self) { 26,100 ( 0.01%) let borrow = self.borrow.get(); . debug_assert!(is_reading(borrow)); 52,337 ( 0.02%) self.borrow.set(borrow - 1); . } . } . . impl Clone for BorrowRef<'_> { . #[inline] . fn clone(&self) -> Self { . // Since this Ref exists, we know the borrow flag . // is a reading borrow. -- line 1297 ---------------------------------------- -- line 1645 ---------------------------------------- . . struct BorrowRefMut<'b> { . borrow: &'b Cell, . } . . impl Drop for BorrowRefMut<'_> { . #[inline] . fn drop(&mut self) { 647,429 ( 0.22%) let borrow = self.borrow.get(); . debug_assert!(is_writing(borrow)); 1,319,312 ( 0.44%) self.borrow.set(borrow + 1); . } . } . . impl<'b> BorrowRefMut<'b> { . #[inline] . fn new(borrow: &'b Cell) -> Option> { . // NOTE: Unlike BorrowRefMut::clone, new is called to create the initial . // mutable reference, and so there must currently be no existing . // references. Thus, while clone increments the mutable refcount, here . // we explicitly only allow going from UNUSED to UNUSED - 1. 1,367,577 ( 0.45%) match borrow.get() { . UNUSED => { . borrow.set(UNUSED - 1); . Some(BorrowRefMut { borrow }) . } . _ => None, . } . } . -- line 1674 ---------------------------------------- -- line 1711 ---------------------------------------- . self.value . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl DerefMut for RefMut<'_, T> { . #[inline] . fn deref_mut(&mut self) -> &mut T { 136 ( 0.00%) self.value . } . } . . #[unstable(feature = "coerce_unsized", issue = "27732")] . impl<'b, T: ?Sized + Unsize, U: ?Sized> CoerceUnsized> for RefMut<'b, T> {} . . #[stable(feature = "std_guard_impls", since = "1.20.0")] . impl fmt::Display for RefMut<'_, T> { -- line 1727 ---------------------------------------- -- line 1909 ---------------------------------------- . /// ``` . #[inline(always)] . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_unsafecell_get", since = "1.32.0")] . pub const fn get(&self) -> *mut T { . // We can just cast the pointer from `UnsafeCell` to `T` because of . // #[repr(transparent)]. This exploits libstd's special status, there is . // no guarantee for user code that this will work in future versions of the compiler! 370,112 ( 0.12%) self as *const UnsafeCell as *const T as *mut T . } . . /// Returns a mutable reference to the underlying data. . /// . /// This call borrows the `UnsafeCell` mutably (at compile-time) which . /// guarantees that we possess the only reference. . /// . /// # Examples -- line 1925 ---------------------------------------- 895,540 ( 0.30%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/mir/interpret/value.rs -------------------------------------------------------------------------------- Ir -- line 20 ---------------------------------------- . // the value lives here, at offset 0, and that allocation definitely is an `AllocKind::Memory` . // (so you can use `AllocMap::unwrap_memory`). . pub alloc_id: AllocId, . pub ty: Ty<'tcx>, . } . . /// Represents a constant value in Rust. `Scalar` and `Slice` are optimizations for . /// array length computations, enum discriminants and the pattern matching logic. 836,857 ( 0.28%) #[derive(Copy, Clone, Debug, Eq, PartialEq, PartialOrd, Ord, TyEncodable, TyDecodable, Hash)] . #[derive(HashStable)] . pub enum ConstValue<'tcx> { . /// Used only for types with `layout::abi::Scalar` ABI and ZSTs. . /// . /// Not using the enum `Value` to encode that this must not be `Uninit`. . Scalar(Scalar), . . /// Used only for `&[u8]` and `&str` 8 ( 0.00%) Slice { data: &'tcx Allocation, start: usize, end: usize }, . . /// A value not represented/representable by `Scalar` or `Slice` . ByRef { . /// The backing memory of the value, may contain more memory than needed for just the value . /// in order to share `Allocation`s between values . alloc: &'tcx Allocation, . /// Offset into `alloc` . offset: Size, -- line 45 ---------------------------------------- -- line 62 ---------------------------------------- . } . }) . } . } . . impl<'tcx> ConstValue<'tcx> { . #[inline] . pub fn try_to_scalar(&self) -> Option> { 48,384 ( 0.02%) match *self { . ConstValue::ByRef { .. } | ConstValue::Slice { .. } => None, 24,192 ( 0.01%) ConstValue::Scalar(val) => Some(val), . } . } . . pub fn try_to_scalar_int(&self) -> Option { . Some(self.try_to_scalar()?.assert_int()) . } . . pub fn try_to_bits(&self, size: Size) -> Option { . self.try_to_scalar_int()?.to_bits(size).ok() . } . . pub fn try_to_bool(&self) -> Option { . self.try_to_scalar_int()?.try_into().ok() . } . 48,384 ( 0.02%) pub fn try_to_machine_usize(&self, tcx: TyCtxt<'tcx>) -> Option { 362,880 ( 0.12%) self.try_to_scalar_int()?.try_to_machine_usize(tcx).ok() 72,576 ( 0.02%) } . . pub fn try_to_bits_for_ty( . &self, . tcx: TyCtxt<'tcx>, . param_env: ParamEnv<'tcx>, . ty: Ty<'tcx>, . ) -> Option { . let size = tcx.layout_of(param_env.with_reveal_all_normalized(tcx).and(ty)).ok()?.size; -- line 98 ---------------------------------------- -- line 114 ---------------------------------------- . . /// A `Scalar` represents an immediate, primitive value existing outside of a . /// `memory::Allocation`. It is in many ways like a small chunk of an `Allocation`, up to 16 bytes in . /// size. Like a range of bytes in an `Allocation`, a `Scalar` can either represent the raw bytes . /// of a simple value or a pointer into another `Allocation` . /// . /// These variants would be private if there was a convenient way to achieve that in Rust. . /// Do *not* match on a `Scalar`! Use the various `to_*` methods instead. 492,646 ( 0.16%) #[derive(Clone, Copy, Eq, PartialEq, Ord, PartialOrd, TyEncodable, TyDecodable, Hash)] . #[derive(HashStable)] . pub enum Scalar { . /// The raw bytes of a simple value. 261,016 ( 0.09%) Int(ScalarInt), . . /// A pointer into an `Allocation`. An `Allocation` in the `memory` module has a list of . /// relocations, but a `Scalar` is only large enough to contain one, so we just represent the . /// relocation and its associated offset together as a `Pointer` here. . /// . /// We also store the size of the pointer, such that a `Scalar` always knows how big it is. . /// The size is always the pointer size of the current target, but this is not information . /// that we always have readily available. -- line 134 ---------------------------------------- -- line 214 ---------------------------------------- . . #[inline] . pub fn try_from_uint(i: impl Into, size: Size) -> Option { . ScalarInt::try_from_uint(i, size).map(Scalar::Int) . } . . #[inline] . pub fn from_uint(i: impl Into, size: Size) -> Self { 256 ( 0.00%) let i = i.into(); . Self::try_from_uint(i, size) . .unwrap_or_else(|| bug!("Unsigned value {:#x} does not fit in {} bits", i, size.bits())) . } . . #[inline] . pub fn from_u8(i: u8) -> Self { . Scalar::Int(i.into()) . } -- line 230 ---------------------------------------- -- line 308 ---------------------------------------- . /// Fundamental scalar-to-int (cast) operation. Many convenience wrappers exist below, that you . /// likely want to use instead. . /// . /// Will perform ptr-to-int casts if needed and possible. . /// If that fails, we know the offset is relative, so we return an "erased" Scalar . /// (which is useful for error messages but not much else). . #[inline] . pub fn try_to_int(self) -> Result> { 48,384 ( 0.02%) match self { . Scalar::Int(int) => Ok(int), . Scalar::Ptr(ptr, sz) => { . if Tag::OFFSET_IS_ADDR { . Ok(ScalarInt::try_from_uint(ptr.offset.bytes(), Size::from_bytes(sz)).unwrap()) . } else { . // We know `offset` is relative, since `OFFSET_IS_ADDR == false`. . let (tag, offset) = ptr.into_parts(); . Err(Scalar::Ptr(Pointer::new(tag.get_alloc_id(), offset), sz)) . } . } . } . } . . #[inline(always)] . pub fn assert_int(self) -> ScalarInt { 48,384 ( 0.02%) self.try_to_int().unwrap() . } . . /// This throws UB (instead of ICEing) on a size mismatch since size mismatches can arise in . /// Miri when someone declares a function that we shim (such as `malloc`) with a wrong type. . #[inline] . pub fn to_bits(self, target_size: Size) -> InterpResult<'tcx, u128> { . assert_ne!(target_size.bytes(), 0, "you should never look at the bits of a ZST"); . self.try_to_int().map_err(|_| err_unsup!(ReadPointerAsBytes))?.to_bits(target_size).map_err( -- line 340 ---------------------------------------- 125,450 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/rustc_entry.rs -------------------------------------------------------------------------------- Ir -- line 26 ---------------------------------------- . /// } . /// . /// assert_eq!(letters[&'s'], 2); . /// assert_eq!(letters[&'t'], 3); . /// assert_eq!(letters[&'u'], 1); . /// assert_eq!(letters.get(&'y'), None); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 433,299 ( 0.14%) pub fn rustc_entry(&mut self, key: K) -> RustcEntry<'_, K, V, A> { . let hash = make_insert_hash(&self.hash_builder, &key); 140 ( 0.00%) if let Some(elem) = self.table.find(hash, |q| q.0.eq(&key)) { 22,993 ( 0.01%) RustcEntry::Occupied(RustcOccupiedEntry { 29,302 ( 0.01%) key: Some(key), . elem, . table: &mut self.table, . }) . } else { . // Ideally we would put this in VacantEntry::insert, but Entry is not . // generic over the BuildHasher and adding a generic parameter would be . // a breaking change. . self.reserve(1); . 123,804 ( 0.04%) RustcEntry::Vacant(RustcVacantEntry { . hash, 9,881 ( 0.00%) key, . table: &mut self.table, . }) . } 336,232 ( 0.11%) } . } . . /// A view into a single entry in a map, which may either be vacant or occupied. . /// . /// This `enum` is constructed from the [`entry`] method on [`HashMap`]. . /// . /// [`HashMap`]: struct.HashMap.html . /// [`entry`]: struct.HashMap.html#method.rustc_entry -- line 62 ---------------------------------------- -- line 405 ---------------------------------------- . /// if let RustcEntry::Occupied(o) = map.rustc_entry("poneyland") { . /// *o.into_mut() += 10; . /// } . /// . /// assert_eq!(map["poneyland"], 22); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn into_mut(self) -> &'a mut V { 1,998 ( 0.00%) unsafe { &mut self.elem.as_mut().1 } . } . . /// Sets the value of the entry, and returns the entry's old value. . /// . /// # Examples . /// . /// ``` . /// use hashbrown::HashMap; -- line 421 ---------------------------------------- -- line 568 ---------------------------------------- . /// let mut map: HashMap<&str, u32> = HashMap::new(); . /// . /// if let RustcEntry::Vacant(o) = map.rustc_entry("poneyland") { . /// o.insert(37); . /// } . /// assert_eq!(map["poneyland"], 37); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 321 ( 0.00%) pub fn insert(self, value: V) -> &'a mut V { . unsafe { 23,934 ( 0.01%) let bucket = self.table.insert_no_grow(self.hash, (self.key, value)); 542 ( 0.00%) &mut bucket.as_mut().1 . } 416 ( 0.00%) } . . /// Sets the value of the entry with the RustcVacantEntry's key, . /// and returns a RustcOccupiedEntry. . /// . /// # Examples . /// . /// ``` . /// use hashbrown::HashMap; -- line 589 ---------------------------------------- 93,064 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_serialize/src/opaque.rs -------------------------------------------------------------------------------- Ir -- line 14 ---------------------------------------- . . pub type EncodeResult = Result<(), !>; . . pub struct Encoder { . pub data: Vec, . } . . impl Encoder { 1 ( 0.00%) pub fn new(data: Vec) -> Encoder { 4 ( 0.00%) Encoder { data } 1 ( 0.00%) } . 1 ( 0.00%) pub fn into_inner(self) -> Vec { 4 ( 0.00%) self.data 1 ( 0.00%) } . . #[inline] . pub fn position(&self) -> usize { 5,991 ( 0.00%) self.data.len() . } . } . . macro_rules! write_leb128 { . ($enc:expr, $value:expr, $int_ty:ty, $fun:ident) => {{ . const MAX_ENCODED_LEN: usize = max_leb128_len!($int_ty); . let old_len = $enc.data.len(); . -- line 40 ---------------------------------------- -- line 67 ---------------------------------------- . . #[inline] . fn emit_unit(&mut self) -> EncodeResult { . Ok(()) . } . . #[inline] . fn emit_usize(&mut self, v: usize) -> EncodeResult { 102,293 ( 0.03%) write_leb128!(self, v, usize, write_usize_leb128) . } . . #[inline] . fn emit_u128(&mut self, v: u128) -> EncodeResult { 1,372 ( 0.00%) write_leb128!(self, v, u128, write_u128_leb128) . } . . #[inline] . fn emit_u64(&mut self, v: u64) -> EncodeResult { 154 ( 0.00%) write_leb128!(self, v, u64, write_u64_leb128) . } . . #[inline] . fn emit_u32(&mut self, v: u32) -> EncodeResult { 72,735 ( 0.02%) write_leb128!(self, v, u32, write_u32_leb128) . } . . #[inline] . fn emit_u16(&mut self, v: u16) -> EncodeResult { . self.data.extend_from_slice(&v.to_le_bytes()); . Ok(()) . } . -- line 98 ---------------------------------------- -- line 131 ---------------------------------------- . #[inline] . fn emit_i8(&mut self, v: i8) -> EncodeResult { . let as_u8: u8 = unsafe { std::mem::transmute(v) }; . self.emit_u8(as_u8) . } . . #[inline] . fn emit_bool(&mut self, v: bool) -> EncodeResult { 1,839 ( 0.00%) self.emit_u8(if v { 1 } else { 0 }) . } . . #[inline] . fn emit_f64(&mut self, v: f64) -> EncodeResult { . let as_u64: u64 = v.to_bits(); . self.emit_u64(as_u64) . } . -- line 147 ---------------------------------------- -- line 549 ---------------------------------------- . #[inline] . pub fn advance(&mut self, bytes: usize) { . self.position += bytes; . } . . #[inline] . pub fn read_raw_bytes(&mut self, bytes: usize) -> &'a [u8] { . let start = self.position; 5 ( 0.00%) self.position += bytes; 5 ( 0.00%) &self.data[start..self.position] . } . } . . macro_rules! read_leb128 { . ($dec:expr, $fun:ident) => {{ leb128::$fun($dec.data, &mut $dec.position) }}; . } . . impl<'a> serialize::Decoder for Decoder<'a> { . #[inline] . fn read_unit(&mut self) -> () { . () . } . . #[inline] . fn read_u128(&mut self) -> u128 { 406 ( 0.00%) read_leb128!(self, read_u128_leb128) . } . . #[inline] . fn read_u64(&mut self) -> u64 { 1,076 ( 0.00%) read_leb128!(self, read_u64_leb128) . } . . #[inline] 33,415 ( 0.01%) fn read_u32(&mut self) -> u32 { 129,231 ( 0.04%) read_leb128!(self, read_u32_leb128) 66,830 ( 0.02%) } . . #[inline] . fn read_u16(&mut self) -> u16 { 561,386 ( 0.19%) let bytes = [self.data[self.position], self.data[self.position + 1]]; 80,198 ( 0.03%) let value = u16::from_le_bytes(bytes); 160,396 ( 0.05%) self.position += 2; . value . } . . #[inline] . fn read_u8(&mut self) -> u8 { 1,352,328 ( 0.45%) let value = self.data[self.position]; 268,056 ( 0.09%) self.position += 1; . value . } . . #[inline] 103,838 ( 0.03%) fn read_usize(&mut self) -> usize { 103,838 ( 0.03%) read_leb128!(self, read_usize_leb128) 207,676 ( 0.07%) } . . #[inline] . fn read_i128(&mut self) -> i128 { . read_leb128!(self, read_i128_leb128) . } . . #[inline] . fn read_i64(&mut self) -> i64 { -- line 613 ---------------------------------------- -- line 637 ---------------------------------------- . #[inline] . fn read_isize(&mut self) -> isize { . read_leb128!(self, read_isize_leb128) . } . . #[inline] . fn read_bool(&mut self) -> bool { . let value = self.read_u8(); 4,539 ( 0.00%) value != 0 . } . . #[inline] . fn read_f64(&mut self) -> f64 { . let bits = self.read_u64(); . f64::from_bits(bits) . } . -- line 653 ---------------------------------------- -- line 660 ---------------------------------------- . #[inline] . fn read_char(&mut self) -> char { . let bits = self.read_u32(); . std::char::from_u32(bits).unwrap() . } . . #[inline] . fn read_str(&mut self) -> Cow<'_, str> { 18,242 ( 0.01%) let len = self.read_usize(); 120,600 ( 0.04%) let sentinel = self.data[self.position + len]; 30,150 ( 0.01%) assert!(sentinel == STR_SENTINEL); . let s = unsafe { . std::str::from_utf8_unchecked(&self.data[self.position..self.position + len]) . }; 75,375 ( 0.03%) self.position += len + 1; 9,501 ( 0.00%) Cow::Borrowed(s) . } . . #[inline] . fn read_raw_bytes_into(&mut self, s: &mut [u8]) { 46 ( 0.00%) let start = self.position; 997 ( 0.00%) self.position += s.len(); 46 ( 0.00%) s.copy_from_slice(&self.data[start..self.position]); . } . } . . // Specializations for contiguous byte sequences follow. The default implementations for slices . // encode and decode each element individually. This isn't necessary for `u8` slices when using . // opaque encoders and decoders, because each `u8` is unchanged by encoding and decoding. . // Therefore, we can use more efficient implementations that process the entire sequence at once. . -- line 690 ---------------------------------------- 372,537 ( 0.12%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/resolve.rs -------------------------------------------------------------------------------- Ir -- line 22 ---------------------------------------- . #[inline] . pub fn new(infcx: &'a InferCtxt<'a, 'tcx>) -> Self { . OpportunisticVarResolver { infcx } . } . } . . impl<'a, 'tcx> TypeFolder<'tcx> for OpportunisticVarResolver<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 222 ( 0.00%) self.infcx.tcx . } . 47,507 ( 0.02%) fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> { 73,366 ( 0.02%) if !t.has_infer_types_or_consts() { . t // micro-optimize -- if there is nothing in this type that this fold affects... . } else { 72,138 ( 0.02%) let t = self.infcx.shallow_resolve(t); 288,516 ( 0.10%) t.super_fold_with(self) . } 1,419 ( 0.00%) } . . fn fold_const(&mut self, ct: &'tcx Const<'tcx>) -> &'tcx Const<'tcx> { 24,896 ( 0.01%) if !ct.has_infer_types_or_consts() { . ct // micro-optimize -- if there is nothing in this const that this fold affects... . } else { 320 ( 0.00%) let ct = self.infcx.shallow_resolve(ct); 1,920 ( 0.00%) ct.super_fold_with(self) . } . } . . fn fold_mir_const(&mut self, constant: mir::ConstantKind<'tcx>) -> mir::ConstantKind<'tcx> { . constant.super_fold_with(self) . } . } . -- line 55 ---------------------------------------- -- line 67 ---------------------------------------- . impl<'a, 'tcx> OpportunisticRegionResolver<'a, 'tcx> { . pub fn new(infcx: &'a InferCtxt<'a, 'tcx>) -> Self { . OpportunisticRegionResolver { infcx } . } . } . . impl<'a, 'tcx> TypeFolder<'tcx> for OpportunisticRegionResolver<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 46,588 ( 0.02%) self.infcx.tcx 23,294 ( 0.01%) } . . fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> { . if !t.has_infer_regions() { . t // micro-optimize -- if there is nothing in this type that this fold affects... . } else { . t.super_fold_with(self) . } . } -- line 84 ---------------------------------------- -- line 165 ---------------------------------------- . . /// Full type resolution replaces all type and region variables with . /// their concrete results. If any variable cannot be replaced (never unified, etc) . /// then an `Err` result is returned. . pub fn fully_resolve<'a, 'tcx, T>(infcx: &InferCtxt<'a, 'tcx>, value: T) -> FixupResult<'tcx, T> . where . T: TypeFoldable<'tcx>, . { 6,988 ( 0.00%) value.try_fold_with(&mut FullTypeResolver { infcx }) . } . . // N.B. This type is not public because the protocol around checking the . // `err` field is not enforceable otherwise. . struct FullTypeResolver<'a, 'tcx> { . infcx: &'a InferCtxt<'a, 'tcx>, . } . . impl<'a, 'tcx> TypeFolder<'tcx> for FullTypeResolver<'a, 'tcx> { . type Error = FixupError<'tcx>; . . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 134 ( 0.00%) self.infcx.tcx . } . } . . impl<'a, 'tcx> FallibleTypeFolder<'tcx> for FullTypeResolver<'a, 'tcx> { 1,944 ( 0.00%) fn try_fold_ty(&mut self, t: Ty<'tcx>) -> Result, Self::Error> { 972 ( 0.00%) if !t.needs_infer() { . Ok(t) // micro-optimize -- if there is nothing in this type that this fold affects... . } else { 238 ( 0.00%) let t = self.infcx.shallow_resolve(t); 238 ( 0.00%) match *t.kind() { . ty::Infer(ty::TyVar(vid)) => Err(FixupError::UnresolvedTy(vid)), . ty::Infer(ty::IntVar(vid)) => Err(FixupError::UnresolvedIntTy(vid)), . ty::Infer(ty::FloatVar(vid)) => Err(FixupError::UnresolvedFloatTy(vid)), . ty::Infer(_) => { . bug!("Unexpected type in full type resolver: {:?}", t); . } 833 ( 0.00%) _ => t.try_super_fold_with(self), . } . } 6,804 ( 0.00%) } . 44 ( 0.00%) fn try_fold_region(&mut self, r: ty::Region<'tcx>) -> Result, Self::Error> { 44 ( 0.00%) match *r { 15 ( 0.00%) ty::ReVar(rid) => Ok(self . .infcx . .lexical_region_resolutions . .borrow() . .as_ref() . .expect("region resolution not performed") . .resolve_var(rid)), . _ => Ok(r), . } 110 ( 0.00%) } . . fn try_fold_const( . &mut self, . c: &'tcx ty::Const<'tcx>, . ) -> Result<&'tcx ty::Const<'tcx>, Self::Error> { . if !c.needs_infer() { . Ok(c) // micro-optimize -- if there is nothing in this const that this fold affects... . } else { -- line 227 ---------------------------------------- 49,276 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/flags.rs -------------------------------------------------------------------------------- Ir -- line 11 ---------------------------------------- . } . . impl FlagComputation { . fn new() -> FlagComputation { . FlagComputation { flags: TypeFlags::empty(), outer_exclusive_binder: ty::INNERMOST } . } . . #[allow(rustc::usage_of_ty_tykind)] 10,297 ( 0.00%) pub fn for_kind(kind: &ty::TyKind<'_>) -> FlagComputation { 1,471 ( 0.00%) let mut result = FlagComputation::new(); . result.add_kind(kind); . result 14,710 ( 0.00%) } . 4,225 ( 0.00%) pub fn for_predicate<'tcx>(binder: ty::Binder<'tcx, ty::PredicateKind<'_>>) -> FlagComputation { . let mut result = FlagComputation::new(); . result.add_predicate(binder); . result 5,915 ( 0.00%) } . 49,792 ( 0.02%) pub fn for_const(c: &ty::Const<'_>) -> TypeFlags { 50,074 ( 0.02%) let mut result = FlagComputation::new(); 25,037 ( 0.01%) result.add_const(c); 25,156 ( 0.01%) result.flags 49,792 ( 0.02%) } . . pub fn for_unevaluated_const(uv: ty::Unevaluated<'_>) -> TypeFlags { . let mut result = FlagComputation::new(); . result.add_unevaluated_const(uv); . result.flags . } . . fn add_flags(&mut self, flags: TypeFlags) { 53,703 ( 0.02%) self.flags = self.flags | flags; . } . . /// indicates that `self` refers to something at binding level `binder` . fn add_bound_var(&mut self, binder: ty::DebruijnIndex) { 64 ( 0.00%) let exclusive_binder = binder.shifted_in(1); . self.add_exclusive_binder(exclusive_binder); . } . . /// indicates that `self` refers to something *inside* binding . /// level `binder` -- not bound by `binder`, but bound by the next . /// binder internal to it . fn add_exclusive_binder(&mut self, exclusive_binder: ty::DebruijnIndex) { 55,847 ( 0.02%) self.outer_exclusive_binder = self.outer_exclusive_binder.max(exclusive_binder); . } . . /// Adds the flags/depth from a set of types that appear within the current type, but within a . /// region binder. . fn bound_computation(&mut self, value: ty::Binder<'_, T>, f: F) . where . F: FnOnce(&mut Self, T), . { 852 ( 0.00%) let mut computation = FlagComputation::new(); . 852 ( 0.00%) if !value.bound_vars().is_empty() { . computation.flags = computation.flags | TypeFlags::HAS_RE_LATE_BOUND; . } . . f(&mut computation, value.skip_binder()); . 823 ( 0.00%) self.add_flags(computation.flags); . . // The types that contributed to `computation` occurred within . // a region binder, so subtract one from the region depth . // within when adding the depth to `self`. 823 ( 0.00%) let outer_exclusive_binder = computation.outer_exclusive_binder; 852 ( 0.00%) if outer_exclusive_binder > ty::INNERMOST { 36 ( 0.00%) self.add_exclusive_binder(outer_exclusive_binder.shifted_out(1)); . } // otherwise, this binder captures nothing . } . . #[allow(rustc::usage_of_ty_tykind)] . fn add_kind(&mut self, kind: &ty::TyKind<'_>) { 7,355 ( 0.00%) match kind { . &ty::Bool . | &ty::Char . | &ty::Int(_) . | &ty::Float(_) . | &ty::Uint(_) . | &ty::Never . | &ty::Str . | &ty::Foreign(..) => {} -- line 95 ---------------------------------------- -- line 130 ---------------------------------------- . self.flags -= TypeFlags::STILL_FURTHER_SPECIALIZABLE; . } . . self.add_ty(substs.sig_as_fn_ptr_ty()); . self.add_ty(substs.kind_ty()); . self.add_ty(substs.tupled_upvars_ty()); . } . 3 ( 0.00%) &ty::Bound(debruijn, _) => { . self.add_bound_var(debruijn); . } . . &ty::Placeholder(..) => { . self.add_flags(TypeFlags::HAS_TY_PLACEHOLDER); . self.add_flags(TypeFlags::STILL_FURTHER_SPECIALIZABLE); . } . . &ty::Infer(infer) => { . self.add_flags(TypeFlags::STILL_FURTHER_SPECIALIZABLE); 92 ( 0.00%) match infer { . ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_) => { . self.add_flags(TypeFlags::HAS_TY_FRESH) . } . . ty::TyVar(_) | ty::IntVar(_) | ty::FloatVar(_) => { . self.add_flags(TypeFlags::HAS_TY_INFER) . } . } . } . . &ty::Adt(_, substs) => { . self.add_substs(substs); . } . 14 ( 0.00%) &ty::Projection(data) => { . self.add_flags(TypeFlags::HAS_TY_PROJECTION); . self.add_projection_ty(data); . } . . &ty::Opaque(_, substs) => { . self.add_flags(TypeFlags::HAS_TY_OPAQUE); . self.add_substs(substs); . } . 12 ( 0.00%) &ty::Dynamic(obj, r) => { 14 ( 0.00%) for predicate in obj.iter() { 20 ( 0.00%) self.bound_computation(predicate, |computation, predicate| match predicate { 8 ( 0.00%) ty::ExistentialPredicate::Trait(tr) => computation.add_substs(tr.substs), . ty::ExistentialPredicate::Projection(p) => { . computation.add_existential_projection(&p); . } . ty::ExistentialPredicate::AutoTrait(_) => {} . }); . } . . self.add_region(r); . } . 396 ( 0.00%) &ty::Array(tt, len) => { 198 ( 0.00%) self.add_ty(tt); 396 ( 0.00%) self.add_const(len); . } . . &ty::Slice(tt) => self.add_ty(tt), . . &ty::RawPtr(ref m) => { . self.add_ty(m.ty); . } . 404 ( 0.00%) &ty::Ref(r, ty, _) => { . self.add_region(r); 202 ( 0.00%) self.add_ty(ty); . } . . &ty::Tuple(ref substs) => { 28 ( 0.00%) self.add_substs(substs); . } . . &ty::FnDef(_, substs) => { . self.add_substs(substs); . } . 188 ( 0.00%) &ty::FnPtr(fn_sig) => self.bound_computation(fn_sig, |computation, fn_sig| { . computation.add_tys(fn_sig.inputs()); 94 ( 0.00%) computation.add_ty(fn_sig.output()); . }), . } . } . . fn add_predicate(&mut self, binder: ty::Binder<'_, ty::PredicateKind<'_>>) { 5,070 ( 0.00%) self.bound_computation(binder, |computation, atom| computation.add_predicate_atom(atom)); . } . . fn add_predicate_atom(&mut self, atom: ty::PredicateKind<'_>) { 4,225 ( 0.00%) match atom { . ty::PredicateKind::Trait(trait_pred) => { 1,268 ( 0.00%) self.add_substs(trait_pred.trait_ref.substs); . } . ty::PredicateKind::RegionOutlives(ty::OutlivesPredicate(a, b)) => { . self.add_region(a); . self.add_region(b); . } . ty::PredicateKind::TypeOutlives(ty::OutlivesPredicate(ty, region)) => { 26 ( 0.00%) self.add_ty(ty); . self.add_region(region); . } . ty::PredicateKind::Subtype(ty::SubtypePredicate { a_is_expected: _, a, b }) => { . self.add_ty(a); . self.add_ty(b); . } . ty::PredicateKind::Coerce(ty::CoercePredicate { a, b }) => { . self.add_ty(a); . self.add_ty(b); . } . ty::PredicateKind::Projection(ty::ProjectionPredicate { projection_ty, term }) => { . self.add_projection_ty(projection_ty); 46 ( 0.00%) match term { 23 ( 0.00%) Term::Ty(ty) => self.add_ty(ty), . Term::Const(c) => self.add_const(c), . } . } 432 ( 0.00%) ty::PredicateKind::WellFormed(arg) => { 432 ( 0.00%) self.add_substs(slice::from_ref(&arg)); . } . ty::PredicateKind::ObjectSafe(_def_id) => {} . ty::PredicateKind::ClosureKind(_def_id, substs, _kind) => { . self.add_substs(substs); . } . ty::PredicateKind::ConstEvaluatable(uv) => { . self.add_unevaluated_const(uv); . } -- line 260 ---------------------------------------- -- line 269 ---------------------------------------- . } . . fn add_ty(&mut self, ty: Ty<'_>) { . self.add_flags(ty.flags()); . self.add_exclusive_binder(ty.outer_exclusive_binder); . } . . fn add_tys(&mut self, tys: &[Ty<'_>]) { 491 ( 0.00%) for &ty in tys { 491 ( 0.00%) self.add_ty(ty); . } . } . . fn add_region(&mut self, r: ty::Region<'_>) { . self.add_flags(r.type_flags()); 531 ( 0.00%) if let ty::ReLateBound(debruijn, _) = *r { . self.add_bound_var(debruijn); . } . } . 101,168 ( 0.03%) fn add_const(&mut self, c: &ty::Const<'_>) { 50,584 ( 0.02%) self.add_ty(c.ty); 126,460 ( 0.04%) match c.val { . ty::ConstKind::Unevaluated(unevaluated) => self.add_unevaluated_const(unevaluated), . ty::ConstKind::Infer(infer) => { . self.add_flags(TypeFlags::STILL_FURTHER_SPECIALIZABLE); 644 ( 0.00%) match infer { . InferConst::Fresh(_) => self.add_flags(TypeFlags::HAS_CT_FRESH), . InferConst::Var(_) => self.add_flags(TypeFlags::HAS_CT_INFER), . } . } . ty::ConstKind::Bound(debruijn, _) => { . self.add_bound_var(debruijn); . } . ty::ConstKind::Param(_) => { -- line 303 ---------------------------------------- -- line 306 ---------------------------------------- . } . ty::ConstKind::Placeholder(_) => { . self.add_flags(TypeFlags::HAS_CT_PLACEHOLDER); . self.add_flags(TypeFlags::STILL_FURTHER_SPECIALIZABLE); . } . ty::ConstKind::Value(_) => {} . ty::ConstKind::Error(_) => self.add_flags(TypeFlags::HAS_ERROR), . } 101,168 ( 0.03%) } . . fn add_unevaluated_const

(&mut self, ct: ty::Unevaluated<'_, P>) { . self.add_substs(ct.substs); . self.add_flags(TypeFlags::HAS_CT_PROJECTION); . } . . fn add_existential_projection(&mut self, projection: &ty::ExistentialProjection<'_>) { . self.add_substs(projection.substs); . match projection.term { . ty::Term::Ty(ty) => self.add_ty(ty), . ty::Term::Const(ct) => self.add_const(ct), . } . } . . fn add_projection_ty(&mut self, projection_ty: ty::ProjectionTy<'_>) { 23 ( 0.00%) self.add_substs(projection_ty.substs); . } . 10,990 ( 0.00%) fn add_substs(&mut self, substs: &[GenericArg<'_>]) { . for kind in substs { 1,930 ( 0.00%) match kind.unpack() { 3,178 ( 0.00%) GenericArgKind::Type(ty) => self.add_ty(ty), . GenericArgKind::Lifetime(lt) => self.add_region(lt), 114 ( 0.00%) GenericArgKind::Const(ct) => self.add_const(ct), . } . } 12,560 ( 0.00%) } . } 6,824 ( 0.00%) -------------------------------------------------------------------------------- -- 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")] 256 ( 0.00%) pub fn from_str_radix(src: &str, radix: u32) -> Result { 128 ( 0.00%) from_str_radix(src, radix) 384 ( 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 { 32,325 ( 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 { 69,452 ( 0.02%) 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 { 54,068 ( 0.02%) 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 { 1,666,014 ( 0.55%) 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 { 2 ( 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`. 135,048 ( 0.04%) 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`. 4,917 ( 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 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 { 13,320 ( 0.00%) 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!($SelfT), ".saturating_sub(127), 0);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[rustc_const_stable(feature = "const_saturating_int_methods", since = "1.47.0")] . #[inline(always)] . pub const fn saturating_sub(self, rhs: Self) -> Self { 354 ( 0.00%) intrinsics::saturating_sub(self, rhs) . } . . /// Saturating integer multiplication. Computes `self * rhs`, . /// saturating at the numeric bounds instead of overflowing. . /// . /// # Examples . /// . /// Basic usage: -- line 1100 ---------------------------------------- -- line 1175 ---------------------------------------- . #[doc = concat!("assert_eq!(200", stringify!($SelfT), ".wrapping_add(", stringify!($SelfT), "::MAX), 199);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_add(self, rhs: Self) -> Self { 627,076 ( 0.21%) intrinsics::wrapping_add(self, rhs) . } . . /// Wrapping (modular) addition with a signed integer. Computes . /// `self + rhs`, wrapping around at the boundary of the type. . /// . /// # Examples . /// . /// Basic usage: -- line 1191 ---------------------------------------- -- line 1217 ---------------------------------------- . #[doc = concat!("assert_eq!(100", stringify!($SelfT), ".wrapping_sub(", stringify!($SelfT), "::MAX), 101);")] . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_sub(self, rhs: Self) -> Self { 263,621 ( 0.09%) intrinsics::wrapping_sub(self, rhs) . } . . /// Wrapping (modular) multiplication. Computes `self * . /// rhs`, wrapping around at the boundary of the type. . /// . /// # Examples . /// . /// Basic usage: -- line 1233 ---------------------------------------- -- line 1240 ---------------------------------------- . /// assert_eq!(25u8.wrapping_mul(12), 44); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_wrapping_math", since = "1.32.0")] . #[must_use = "this returns the result of the operation, \ . without modifying the original"] . #[inline(always)] . pub const fn wrapping_mul(self, rhs: Self) -> Self { 1,185,010 ( 0.39%) intrinsics::wrapping_mul(self, rhs) . } . . /// Wrapping (modular) division. Computes `self / rhs`. . /// Wrapped division on unsigned types is just normal division. . /// There's no way wrapping could ever happen. . /// This function exists, so that all operations . /// are accounted for in the wrapping operations. . /// -- line 1256 ---------------------------------------- -- line 1492 ---------------------------------------- . #[doc = concat!("assert_eq!(", stringify!($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)] . pub const fn overflowing_add(self, rhs: Self) -> (Self, bool) { 138,994 ( 0.05%) let (a, b) = intrinsics::add_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) . } . . /// Calculates `self + rhs + carry` without the ability to overflow. . /// . /// Performs "ternary addition" which takes in an extra bit to add, and may return an . /// additional bit of overflow. This allows for chaining together multiple additions . /// to create "big integers" which represent larger values. -- line 1508 ---------------------------------------- -- line 1588 ---------------------------------------- . #[doc = concat!("assert_eq!(0", stringify!($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)] . pub const fn overflowing_sub(self, rhs: Self) -> (Self, bool) { 19,688 ( 0.01%) let (a, b) = intrinsics::sub_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) . } . . /// 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. -- line 1604 ---------------------------------------- -- line 1674 ---------------------------------------- . /// 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)] . pub const fn overflowing_mul(self, rhs: Self) -> (Self, bool) { 292,136 ( 0.10%) let (a, b) = intrinsics::mul_with_overflow(self as $ActualT, rhs as $ActualT); . (a as Self, b) . } . . /// Calculates the divisor when `self` is divided by `rhs`. . /// . /// Returns a tuple of the divisor along with a boolean indicating . /// whether an arithmetic overflow would occur. Note that for unsigned . /// integers overflow never occurs, so the second value is always -- line 1690 ---------------------------------------- -- line 2132 ---------------------------------------- . #[doc = concat!("assert!(16", stringify!($SelfT), ".is_power_of_two());")] . #[doc = concat!("assert!(!10", stringify!($SelfT), ".is_power_of_two());")] . /// ``` . #[must_use] . #[stable(feature = "rust1", since = "1.0.0")] . #[rustc_const_stable(feature = "const_is_power_of_two", since = "1.32.0")] . #[inline(always)] . pub const fn is_power_of_two(self) -> bool { 72 ( 0.00%) self.count_ones() == 1 . } . . // Returns one less than next power of two. . // (For 8u8 next power of two is 8u8 and for 6u8 it is 8u8) . // . // 8u8.one_less_than_next_power_of_two() == 7 . // 6u8.one_less_than_next_power_of_two() == 7 . // . // This method cannot overflow, as in the `next_power_of_two` . // overflow cases it instead ends up returning the maximum value . // of the type, and can return 0 for 0. . #[inline] . #[rustc_const_stable(feature = "const_int_pow", since = "1.50.0")] . const fn one_less_than_next_power_of_two(self) -> Self { 720 ( 0.00%) if self <= 1 { return 0; } . 2,612 ( 0.00%) let p = self - 1; . // SAFETY: Because `p > 0`, it cannot consist entirely of leading zeros. . // That means the shift is always in-bounds, and some processors . // (such as intel pre-haswell) have more efficient ctlz . // intrinsics when the argument is non-zero. 7,812 ( 0.00%) let z = unsafe { intrinsics::ctlz_nonzero(p) }; 2,604 ( 0.00%) <$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 { 4,488 ( 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 ---------------------------------------- 13,818 ( 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, . ) { 592 ( 0.00%) if let Some((file, file_idx)) = new_file_and_idx { 69 ( 0.00%) self.file = file; 90 ( 0.00%) self.file_index = file_idx; . } . 461 ( 0.00%) let line_index = self.file.lookup_line(pos).unwrap(); . let line_bounds = self.file.line_bounds(line_index); 1,028 ( 0.00%) self.line_number = line_index + 1; 1,511 ( 0.00%) self.line = line_bounds; . self.touch(time_stamp); . } . . #[inline] . fn touch(&mut self, time_stamp: usize) { 12,578 ( 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> { 418 ( 0.00%) pub fn new(source_map: &'sm SourceMap) -> CachingSourceMapView<'sm> { . let files = source_map.files(); 209 ( 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, . }; . 1,045 ( 0.00%) CachingSourceMapView { . source_map, 1,463 ( 0.00%) line_cache: [entry.clone(), entry.clone(), entry], . time_stamp: 0, . } 836 ( 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)) . } . 45,766 ( 0.02%) pub fn span_data_to_lines_and_cols( . &mut self, . span_data: &SpanData, . ) -> Option<(Lrc, usize, BytePos, usize, BytePos)> { 26,152 ( 0.01%) self.time_stamp += 1; . . // Check if lo and hi are in the cached lines. 6,538 ( 0.00%) let lo_cache_idx = self.cache_entry_index(span_data.lo); 6,538 ( 0.00%) let hi_cache_idx = self.cache_entry_index(span_data.hi); . 12,108 ( 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 = { 12,080 ( 0.00%) let lo = &self.line_cache[lo_cache_idx as usize]; . let hi = &self.line_cache[hi_cache_idx as usize]; . 36,240 ( 0.01%) if lo.file_index != hi.file_index { . return None; . } . . ( 12,080 ( 0.00%) lo.file.clone(), . lo.line_number, . span_data.lo - lo.line.start, 6,040 ( 0.00%) hi.line_number, . span_data.hi - hi.line.start, . ) . }; . 6,040 ( 0.00%) self.line_cache[lo_cache_idx as usize].touch(self.time_stamp); 6,040 ( 0.00%) self.line_cache[hi_cache_idx as usize].touch(self.time_stamp); . 24,160 ( 0.01%) return Some(result); . } . . // No cache hit or cache hit for only one of span lo and hi. 968 ( 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. 3,984 ( 0.00%) let new_file_and_idx = if !file_contains(&self.line_cache[oldest].file, span_data.lo) { 185 ( 0.00%) let new_file_and_idx = self.file_for_position(span_data.lo)?; 222 ( 0.00%) if !file_contains(&new_file_and_idx.0, span_data.hi) { . return None; . } . 148 ( 0.00%) Some(new_file_and_idx) . } else { . let file = &self.line_cache[oldest].file; 1,383 ( 0.00%) if !file_contains(&file, span_data.hi) { . return None; . } . 1,383 ( 0.00%) None . }; . . // Update the cache entries. 2,490 ( 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); . 1,311 ( 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); 28 ( 0.00%) let hi = &mut self.line_cache[hi_cache_idx as usize]; 42 ( 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]; 47 ( 0.00%) hi.update(new_file_and_idx, span_data.hi, self.time_stamp); 94 ( 0.00%) let lo = &mut self.line_cache[lo_cache_idx as usize]; 188 ( 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. 996 ( 0.00%) assert!(span_data.lo >= lo.line.start); 498 ( 0.00%) assert!(span_data.lo <= lo.line.end); 996 ( 0.00%) assert!(span_data.hi >= hi.line.start); 498 ( 0.00%) assert!(span_data.hi <= hi.line.end); 2,490 ( 0.00%) assert!(lo.file.contains(span_data.lo)); 1,494 ( 0.00%) assert!(lo.file.contains(span_data.hi)); 1,494 ( 0.00%) assert_eq!(lo.file_index, hi.file_index); . 1,494 ( 0.00%) Some(( 498 ( 0.00%) lo.file.clone(), . lo.line_number, . span_data.lo - lo.line.start, 498 ( 0.00%) hi.line_number, . span_data.hi - hi.line.start, . )) 58,842 ( 0.02%) } . . fn cache_entry_index(&self, pos: BytePos) -> isize { . for (idx, cache_entry) in self.line_cache.iter().enumerate() { 49,790 ( 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() { 2,622 ( 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() { 443 ( 0.00%) if idx != avoid_idx 205 ( 0.00%) && self.line_cache[idx].time_stamp < self.line_cache[oldest].time_stamp . { . oldest = idx; . } . } . . oldest . } . 185 ( 0.00%) fn file_for_position(&self, pos: BytePos) -> Option<(Lrc, usize)> { 37 ( 0.00%) if !self.source_map.files().is_empty() { 74 ( 0.00%) let file_idx = self.source_map.lookup_source_file_idx(pos); . let file = &self.source_map.files()[file_idx]; . 296 ( 0.00%) if file_contains(file, pos) { . return Some((file.clone(), file_idx)); . } . } . . None 185 ( 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 ---------------------------------------- 75,496 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/combine.rs -------------------------------------------------------------------------------- Ir -- line 56 ---------------------------------------- . #[derive(Copy, Clone, Debug)] . pub enum RelationDir { . SubtypeOf, . SupertypeOf, . EqTo, . } . . impl<'infcx, 'tcx> InferCtxt<'infcx, 'tcx> { 117,765 ( 0.04%) pub fn super_combine_tys( . &self, . relation: &mut R, . a: Ty<'tcx>, . b: Ty<'tcx>, . ) -> RelateResult<'tcx, Ty<'tcx>> . where . R: TypeRelation<'tcx>, . { . let a_is_expected = relation.a_is_expected(); . 91,823 ( 0.03%) match (a.kind(), b.kind()) { . // Relate integral variables to other types . (&ty::Infer(ty::IntVar(a_id)), &ty::Infer(ty::IntVar(b_id))) => { . self.inner . .borrow_mut() . .int_unification_table() . .unify_var_var(a_id, b_id) . .map_err(|e| int_unification_error(a_is_expected, e))?; . Ok(a) -- line 83 ---------------------------------------- -- line 111 ---------------------------------------- . self.unify_float_variable(!a_is_expected, v_id, v) . } . . // All other cases of inference are errors . (&ty::Infer(_), _) | (_, &ty::Infer(_)) => { . Err(TypeError::Sorts(ty::relate::expected_found(relation, a, b))) . } . 78,852 ( 0.03%) _ => ty::relate::super_relate_tys(relation, a, b), . } 117,765 ( 0.04%) } . 152,064 ( 0.05%) pub fn super_combine_consts( . &self, . relation: &mut R, . a: &'tcx ty::Const<'tcx>, . b: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> . where . R: ConstEquateRelation<'tcx>, . { . debug!("{}.consts({:?}, {:?})", relation.tag(), a, b); 63,360 ( 0.02%) if a == b { . return Ok(a); . } . 37,248 ( 0.01%) let a = replace_if_possible(&mut self.inner.borrow_mut().const_unification_table(), a); 37,248 ( 0.01%) let b = replace_if_possible(&mut self.inner.borrow_mut().const_unification_table(), b); . . let a_is_expected = relation.a_is_expected(); . 172,544 ( 0.06%) match (a.val, b.val) { . ( . ty::ConstKind::Infer(InferConst::Var(a_vid)), . ty::ConstKind::Infer(InferConst::Var(b_vid)), . ) => { . self.inner . .borrow_mut() . .const_unification_table() . .unify_var_var(a_vid, b_vid) -- line 150 ---------------------------------------- -- line 158 ---------------------------------------- . bug!("tried to combine ConstKind::Infer/ConstKind::Infer(InferConst::Var)") . } . . (ty::ConstKind::Infer(InferConst::Var(vid)), _) => { . return self.unify_const_variable(relation.param_env(), vid, b, a_is_expected); . } . . (_, ty::ConstKind::Infer(InferConst::Var(vid))) => { 1,600 ( 0.00%) return self.unify_const_variable(relation.param_env(), vid, a, !a_is_expected); . } . (ty::ConstKind::Unevaluated(..), _) if self.tcx.lazy_normalization() => { . // FIXME(#59490): Need to remove the leak check to accommodate . // escaping bound variables here. . if !a.has_escaping_bound_vars() && !b.has_escaping_bound_vars() { . relation.const_equate_obligation(a, b); . } . return Ok(b); -- line 174 ---------------------------------------- -- line 179 ---------------------------------------- . if !a.has_escaping_bound_vars() && !b.has_escaping_bound_vars() { . relation.const_equate_obligation(a, b); . } . return Ok(a); . } . _ => {} . } . 60,480 ( 0.02%) ty::relate::super_relate_consts(relation, a, b) 114,048 ( 0.04%) } . . /// Unifies the const variable `target_vid` with the given constant. . /// . /// This also tests if the given const `ct` contains an inference variable which was previously . /// unioned with `target_vid`. If this is the case, inferring `target_vid` to `ct` . /// would result in an infinite type as we continuously replace an inference variable . /// in `ct` with `ct` itself. . /// -- line 196 ---------------------------------------- -- line 216 ---------------------------------------- . /// of `fn bind` (meaning that its substs contain `N`). . /// . /// `bind(arr)` now infers that the type of `arr` must be `[u8; N]`. . /// The assignment `arr = bind(arr)` now tries to equate `N` with `3 + 4`. . /// . /// As `3 + 4` contains `N` in its substs, this must not succeed. . /// . /// See `src/test/ui/const-generics/occurs-check/` for more examples where this is relevant. 6,080 ( 0.00%) #[instrument(level = "debug", skip(self))] . fn unify_const_variable( . &self, . param_env: ty::ParamEnv<'tcx>, . target_vid: ty::ConstVid<'tcx>, . ct: &'tcx ty::Const<'tcx>, . vid_is_expected: bool, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { . let (for_universe, span) = { . let mut inner = self.inner.borrow_mut(); 1,280 ( 0.00%) let variable_table = &mut inner.const_unification_table(); 640 ( 0.00%) let var_value = variable_table.probe_value(target_vid); 640 ( 0.00%) match var_value.val { . ConstVariableValue::Known { value } => { . bug!("instantiating {:?} which has a known value {:?}", target_vid, value) . } . ConstVariableValue::Unknown { universe } => (universe, var_value.origin.span), . } . }; 2,560 ( 0.00%) let value = ConstInferUnifier { infcx: self, span, param_env, for_universe, target_vid } . .relate(ct, ct)?; . 1,280 ( 0.00%) self.inner . .borrow_mut() . .const_unification_table() . .unify_var_value( . target_vid, 1,920 ( 0.00%) ConstVarValue { . origin: ConstVariableOrigin { . kind: ConstVariableOriginKind::ConstInference, . span: DUMMY_SP, . }, . val: ConstVariableValue::Known { value }, . }, . ) . .map(|()| value) -- line 259 ---------------------------------------- -- line 289 ---------------------------------------- . .unify_var_value(vid, Some(ty::FloatVarValue(val))) . .map_err(|e| float_unification_error(vid_is_expected, e))?; . Ok(self.tcx.mk_mach_float(val)) . } . } . . impl<'infcx, 'tcx> CombineFields<'infcx, 'tcx> { . pub fn tcx(&self) -> TyCtxt<'tcx> { 86,566 ( 0.03%) self.infcx.tcx . } . . pub fn equate<'a>(&'a mut self, a_is_expected: bool) -> Equate<'a, 'infcx, 'tcx> { . Equate::new(self, a_is_expected) . } . 3,442 ( 0.00%) pub fn sub<'a>(&'a mut self, a_is_expected: bool) -> Sub<'a, 'infcx, 'tcx> { . Sub::new(self, a_is_expected) 1,721 ( 0.00%) } . . pub fn lub<'a>(&'a mut self, a_is_expected: bool) -> Lub<'a, 'infcx, 'tcx> { . Lub::new(self, a_is_expected) . } . 19,414 ( 0.01%) pub fn glb<'a>(&'a mut self, a_is_expected: bool) -> Glb<'a, 'infcx, 'tcx> { . Glb::new(self, a_is_expected) 9,707 ( 0.00%) } . . /// Here, `dir` is either `EqTo`, `SubtypeOf`, or `SupertypeOf`. . /// The idea is that we should ensure that the type `a_ty` is equal . /// to, a subtype of, or a supertype of (respectively) the type . /// to which `b_vid` is bound. . /// . /// Since `b_vid` has not yet been instantiated with a type, we . /// will first instantiate `b_vid` with a *generalized* version . /// of `a_ty`. Generalization introduces other inference . /// variables wherever subtyping could occur. 100,991 ( 0.03%) pub fn instantiate( . &mut self, . a_ty: Ty<'tcx>, . dir: RelationDir, . b_vid: ty::TyVid, . a_is_expected: bool, . ) -> RelateResult<'tcx, ()> { . use self::RelationDir::*; . -- line 333 ---------------------------------------- -- line 342 ---------------------------------------- . // - `a_ty == &'x ?1`, where `'x` is some free region and `?1` is an . // inference variable, . // - and `dir` == `SubtypeOf`. . // . // Then the generalized form `b_ty` would be `&'?2 ?3`, where . // `'?2` and `?3` are fresh region/type inference . // variables. (Down below, we will relate `a_ty <: b_ty`, . // adding constraints like `'x: '?2` and `?1 <: ?3`.) 9,180 ( 0.00%) let Generalization { ty: b_ty, needs_wf } = self.generalize(a_ty, b_vid, dir)?; . debug!( . "instantiate(a_ty={:?}, dir={:?}, b_vid={:?}, generalized b_ty={:?})", . a_ty, dir, b_vid, b_ty . ); 64,260 ( 0.02%) self.infcx.inner.borrow_mut().type_variables().instantiate(b_vid, b_ty); . 9,180 ( 0.00%) if needs_wf { . self.obligations.push(Obligation::new( . self.trace.cause.clone(), . self.param_env, . ty::Binder::dummy(ty::PredicateKind::WellFormed(b_ty.into())) . .to_predicate(self.infcx.tcx), . )); . } . . // Finally, relate `b_ty` to `a_ty`, as described in previous comment. . // . // FIXME(#16847): This code is non-ideal because all these subtype . // relations wind up attributed to the same spans. We need . // to associate causes/spans with each of the relations in . // the stack to get this right. 36,658 ( 0.01%) match dir { 44,900 ( 0.01%) EqTo => self.equate(a_is_expected).relate(a_ty, b_ty), 155 ( 0.00%) SubtypeOf => self.sub(a_is_expected).relate(a_ty, b_ty), 338 ( 0.00%) SupertypeOf => self.sub(a_is_expected).relate_with_variance( . ty::Contravariant, . ty::VarianceDiagInfo::default(), . a_ty, . b_ty, . ), . }?; . 9,180 ( 0.00%) Ok(()) 73,448 ( 0.02%) } . . /// Attempts to generalize `ty` for the type variable `for_vid`. . /// This checks for cycle -- that is, whether the type `ty` . /// references `for_vid`. The `dir` is the "direction" for which we . /// a performing the generalization (i.e., are we producing a type . /// that can be used as a supertype etc). . /// . /// Preconditions: -- line 392 ---------------------------------------- -- line 401 ---------------------------------------- . debug!("generalize(ty={:?}, for_vid={:?}, dir={:?}", ty, for_vid, dir); . // Determine the ambient variance within which `ty` appears. . // The surrounding equation is: . // . // ty [op] ty2 . // . // where `op` is either `==`, `<:`, or `:>`. This maps quite . // naturally. 36,724 ( 0.01%) let ambient_variance = match dir { . RelationDir::EqTo => ty::Invariant, . RelationDir::SubtypeOf => ty::Covariant, . RelationDir::SupertypeOf => ty::Contravariant, . }; . . debug!("generalize: ambient_variance = {:?}", ambient_variance); . 91,810 ( 0.03%) let for_universe = match self.infcx.inner.borrow_mut().type_variables().probe(for_vid) { . v @ TypeVariableValue::Known { .. } => { . bug!("instantiating {:?} which has a known value {:?}", for_vid, v,) . } . TypeVariableValue::Unknown { universe } => universe, . }; . . debug!("generalize: for_universe = {:?}", for_universe); . debug!("generalize: trace = {:?}", self.trace); . 91,810 ( 0.03%) let mut generalize = Generalizer { . infcx: self.infcx, . cause: &self.trace.cause, . for_vid_sub_root: self.infcx.inner.borrow_mut().type_variables().sub_root_var(for_vid), . for_universe, . ambient_variance, . needs_wf: false, . root_ty: ty, 9,181 ( 0.00%) param_env: self.param_env, . cache: SsoHashMap::new(), . }; . 18,362 ( 0.01%) let ty = match generalize.relate(ty, ty) { 9,180 ( 0.00%) Ok(ty) => ty, . Err(e) => { . debug!("generalize: failure {:?}", e); 6 ( 0.00%) return Err(e); . } . }; 9,180 ( 0.00%) let needs_wf = generalize.needs_wf; . debug!("generalize: success {{ {:?}, {:?} }}", ty, needs_wf); . Ok(Generalization { ty, needs_wf }) . } . . pub fn add_const_equate_obligation( . &mut self, . a_is_expected: bool, . a: &'tcx ty::Const<'tcx>, -- line 454 ---------------------------------------- -- line 528 ---------------------------------------- . /// will force the calling code to check that `WF(Foo)` . /// holds, which in turn implies that `?C::Item == ?D`. So once . /// `?C` is constrained, that should suffice to restrict `?D`. . needs_wf: bool, . } . . impl<'tcx> TypeRelation<'tcx> for Generalizer<'_, 'tcx> { . fn tcx(&self) -> TyCtxt<'tcx> { 1,200 ( 0.00%) self.infcx.tcx . } . fn param_env(&self) -> ty::ParamEnv<'tcx> { 128 ( 0.00%) self.param_env . } . . fn tag(&self) -> &'static str { . "Generalizer" . } . . fn a_is_expected(&self) -> bool { . true -- line 547 ---------------------------------------- -- line 553 ---------------------------------------- . b: ty::Binder<'tcx, T>, . ) -> RelateResult<'tcx, ty::Binder<'tcx, T>> . where . T: Relate<'tcx>, . { . Ok(a.rebind(self.relate(a.skip_binder(), b.skip_binder())?)) . } . 2,640 ( 0.00%) fn relate_item_substs( . &mut self, . item_def_id: DefId, . a_subst: SubstsRef<'tcx>, . b_subst: SubstsRef<'tcx>, . ) -> RelateResult<'tcx, SubstsRef<'tcx>> { 240 ( 0.00%) if self.ambient_variance == ty::Variance::Invariant { . // Avoid fetching the variance if we are in an invariant . // context; no need, and it can induce dependency cycles . // (e.g., #41849). 144 ( 0.00%) relate::relate_substs(self, None, a_subst, b_subst) . } else { . let tcx = self.tcx(); . let opt_variances = tcx.variances_of(item_def_id); 480 ( 0.00%) relate::relate_substs(self, Some((item_def_id, &opt_variances)), a_subst, b_subst) . } 2,160 ( 0.00%) } . 135 ( 0.00%) fn relate_with_variance>( . &mut self, . variance: ty::Variance, . _info: ty::VarianceDiagInfo<'tcx>, . a: T, . b: T, . ) -> RelateResult<'tcx, T> { . let old_ambient_variance = self.ambient_variance; 980 ( 0.00%) self.ambient_variance = self.ambient_variance.xform(variance); . . let result = self.relate(a, b); 193 ( 0.00%) self.ambient_variance = old_ambient_variance; . result 105 ( 0.00%) } . 85,392 ( 0.03%) fn tys(&mut self, t: Ty<'tcx>, t2: Ty<'tcx>) -> RelateResult<'tcx, Ty<'tcx>> { 9,488 ( 0.00%) assert_eq!(t, t2); // we are abusing TypeRelation here; both LHS and RHS ought to be == . 56,928 ( 0.02%) if let Some(result) = self.cache.get(&t) { . return result.clone(); . } . debug!("generalize: t={:?}", t); . . // Check to see whether the type we are generalizing references . // any other type variable related to `vid` via . // subtyping. This is basically our "occurs check", preventing . // us from creating infinitely sized types. 28,584 ( 0.01%) let result = match *t.kind() { 20 ( 0.00%) ty::Infer(ty::TyVar(vid)) => { 20 ( 0.00%) let vid = self.infcx.inner.borrow_mut().type_variables().root_var(vid); 20 ( 0.00%) let sub_vid = self.infcx.inner.borrow_mut().type_variables().sub_root_var(vid); 20 ( 0.00%) if sub_vid == self.for_vid_sub_root { . // If sub-roots are equal, then `for_vid` and . // `vid` are related via subtyping. 5 ( 0.00%) Err(TypeError::CyclicTy(self.root_ty)) . } else { 114 ( 0.00%) let probe = self.infcx.inner.borrow_mut().type_variables().probe(vid); 38 ( 0.00%) match probe { . TypeVariableValue::Known { value: u } => { . debug!("generalize: known value {:?}", u); . self.relate(u, u) . } . TypeVariableValue::Unknown { universe } => { 55 ( 0.00%) match self.ambient_variance { . // Invariant: no need to make a fresh type variable. . ty::Invariant => { 15 ( 0.00%) if self.for_universe.can_name(universe) { 12 ( 0.00%) return Ok(t); . } . } . . // Bivariant: make a fresh var, but we . // may need a WF predicate. See . // comment on `needs_wf` field for . // more info. . ty::Bivariant => self.needs_wf = true, . . // Co/contravariant: this will be . // sufficiently constrained later on. . ty::Covariant | ty::Contravariant => (), . } . . let origin = 72 ( 0.00%) *self.infcx.inner.borrow_mut().type_variables().var_origin(vid); 56 ( 0.00%) let new_var_id = self . .infcx . .inner . .borrow_mut() . .type_variables() 56 ( 0.00%) .new_var(self.for_universe, origin); . let u = self.tcx().mk_ty_var(new_var_id); . . // Record that we replaced `vid` with `new_var_id` as part of a generalization . // operation. This is needed to detect cyclic types. To see why, see the . // docs in the `type_variables` module. 40 ( 0.00%) self.infcx.inner.borrow_mut().type_variables().sub(vid, new_var_id); . debug!("generalize: replacing original vid={:?} with new={:?}", vid, u); 16 ( 0.00%) Ok(u) . } . } . } . } . ty::Infer(ty::IntVar(_) | ty::FloatVar(_)) => { . // No matter what mode we are in, . // integer/floating-point types must be equal to be . // relatable. . Ok(t) . } 28,404 ( 0.01%) _ => relate::super_relate_tys(self, t, t), . }; . 94,850 ( 0.03%) self.cache.insert(t, result.clone()); 56,910 ( 0.02%) return result; 85,392 ( 0.03%) } . 176 ( 0.00%) fn regions( . &mut self, . r: ty::Region<'tcx>, . r2: ty::Region<'tcx>, . ) -> RelateResult<'tcx, ty::Region<'tcx>> { 22 ( 0.00%) assert_eq!(r, r2); // we are abusing TypeRelation here; both LHS and RHS ought to be == . . debug!("generalize: regions r={:?}", r); . 44 ( 0.00%) match *r { . // Never make variables for regions bound within the type itself, . // nor for erased regions. . ty::ReLateBound(..) | ty::ReErased => { . return Ok(r); . } . . ty::RePlaceholder(..) . | ty::ReVar(..) -- line 691 ---------------------------------------- -- line 697 ---------------------------------------- . } . } . . // If we are in an invariant context, we can re-use the region . // as is, unless it happens to be in some universe that we . // can't name. (In the case of a region *variable*, we could . // use it if we promoted it into our universe, but we don't . // bother.) 44 ( 0.00%) if let ty::Invariant = self.ambient_variance { 42 ( 0.00%) let r_universe = self.infcx.universe_of_region(r); 98 ( 0.00%) if self.for_universe.can_name(r_universe) { . return Ok(r); . } . } . . // FIXME: This is non-ideal because we don't give a . // very descriptive origin for this region variable. 80 ( 0.00%) Ok(self.infcx.next_region_var_in_universe(MiscVariable(self.cause.span), self.for_universe)) 176 ( 0.00%) } . 1,152 ( 0.00%) fn consts( . &mut self, . c: &'tcx ty::Const<'tcx>, . c2: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { 384 ( 0.00%) assert_eq!(c, c2); // we are abusing TypeRelation here; both LHS and RHS ought to be == . . match c.val { . ty::ConstKind::Infer(InferConst::Var(vid)) => { . let mut inner = self.infcx.inner.borrow_mut(); . let variable_table = &mut inner.const_unification_table(); . let var_value = variable_table.probe_value(vid); . match var_value.val { . ConstVariableValue::Known { value: u } => { -- line 730 ---------------------------------------- -- line 754 ---------------------------------------- . substs, . substs, . )?; . Ok(self.tcx().mk_const(ty::Const { . ty: c.ty, . val: ty::ConstKind::Unevaluated(ty::Unevaluated { def, substs, promoted }), . })) . } 640 ( 0.00%) _ => relate::super_relate_consts(self, c, c), . } 1,152 ( 0.00%) } . } . . pub trait ConstEquateRelation<'tcx>: TypeRelation<'tcx> { . /// Register an obligation that both constants must be equal to each other. . /// . /// If they aren't equal then the relation doesn't hold. . fn const_equate_obligation(&mut self, a: &'tcx ty::Const<'tcx>, b: &'tcx ty::Const<'tcx>); . } -- line 772 ---------------------------------------- -- line 824 ---------------------------------------- . target_vid: ty::ConstVid<'tcx>, . } . . // We use `TypeRelation` here to propagate `RelateResult` upwards. . // . // Both inputs are expected to be the same. . impl<'tcx> TypeRelation<'tcx> for ConstInferUnifier<'_, 'tcx> { . fn tcx(&self) -> TyCtxt<'tcx> { 1,280 ( 0.00%) self.infcx.tcx . } . . fn param_env(&self) -> ty::ParamEnv<'tcx> { 320 ( 0.00%) self.param_env . } . . fn tag(&self) -> &'static str { . "ConstInferUnifier" . } . . fn a_is_expected(&self) -> bool { . true -- line 844 ---------------------------------------- -- line 937 ---------------------------------------- . return Ok(r); . } else { . // FIXME: This is non-ideal because we don't give a . // very descriptive origin for this region variable. . Ok(self.infcx.next_region_var_in_universe(MiscVariable(self.span), self.for_universe)) . } . } . 6,080 ( 0.00%) #[tracing::instrument(level = "debug", skip(self))] . fn consts( . &mut self, . c: &'tcx ty::Const<'tcx>, . _c: &'tcx ty::Const<'tcx>, . ) -> RelateResult<'tcx, &'tcx ty::Const<'tcx>> { . debug_assert_eq!(c, _c); . debug!("ConstInferUnifier: c={:?}", c); . 1,600 ( 0.00%) match c.val { . ty::ConstKind::Infer(InferConst::Var(vid)) => { . // Check if the current unification would end up . // unifying `target_vid` with a const which contains . // an inference variable which is unioned with `target_vid`. . // . // Not doing so can easily result in stack overflows. . if self . .infcx -- line 962 ---------------------------------------- -- line 1000 ---------------------------------------- . substs, . substs, . )?; . Ok(self.tcx().mk_const(ty::Const { . ty: c.ty, . val: ty::ConstKind::Unevaluated(ty::Unevaluated { def, substs, promoted }), . })) . } 1,600 ( 0.00%) _ => relate::super_relate_consts(self, c, c), . } . } . } 103,970 ( 0.03%) -------------------------------------------------------------------------------- -- 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); . 7,933 ( 0.00%) if count == 8 { . ptr::copy_nonoverlapping(src, dst, 8); . return; . } . . let mut i = 0; 11,672 ( 0.00%) if i + 3 < count { . ptr::copy_nonoverlapping(src.add(i), dst.add(i), 4); . i += 4; . } . 24,996 ( 0.01%) if i + 1 < count { . ptr::copy_nonoverlapping(src.add(i), dst.add(i), 2); 2,770 ( 0.00%) i += 2 . } . 11,672 ( 0.00%) if i < count { 7,771 ( 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::(); 65,482 ( 0.02%) let nbuf = self.nbuf; . debug_assert!(size <= 8); . debug_assert!(nbuf < BUFFER_SIZE); . debug_assert!(nbuf + size < BUFFER_WITH_SPILL_SIZE); . 432,016 ( 0.14%) 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); . } . 135,284 ( 0.04%) self.nbuf = nbuf + size; . . return; . } . 23,341 ( 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)] 7,018 ( 0.00%) unsafe fn short_write_process_buffer(&mut self, x: T) { . let size = mem::size_of::(); 7,018 ( 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 { 70,180 ( 0.02%) let elem = self.buf.get_unchecked(i).assume_init().to_le(); 56,144 ( 0.02%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 63,162 ( 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. 33,518 ( 0.01%) self.nbuf = if size == 1 { 0 } else { nbuf + size - BUFFER_SIZE }; 28,072 ( 0.01%) self.processed += BUFFER_SIZE; 14,036 ( 0.00%) } . . // A write function for byte slices. . #[inline] . fn slice_write(&mut self, msg: &[u8]) { . let length = msg.len(); 5,058 ( 0.00%) let nbuf = self.nbuf; . debug_assert!(nbuf < BUFFER_SIZE); . 34,158 ( 0.01%) if nbuf + length < BUFFER_SIZE { . unsafe { . let dst = (self.buf.as_mut_ptr() as *mut u8).add(nbuf); . 12,310 ( 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); . } . } . 6,674 ( 0.00%) self.nbuf = nbuf + length; . . return; . } . 2,285 ( 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)] 2,050 ( 0.00%) unsafe fn slice_write_process_buffer(&mut self, msg: &[u8]) { . let length = msg.len(); 410 ( 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. 1,230 ( 0.00%) let valid_in_elem = nbuf % ELEM_SIZE; 410 ( 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. 820 ( 0.00%) let last = nbuf / ELEM_SIZE + 1; . . for i in 0..last { 3,176 ( 0.00%) let elem = self.buf.get_unchecked(i).assume_init().to_le(); 3,586 ( 0.00%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 6,352 ( 0.00%) self.state.v0 ^= elem; . } . . // Process the remaining element-sized chunks of input. . let mut processed = needed_in_elem; 820 ( 0.00%) let input_left = length - processed; 324 ( 0.00%) let elems_left = input_left / ELEM_SIZE; . let extra_bytes_left = input_left % ELEM_SIZE; . . for _ in 0..elems_left { 171 ( 0.00%) let elem = (msg.as_ptr().add(processed) as *const u64).read_unaligned().to_le(); 171 ( 0.00%) self.state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut self.state); 171 ( 0.00%) self.state.v0 ^= elem; 342 ( 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); . 410 ( 0.00%) self.nbuf = extra_bytes_left; 2,050 ( 0.00%) self.processed += nbuf + processed; 2,460 ( 0.00%) } . . #[inline] . pub fn finish128(mut self) -> (u64, u64) { . debug_assert!(self.nbuf < BUFFER_SIZE); . . // Process full elements in buffer. 5,529 ( 0.00%) let last = self.nbuf / ELEM_SIZE; . . // Since we're consuming self, avoid updating members for a potential . // performance gain. 7,372 ( 0.00%) let mut state = self.state; . . for i in 0..last { 5,318 ( 0.00%) let elem = unsafe { self.buf.get_unchecked(i).assume_init().to_le() }; 5,318 ( 0.00%) state.v3 ^= elem; . Sip24Rounds::c_rounds(&mut state); 5,318 ( 0.00%) state.v0 ^= elem; . } . . // Get remaining partial element. 3,686 ( 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); 1,468 ( 0.00%) self.buf.get_unchecked(last).assume_init().to_le() . } . } else { . 0 . }; . . // Finalize the hash. 5,154 ( 0.00%) let length = self.processed + self.nbuf; 3,684 ( 0.00%) let b: u64 = ((length as u64 & 0xff) << 56) | elem; . 1,842 ( 0.00%) state.v3 ^= b; . Sip24Rounds::c_rounds(&mut state); 1,842 ( 0.00%) state.v0 ^= b; . 1,842 ( 0.00%) state.v2 ^= 0xee; . Sip24Rounds::d_rounds(&mut state); 5,568 ( 0.00%) let _0 = state.v0 ^ state.v1 ^ state.v2 ^ state.v3; . 1,882 ( 0.00%) state.v1 ^= 0xdd; . Sip24Rounds::d_rounds(&mut state); 1,882 ( 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) { 274,852 ( 0.09%) compress!(state); 297,186 ( 0.10%) compress!(state); . } . . #[inline] . fn d_rounds(state: &mut State) { 11,132 ( 0.00%) compress!(state); 11,132 ( 0.00%) compress!(state); 11,132 ( 0.00%) compress!(state); 9,291 ( 0.00%) compress!(state); . } . } 51,643 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/hashbrown-0.12.0/src/map.rs -------------------------------------------------------------------------------- Ir -- line 187 ---------------------------------------- . /// ``` . pub struct HashMap { . pub(crate) hash_builder: S, . pub(crate) table: RawTable<(K, V), A>, . } . . impl Clone for HashMap { . fn clone(&self) -> Self { 42 ( 0.00%) HashMap { . hash_builder: self.hash_builder.clone(), 9 ( 0.00%) table: self.table.clone(), . } . } . . fn clone_from(&mut self, source: &Self) { . self.table.clone_from(&source.table); . . // Update hash_builder only if we successfully cloned all elements. . self.hash_builder.clone_from(&source.hash_builder); -- line 205 ---------------------------------------- -- line 210 ---------------------------------------- . /// instances of any functions like RawTable::reserve from being generated . #[cfg_attr(feature = "inline-more", inline)] . pub(crate) fn make_hasher(hash_builder: &S) -> impl Fn(&(Q, V)) -> u64 + '_ . where . K: Borrow, . Q: Hash, . S: BuildHasher, . { 8,847 ( 0.00%) move |val| make_hash::(hash_builder, &val.0) . } . . /// Ensures that a single closure type across uses of this which, in turn prevents multiple . /// instances of any functions like RawTable::reserve from being generated . #[cfg_attr(feature = "inline-more", inline)] . fn equivalent_key(k: &Q) -> impl Fn(&(K, V)) -> bool + '_ . where . K: Borrow, . Q: ?Sized + Eq, . { 16,284 ( 0.01%) move |x| k.eq(x.0.borrow()) . } . . /// Ensures that a single closure type across uses of this which, in turn prevents multiple . /// instances of any functions like RawTable::reserve from being generated . #[cfg_attr(feature = "inline-more", inline)] . fn equivalent(k: &Q) -> impl Fn(&K) -> bool + '_ . where . K: Borrow, . Q: ?Sized + Eq, . { 29,396 ( 0.01%) move |x| k.eq(x.borrow()) . } . . #[cfg(not(feature = "nightly"))] . #[cfg_attr(feature = "inline-more", inline)] . pub(crate) fn make_hash(hash_builder: &S, val: &Q) -> u64 . where . K: Borrow, . Q: Hash + ?Sized, -- line 248 ---------------------------------------- -- line 251 ---------------------------------------- . use core::hash::Hasher; . let mut state = hash_builder.build_hasher(); . val.hash(&mut state); . state.finish() . } . . #[cfg(feature = "nightly")] . #[cfg_attr(feature = "inline-more", inline)] 6 ( 0.00%) pub(crate) fn make_hash(hash_builder: &S, val: &Q) -> u64 . where . K: Borrow, . Q: Hash + ?Sized, . S: BuildHasher, . { . hash_builder.hash_one(val) 12 ( 0.00%) } . . #[cfg(not(feature = "nightly"))] . #[cfg_attr(feature = "inline-more", inline)] . pub(crate) fn make_insert_hash(hash_builder: &S, val: &K) -> u64 . where . K: Hash, . S: BuildHasher, . { -- line 274 ---------------------------------------- -- line 367 ---------------------------------------- . /// let s = DefaultHashBuilder::default(); . /// let mut map = HashMap::with_hasher(s); . /// map.insert(1, 2); . /// ``` . /// . /// [`BuildHasher`]: ../../std/hash/trait.BuildHasher.html . #[cfg_attr(feature = "inline-more", inline)] . pub const fn with_hasher(hash_builder: S) -> Self { 14,371 ( 0.00%) Self { . hash_builder, . table: RawTable::new(), . } . } . . /// Creates an empty `HashMap` with the specified capacity, using `hash_builder` . /// to hash the keys. . /// -- line 383 ---------------------------------------- -- line 437 ---------------------------------------- . /// use hashbrown::hash_map::DefaultHashBuilder; . /// . /// let s = DefaultHashBuilder::default(); . /// let mut map = HashMap::with_hasher(s); . /// map.insert(1, 2); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn with_hasher_in(hash_builder: S, alloc: A) -> Self { 16 ( 0.00%) Self { . hash_builder, . table: RawTable::new_in(alloc), . } . } . . /// Creates an empty `HashMap` with the specified capacity, using `hash_builder` . /// to hash the keys. It will be allocated with the given allocator. . /// -- line 453 ---------------------------------------- -- line 663 ---------------------------------------- . /// . /// let mut a = HashMap::new(); . /// assert_eq!(a.len(), 0); . /// a.insert(1, "a"); . /// assert_eq!(a.len(), 1); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn len(&self) -> usize { 1,483 ( 0.00%) self.table.len() . } . . /// Returns `true` if the map contains no elements. . /// . /// # Examples . /// . /// ``` . /// use hashbrown::HashMap; -- line 679 ---------------------------------------- -- line 680 ---------------------------------------- . /// . /// let mut a = HashMap::new(); . /// assert!(a.is_empty()); . /// a.insert(1, "a"); . /// assert!(!a.is_empty()); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn is_empty(&self) -> bool { 3,269 ( 0.00%) self.len() == 0 . } . . /// Clears the map, returning all key-value pairs as an iterator. Keeps the . /// allocated memory for reuse. . /// . /// # Examples . /// . /// ``` -- line 696 ---------------------------------------- -- line 790 ---------------------------------------- . /// use hashbrown::HashMap; . /// . /// let mut a = HashMap::new(); . /// a.insert(1, "a"); . /// a.clear(); . /// assert!(a.is_empty()); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 6 ( 0.00%) pub fn clear(&mut self) { . self.table.clear(); 6 ( 0.00%) } . . /// Creates a consuming iterator visiting all the keys in arbitrary order. . /// The map cannot be used after calling this. . /// The iterator element type is `K`. . /// . /// # Examples . /// . /// ``` -- line 808 ---------------------------------------- -- line 963 ---------------------------------------- . /// } . /// . /// assert_eq!(letters[&'s'], 2); . /// assert_eq!(letters[&'t'], 3); . /// assert_eq!(letters[&'u'], 1); . /// assert_eq!(letters.get(&'y'), None); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 68 ( 0.00%) pub fn entry(&mut self, key: K) -> Entry<'_, K, V, S, A> { . let hash = make_insert_hash::(&self.hash_builder, &key); . if let Some(elem) = self.table.find(hash, equivalent_key(&key)) { 5 ( 0.00%) Entry::Occupied(OccupiedEntry { . hash, . key: Some(key), . elem, . table: self, . }) . } else { 80 ( 0.00%) Entry::Vacant(VacantEntry { . hash, . key, . table: self, . }) . } 85 ( 0.00%) } . . /// Gets the given key's corresponding entry by reference in the map for in-place manipulation. . /// . /// # Examples . /// . /// ``` . /// use hashbrown::HashMap; . /// -- line 995 ---------------------------------------- -- line 1047 ---------------------------------------- . /// ``` . #[inline] . pub fn get(&self, k: &Q) -> Option<&V> . where . K: Borrow, . Q: Hash + Eq, . { . // Avoid `Option::map` because it bloats LLVM IR. 24,936 ( 0.01%) match self.get_inner(k) { . Some(&(_, ref v)) => Some(v), . None => None, . } . } . . /// Returns the key-value pair corresponding to the supplied key. . /// . /// The supplied key may be any borrowed form of the map's key type, but -- line 1063 ---------------------------------------- -- line 1091 ---------------------------------------- . } . . #[inline] . fn get_inner(&self, k: &Q) -> Option<&(K, V)> . where . K: Borrow, . Q: Hash + Eq, . { 55,995 ( 0.02%) if self.table.is_empty() { . None . } else { 3 ( 0.00%) let hash = make_hash::(&self.hash_builder, k); . self.table.get(hash, equivalent_key(k)) . } . } . . /// Returns the key-value pair corresponding to the supplied key, with a mutable reference to value. . /// . /// The supplied key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for -- line 1110 ---------------------------------------- -- line 1155 ---------------------------------------- . /// use hashbrown::HashMap; . /// . /// let mut map = HashMap::new(); . /// map.insert(1, "a"); . /// assert_eq!(map.contains_key(&1), true); . /// assert_eq!(map.contains_key(&2), false); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 23,431 ( 0.01%) pub fn contains_key(&self, k: &Q) -> bool . where . K: Borrow, . Q: Hash + Eq, . { . self.get_inner(k).is_some() 31,032 ( 0.01%) } . . /// Returns a mutable reference to the value corresponding to the key. . /// . /// The key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. . /// . /// [`Eq`]: https://doc.rust-lang.org/std/cmp/trait.Eq.html -- line 1177 ---------------------------------------- -- line 1185 ---------------------------------------- . /// let mut map = HashMap::new(); . /// map.insert(1, "a"); . /// if let Some(x) = map.get_mut(&1) { . /// *x = "b"; . /// } . /// assert_eq!(map[&1], "b"); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 18 ( 0.00%) pub fn get_mut(&mut self, k: &Q) -> Option<&mut V> . where . K: Borrow, . Q: Hash + Eq, . { . // Avoid `Option::map` because it bloats LLVM IR. 54 ( 0.00%) match self.get_inner_mut(k) { . Some(&mut (_, ref mut v)) => Some(v), . None => None, . } 36 ( 0.00%) } . . #[inline] . fn get_inner_mut(&mut self, k: &Q) -> Option<&mut (K, V)> . where . K: Borrow, . Q: Hash + Eq, . { 18 ( 0.00%) if self.table.is_empty() { . None . } else { . let hash = make_hash::(&self.hash_builder, k); . self.table.get_mut(hash, equivalent_key(k)) . } . } . . /// Attempts to get mutable references to `N` values in the map at once. -- line 1219 ---------------------------------------- -- line 1495 ---------------------------------------- . /// assert_eq!(map.insert(37, "a"), None); . /// assert_eq!(map.is_empty(), false); . /// . /// map.insert(37, "b"); . /// assert_eq!(map.insert(37, "c"), Some("b")); . /// assert_eq!(map[&37], "c"); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 377,260 ( 0.13%) pub fn insert(&mut self, k: K, v: V) -> Option { . let hash = make_insert_hash::(&self.hash_builder, &k); 12 ( 0.00%) if let Some((_, item)) = self.table.get_mut(hash, equivalent_key(&k)) { . Some(mem::replace(item, v)) . } else { 217,411 ( 0.07%) self.table 210,922 ( 0.07%) .insert(hash, (k, v), make_hasher::(&self.hash_builder)); 19,916 ( 0.01%) None . } 347,006 ( 0.12%) } . . /// Insert a key-value pair into the map without checking . /// if the key already exists in the map. . /// . /// Returns a reference to the key and value just inserted. . /// . /// This operation is safe if a key does not exist in the map. . /// -- line 1520 ---------------------------------------- -- line 1592 ---------------------------------------- . /// use hashbrown::HashMap; . /// . /// let mut map = HashMap::new(); . /// map.insert(1, "a"); . /// assert_eq!(map.remove(&1), Some("a")); . /// assert_eq!(map.remove(&1), None); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 1,702 ( 0.00%) pub fn remove(&mut self, k: &Q) -> Option . where . K: Borrow, . Q: Hash + Eq, . { . // Avoid `Option::map` because it bloats LLVM IR. 101,041 ( 0.03%) match self.remove_entry(k) { 220 ( 0.00%) Some((_, v)) => Some(v), 2,822 ( 0.00%) None => None, . } 4,073 ( 0.00%) } . . /// Removes a key from the map, returning the stored key and value if the . /// key was previously in the map. . /// . /// The key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. . /// -- line 1618 ---------------------------------------- -- line 1631 ---------------------------------------- . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn remove_entry(&mut self, k: &Q) -> Option<(K, V)> . where . K: Borrow, . Q: Hash + Eq, . { . let hash = make_hash::(&self.hash_builder, k); 24,845 ( 0.01%) self.table.remove_entry(hash, equivalent_key(k)) . } . } . . impl HashMap { . /// Creates a raw entry builder for the HashMap. . /// . /// Raw entries provide the lowest level of control for searching and . /// manipulating a map. They must be manually initialized with a hash and -- line 1647 ---------------------------------------- -- line 2209 ---------------------------------------- . /// Creates a `RawEntryMut` from the given key and its hash. . #[inline] . #[allow(clippy::wrong_self_convention)] . pub fn from_key_hashed_nocheck(self, hash: u64, k: &Q) -> RawEntryMut<'a, K, V, S, A> . where . K: Borrow, . Q: Eq, . { 408,746 ( 0.14%) self.from_hash(hash, equivalent(k)) . } . } . . impl<'a, K, V, S, A: Allocator + Clone> RawEntryBuilderMut<'a, K, V, S, A> { . /// Creates a `RawEntryMut` from the given hash. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::wrong_self_convention)] 926,127 ( 0.31%) pub fn from_hash(self, hash: u64, is_match: F) -> RawEntryMut<'a, K, V, S, A> . where . for<'b> F: FnMut(&'b K) -> bool, . { . self.search(hash, is_match) 1,053,234 ( 0.35%) } . . #[cfg_attr(feature = "inline-more", inline)] . fn search(self, hash: u64, mut is_match: F) -> RawEntryMut<'a, K, V, S, A> . where . for<'b> F: FnMut(&'b K) -> bool, . { 126,628 ( 0.04%) match self.map.table.find(hash, |(k, _)| is_match(k)) { 698,557 ( 0.23%) Some(elem) => RawEntryMut::Occupied(RawOccupiedEntryMut { . elem, . table: &mut self.map.table, . hash_builder: &self.map.hash_builder, . }), 16,054 ( 0.01%) None => RawEntryMut::Vacant(RawVacantEntryMut { . table: &mut self.map.table, . hash_builder: &self.map.hash_builder, . }), . } . } . } . . impl<'a, K, V, S, A: Allocator + Clone> RawEntryBuilder<'a, K, V, S, A> { -- line 2251 ---------------------------------------- -- line 2260 ---------------------------------------- . { . let hash = make_hash::(&self.map.hash_builder, k); . self.from_key_hashed_nocheck(hash, k) . } . . /// Access an entry by a key and its hash. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::wrong_self_convention)] 170,755 ( 0.06%) pub fn from_key_hashed_nocheck(self, hash: u64, k: &Q) -> Option<(&'a K, &'a V)> . where . K: Borrow, . Q: Eq, . { 259,263 ( 0.09%) self.from_hash(hash, equivalent(k)) 327,431 ( 0.11%) } . . #[cfg_attr(feature = "inline-more", inline)] . fn search(self, hash: u64, mut is_match: F) -> Option<(&'a K, &'a V)> . where . F: FnMut(&K) -> bool, . { 292,312 ( 0.10%) match self.map.table.get(hash, |(k, _)| is_match(k)) { . Some(&(ref key, ref value)) => Some((key, value)), . None => None, . } . } . . /// Access an entry by hash. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::wrong_self_convention)] -- line 2289 ---------------------------------------- -- line 2624 ---------------------------------------- . /// and returns a mutable reference to it. . #[cfg_attr(feature = "inline-more", inline)] . #[allow(clippy::shadow_unrelated)] . pub fn insert_hashed_nocheck(self, hash: u64, key: K, value: V) -> (&'a mut K, &'a mut V) . where . K: Hash, . S: BuildHasher, . { 26,290 ( 0.01%) let &mut (ref mut k, ref mut v) = self.table.insert_entry( . hash, . (key, value), . make_hasher::(self.hash_builder), . ); . (k, v) . } . . /// Set the value of an entry with a custom hasher function. -- line 2640 ---------------------------------------- -- line 2974 ---------------------------------------- . /// map.insert("a", 1); . /// map.insert("b", 2); . /// map.insert("c", 3); . /// . /// // Not possible with .iter() . /// let vec: Vec<(&str, i32)> = map.into_iter().collect(); . /// ``` . #[cfg_attr(feature = "inline-more", inline)] 177 ( 0.00%) fn into_iter(self) -> IntoIter { 8,311 ( 0.00%) IntoIter { 5,905 ( 0.00%) inner: self.table.into_iter(), . } 531 ( 0.00%) } . } . . impl<'a, K, V> Iterator for Iter<'a, K, V> { . type Item = (&'a K, &'a V); . . #[cfg_attr(feature = "inline-more", inline)] . fn next(&mut self) -> Option<(&'a K, &'a V)> { . // Avoid `Option::map` because it bloats LLVM IR. 9,427 ( 0.00%) match self.inner.next() { . Some(x) => unsafe { . let r = x.as_ref(); 19 ( 0.00%) Some((&r.0, &r.1)) . }, . None => None, . } . } . #[cfg_attr(feature = "inline-more", inline)] . fn size_hint(&self) -> (usize, Option) { . self.inner.size_hint() . } -- line 3006 ---------------------------------------- -- line 3051 ---------------------------------------- . } . } . . impl Iterator for IntoIter { . type Item = (K, V); . . #[cfg_attr(feature = "inline-more", inline)] . fn next(&mut self) -> Option<(K, V)> { 314 ( 0.00%) self.inner.next() . } . #[cfg_attr(feature = "inline-more", inline)] . fn size_hint(&self) -> (usize, Option) { . self.inner.size_hint() . } . } . impl ExactSizeIterator for IntoIter { . #[cfg_attr(feature = "inline-more", inline)] -- line 3067 ---------------------------------------- -- line 3819 ---------------------------------------- . /// ``` . #[cfg_attr(feature = "inline-more", inline)] . pub fn insert(self, value: V) -> &'a mut V . where . K: Hash, . S: BuildHasher, . { . let table = &mut self.table.table; 8 ( 0.00%) let entry = table.insert_entry( . self.hash, . (self.key, value), . make_hasher::(&self.table.hash_builder), . ); . &mut entry.1 . } . . #[cfg_attr(feature = "inline-more", inline)] -- line 3835 ---------------------------------------- -- line 4557 ---------------------------------------- . /// keys with new values returned from the iterator. . impl Extend<(K, V)> for HashMap . where . K: Eq + Hash, . S: BuildHasher, . A: Allocator + Clone, . { . #[cfg_attr(feature = "inline-more", inline)] 5,868 ( 0.00%) fn extend>(&mut self, iter: T) { . // Keys may be already present or show multiple times in the iterator. . // Reserve the entire hint lower bound if the map is empty. . // Otherwise reserve half the hint (rounded up), so the map . // will only resize twice in the worst case. 6,658 ( 0.00%) let iter = iter.into_iter(); 1,367 ( 0.00%) let reserve = if self.is_empty() { . iter.size_hint().0 . } else { 547 ( 0.00%) (iter.size_hint().0 + 1) / 2 . }; . self.reserve(reserve); . iter.for_each(move |(k, v)| { 16,557 ( 0.01%) self.insert(k, v); . }); 2,973 ( 0.00%) } . . #[inline] . #[cfg(feature = "nightly")] . fn extend_one(&mut self, (k, v): (K, V)) { . self.insert(k, v); . } . . #[inline] -- line 4588 ---------------------------------------- 327,377 ( 0.11%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/std/src/collections/hash/map.rs -------------------------------------------------------------------------------- Ir -- line 270 ---------------------------------------- . /// . /// let s = RandomState::new(); . /// let mut map = HashMap::with_hasher(s); . /// map.insert(1, 2); . /// ``` . #[inline] . #[stable(feature = "hashmap_build_hasher", since = "1.7.0")] . pub fn with_hasher(hash_builder: S) -> HashMap { 85,659 ( 0.03%) HashMap { base: base::HashMap::with_hasher(hash_builder) } . } . . /// Creates an empty `HashMap` with the specified capacity, using `hash_builder` . /// to hash the keys. . /// . /// The hash map will be able to hold at least `capacity` elements without . /// reallocating. If `capacity` is 0, the hash map will not allocate. . /// -- line 286 ---------------------------------------- -- line 300 ---------------------------------------- . /// . /// let s = RandomState::new(); . /// let mut map = HashMap::with_capacity_and_hasher(10, s); . /// map.insert(1, 2); . /// ``` . #[inline] . #[stable(feature = "hashmap_build_hasher", since = "1.7.0")] . pub fn with_capacity_and_hasher(capacity: usize, hash_builder: S) -> HashMap { 425 ( 0.00%) HashMap { base: base::HashMap::with_capacity_and_hasher(capacity, hash_builder) } . } . . /// Returns the number of elements the map can hold without reallocating. . /// . /// This number is a lower bound; the `HashMap` might be able to hold . /// more, but is guaranteed to be able to hold at least this many. . /// . /// # Examples -- line 316 ---------------------------------------- -- line 468 ---------------------------------------- . /// ]); . /// . /// for (key, val) in map.iter() { . /// println!("key: {} val: {}", key, val); . /// } . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . pub fn iter(&self) -> Iter<'_, K, V> { 1,990 ( 0.00%) Iter { base: self.base.iter() } . } . . /// An iterator visiting all key-value pairs in arbitrary order, . /// with mutable references to the values. . /// The iterator element type is `(&'a K, &'a mut V)`. . /// . /// # Examples . /// -- line 484 ---------------------------------------- -- line 643 ---------------------------------------- . /// let mut a = HashMap::new(); . /// a.insert(1, "a"); . /// a.clear(); . /// assert!(a.is_empty()); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn clear(&mut self) { 1 ( 0.00%) self.base.clear(); . } . . /// Returns a reference to the map's [`BuildHasher`]. . /// . /// # Examples . /// . /// ``` . /// use std::collections::HashMap; -- line 659 ---------------------------------------- -- line 688 ---------------------------------------- . /// ``` . /// use std::collections::HashMap; . /// let mut map: HashMap<&str, i32> = HashMap::new(); . /// map.reserve(10); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn reserve(&mut self, additional: usize) { 1 ( 0.00%) self.base.reserve(additional) . } . . /// Tries to reserve capacity for at least `additional` more elements to be inserted . /// in the given `HashMap`. The collection may reserve more space to avoid . /// frequent reallocations. . /// . /// # Errors . /// -- line 704 ---------------------------------------- -- line 784 ---------------------------------------- . /// assert_eq!(letters[&'s'], 2); . /// assert_eq!(letters[&'t'], 3); . /// assert_eq!(letters[&'u'], 1); . /// assert_eq!(letters.get(&'y'), None); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn entry(&mut self, key: K) -> Entry<'_, K, V> { 183,439 ( 0.06%) map_entry(self.base.rustc_entry(key)) . } . . /// Returns a reference to the value corresponding to the key. . /// . /// The key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. . /// -- line 800 ---------------------------------------- -- line 805 ---------------------------------------- . /// . /// let mut map = HashMap::new(); . /// map.insert(1, "a"); . /// assert_eq!(map.get(&1), Some(&"a")); . /// assert_eq!(map.get(&2), None); . /// ``` . #[stable(feature = "rust1", since = "1.0.0")] . #[inline] 12,571 ( 0.00%) pub fn get(&self, k: &Q) -> Option<&V> . where . K: Borrow, . Q: Hash + Eq, . { . self.base.get(k) 17,160 ( 0.01%) } . . /// Returns the key-value pair corresponding to the supplied key. . /// . /// The supplied key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. . /// . /// # Examples -- line 827 ---------------------------------------- -- line 862 ---------------------------------------- . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn contains_key(&self, k: &Q) -> bool . where . K: Borrow, . Q: Hash + Eq, . { 5,765 ( 0.00%) self.base.contains_key(k) . } . . /// Returns a mutable reference to the value corresponding to the key. . /// . /// The key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. . /// -- line 878 ---------------------------------------- -- line 890 ---------------------------------------- . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn get_mut(&mut self, k: &Q) -> Option<&mut V> . where . K: Borrow, . Q: Hash + Eq, . { 37 ( 0.00%) self.base.get_mut(k) . } . . /// Inserts a key-value pair into the map. . /// . /// If the map did not have this key present, [`None`] is returned. . /// . /// If the map did have this key present, the value is updated, and the old . /// value is returned. The key is not updated, though; this matters for -- line 906 ---------------------------------------- -- line 920 ---------------------------------------- . /// . /// map.insert(37, "b"); . /// assert_eq!(map.insert(37, "c"), Some("b")); . /// assert_eq!(map[&37], "c"); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn insert(&mut self, k: K, v: V) -> Option { 208,341 ( 0.07%) self.base.insert(k, v) . } . . /// Tries to insert a key-value pair into the map, and returns . /// a mutable reference to the value in the entry. . /// . /// If the map already had this key present, nothing is updated, and . /// an error containing the occupied entry and the value is returned. . /// -- line 936 ---------------------------------------- -- line 978 ---------------------------------------- . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn remove(&mut self, k: &Q) -> Option . where . K: Borrow, . Q: Hash + Eq, . { 3,804 ( 0.00%) self.base.remove(k) . } . . /// Removes a key from the map, returning the stored key and value if the . /// key was previously in the map. . /// . /// The key may be any borrowed form of the map's key type, but . /// [`Hash`] and [`Eq`] on the borrowed form *must* match those for . /// the key type. -- line 994 ---------------------------------------- -- line 1083 ---------------------------------------- . impl Clone for HashMap . where . K: Clone, . V: Clone, . S: Clone, . { . #[inline] . fn clone(&self) -> Self { 17 ( 0.00%) Self { base: self.base.clone() } . } . . #[inline] . fn clone_from(&mut self, other: &Self) { . self.base.clone_from(&other.base); . } . } . -- line 1099 ---------------------------------------- -- line 1155 ---------------------------------------- . type Output = V; . . /// Returns a reference to the value corresponding to the supplied key. . /// . /// # Panics . /// . /// Panics if the key is not present in the `HashMap`. . #[inline] 64 ( 0.00%) fn index(&self, key: &Q) -> &V { . self.get(key).expect("no entry found for key") 80 ( 0.00%) } . } . . #[stable(feature = "std_collections_from_array", since = "1.56.0")] . // Note: as what is currently the most convenient built-in way to construct . // a HashMap, a simple usage of this function must not *require* the user . // to provide a type annotation in order to infer the third type parameter . // (the hasher parameter, conventionally "S"). . // To that end, this impl is defined using RandomState as the concrete -- line 1173 ---------------------------------------- -- line 1557 ---------------------------------------- . /// Creates a `RawEntryMut` from the given key and its hash. . #[inline] . #[unstable(feature = "hash_raw_entry", issue = "56167")] . pub fn from_key_hashed_nocheck(self, hash: u64, k: &Q) -> RawEntryMut<'a, K, V, S> . where . K: Borrow, . Q: Eq, . { 353,600 ( 0.12%) map_raw_entry(self.map.base.raw_entry_mut().from_key_hashed_nocheck(hash, k)) . } . . /// Creates a `RawEntryMut` from the given hash. . #[inline] . #[unstable(feature = "hash_raw_entry", issue = "56167")] . pub fn from_hash(self, hash: u64, is_match: F) -> RawEntryMut<'a, K, V, S> . where . for<'b> F: FnMut(&'b K) -> bool, -- line 1573 ---------------------------------------- -- line 1594 ---------------------------------------- . /// Access an entry by a key and its hash. . #[inline] . #[unstable(feature = "hash_raw_entry", issue = "56167")] . pub fn from_key_hashed_nocheck(self, hash: u64, k: &Q) -> Option<(&'a K, &'a V)> . where . K: Borrow, . Q: Hash + Eq, . { 340,124 ( 0.11%) self.map.base.raw_entry().from_key_hashed_nocheck(hash, k) . } . . /// Access an entry by hash. . #[inline] . #[unstable(feature = "hash_raw_entry", issue = "56167")] . pub fn from_hash(self, hash: u64, is_match: F) -> Option<(&'a K, &'a V)> . where . F: FnMut(&K) -> bool, -- line 1610 ---------------------------------------- -- line 2338 ---------------------------------------- . /// assert_eq!(map["poneyland"], 3); . /// . /// *map.entry("poneyland").or_insert(10) *= 2; . /// assert_eq!(map["poneyland"], 6); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn or_insert(self, default: V) -> &'a mut V { 2,032 ( 0.00%) match self { . Occupied(entry) => entry.into_mut(), . Vacant(entry) => entry.insert(default), . } . } . . /// Ensures a value is in the entry by inserting the result of the default function if empty, . /// and returns a mutable reference to the value in the entry. . /// -- line 2354 ---------------------------------------- -- line 2362 ---------------------------------------- . /// . /// map.entry("poneyland").or_insert_with(|| s); . /// . /// assert_eq!(map["poneyland"], "hoho".to_string()); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn or_insert_with V>(self, default: F) -> &'a mut V { 24,874 ( 0.01%) match self { . Occupied(entry) => entry.into_mut(), . Vacant(entry) => entry.insert(default()), . } . } . . /// Ensures a value is in the entry by inserting, if empty, the result of the default function. . /// This method allows for generating key-derived values for insertion by providing the default . /// function a reference to the key that was moved during the `.entry(key)` method call. -- line 2378 ---------------------------------------- -- line 2496 ---------------------------------------- . /// map.entry("poneyland").or_default(); . /// . /// assert_eq!(map["poneyland"], None); . /// # } . /// ``` . #[inline] . #[stable(feature = "entry_or_default", since = "1.28.0")] . pub fn or_default(self) -> &'a mut V { 4,240 ( 0.00%) match self { . Occupied(entry) => entry.into_mut(), . Vacant(entry) => entry.insert(Default::default()), . } . } . } . . impl<'a, K, V> OccupiedEntry<'a, K, V> { . /// Gets a reference to the key in the entry. -- line 2512 ---------------------------------------- -- line 2790 ---------------------------------------- . /// if let Entry::Vacant(o) = map.entry("poneyland") { . /// o.insert(37); . /// } . /// assert_eq!(map["poneyland"], 37); . /// ``` . #[inline] . #[stable(feature = "rust1", since = "1.0.0")] . pub fn insert(self, value: V) -> &'a mut V { 6,541 ( 0.00%) self.base.insert(value) . } . . /// Sets the value of the entry with the `VacantEntry`'s key, . /// and returns an `OccupiedEntry`. . /// . /// # Examples . /// . /// ``` -- line 2806 ---------------------------------------- -- line 2823 ---------------------------------------- . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl FromIterator<(K, V)> for HashMap . where . K: Eq + Hash, . S: BuildHasher + Default, . { 4 ( 0.00%) fn from_iter>(iter: T) -> HashMap { . let mut map = HashMap::with_hasher(Default::default()); . map.extend(iter); . map 5 ( 0.00%) } . } . . /// Inserts all new key-values from the iterator and replaces values with existing . /// keys with new values returned from the iterator. . #[stable(feature = "rust1", since = "1.0.0")] . impl Extend<(K, V)> for HashMap . where . K: Eq + Hash, . S: BuildHasher, . { . #[inline] . fn extend>(&mut self, iter: T) { 3,730 ( 0.00%) self.base.extend(iter) . } . . #[inline] . fn extend_one(&mut self, (k, v): (K, V)) { . self.base.insert(k, v); . } . . #[inline] -- line 2856 ---------------------------------------- -- line 2928 ---------------------------------------- . // many hash maps are created on a thread. To solve this performance . // trap we cache the first set of randomly generated keys per-thread. . // . // Later in #36481 it was discovered that exposing a deterministic . // iteration order allows a form of DOS attack. To counter that we . // increment one of the seeds on every RandomState creation, giving . // every corresponding HashMap a different iteration order. . thread_local!(static KEYS: Cell<(u64, u64)> = { 1 ( 0.00%) Cell::new(sys::hashmap_random_keys()) . }); . . KEYS.with(|keys| { 3 ( 0.00%) let (k0, k1) = keys.get(); . keys.set((k0.wrapping_add(1), k1)); . RandomState { k0, k1 } . }) . } . } . . #[stable(feature = "hashmap_build_hasher", since = "1.7.0")] . impl BuildHasher for RandomState { -- line 2948 ---------------------------------------- -- line 2967 ---------------------------------------- . /// Creates a new `DefaultHasher`. . /// . /// This hasher is not guaranteed to be the same as all other . /// `DefaultHasher` instances, but is the same as all other `DefaultHasher` . /// instances created through `new` or `default`. . #[stable(feature = "hashmap_default_hasher", since = "1.13.0")] . #[allow(deprecated)] . #[must_use] 3 ( 0.00%) pub fn new() -> DefaultHasher { 12 ( 0.00%) DefaultHasher(SipHasher13::new_with_keys(0, 0)) 3 ( 0.00%) } . } . . #[stable(feature = "hashmap_default_hasher", since = "1.13.0")] . impl Default for DefaultHasher { . /// Creates a new `DefaultHasher` using [`new`]. . /// See its documentation for more. . /// . /// [`new`]: DefaultHasher::new -- line 2985 ---------------------------------------- -- line 2986 ---------------------------------------- . fn default() -> DefaultHasher { . DefaultHasher::new() . } . } . . #[stable(feature = "hashmap_default_hasher", since = "1.13.0")] . impl Hasher for DefaultHasher { . #[inline] 1,074 ( 0.00%) fn write(&mut self, msg: &[u8]) { . self.0.write(msg) 1,074 ( 0.00%) } . . #[inline] . fn finish(&self) -> u64 { . self.0.finish() . } . } . . #[stable(feature = "hashmap_build_hasher", since = "1.7.0")] -- line 3004 ---------------------------------------- -- line 3014 ---------------------------------------- . impl fmt::Debug for RandomState { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . f.debug_struct("RandomState").finish_non_exhaustive() . } . } . . #[inline] . fn map_entry<'a, K: 'a, V: 'a>(raw: base::RustcEntry<'a, K, V>) -> Entry<'a, K, V> { 4,870 ( 0.00%) match raw { . base::RustcEntry::Occupied(base) => Entry::Occupied(OccupiedEntry { base }), 45 ( 0.00%) base::RustcEntry::Vacant(base) => Entry::Vacant(VacantEntry { base }), . } . } . . #[inline] . pub(super) fn map_try_reserve_error(err: hashbrown::TryReserveError) -> TryReserveError { . match err { . hashbrown::TryReserveError::CapacityOverflow => { . TryReserveErrorKind::CapacityOverflow.into() -- line 3032 ---------------------------------------- -- line 3036 ---------------------------------------- . } . } . } . . #[inline] . fn map_raw_entry<'a, K: 'a, V: 'a, S: 'a>( . raw: base::RawEntryMut<'a, K, V, S>, . ) -> RawEntryMut<'a, K, V, S> { 278,978 ( 0.09%) match raw { . base::RawEntryMut::Occupied(base) => RawEntryMut::Occupied(RawOccupiedEntryMut { base }), . base::RawEntryMut::Vacant(base) => RawEntryMut::Vacant(RawVacantEntryMut { base }), . } . } . . #[allow(dead_code)] . fn assert_covariance() { . fn map_key<'new>(v: HashMap<&'static str, u8>) -> HashMap<&'new str, u8> { -- line 3052 ---------------------------------------- 224,307 ( 0.07%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/ty/fold.rs -------------------------------------------------------------------------------- Ir -- line 46 ---------------------------------------- . /// . /// To implement this conveniently, use the derive macro located in `rustc_macros`. . pub trait TypeFoldable<'tcx>: fmt::Debug + Clone { . /// Consumers may find this more convenient to use with infallible folders than . /// [`try_super_fold_with`][`TypeFoldable::try_super_fold_with`], to which the . /// provided default definition delegates. Implementors **should not** override . /// this provided default definition, to ensure that the two methods are coherent . /// (provide a definition of `try_super_fold_with` instead). 1,102,125 ( 0.37%) fn super_fold_with>(self, folder: &mut F) -> Self { 22,001 ( 0.01%) self.try_super_fold_with(folder).into_ok() 1,124,117 ( 0.37%) } . /// Consumers may find this more convenient to use with infallible folders than . /// [`try_fold_with`][`TypeFoldable::try_fold_with`], to which the provided . /// default definition delegates. Implementors **should not** override this . /// provided default definition, to ensure that the two methods are coherent . /// (provide a definition of `try_fold_with` instead). 2,536 ( 0.00%) fn fold_with>(self, folder: &mut F) -> Self { 5,100 ( 0.00%) self.try_fold_with(folder).into_ok() 2,360 ( 0.00%) } . . fn try_super_fold_with>( . self, . folder: &mut F, . ) -> Result; . 1,066,276 ( 0.35%) fn try_fold_with>(self, folder: &mut F) -> Result { 344,737 ( 0.11%) self.try_super_fold_with(folder) 1,147,549 ( 0.38%) } . . fn super_visit_with>(&self, visitor: &mut V) -> ControlFlow; 28,688 ( 0.01%) fn visit_with>(&self, visitor: &mut V) -> ControlFlow { 34,491 ( 0.01%) self.super_visit_with(visitor) 19,185 ( 0.01%) } . . /// Returns `true` if `self` has any late-bound regions that are either . /// bound by `binder` or bound by some binder outside of `binder`. . /// If `binder` is `ty::INNERMOST`, this indicates whether . /// there are any late-bound regions that appear free. . fn has_vars_bound_at_or_above(&self, binder: ty::DebruijnIndex) -> bool { 36,096 ( 0.01%) self.visit_with(&mut HasEscapingVarsVisitor { outer_index: binder }).is_break() . } . . /// Returns `true` if this `self` has any regions that escape `binder` (and . /// hence are not bound by it). . fn has_vars_bound_above(&self, binder: ty::DebruijnIndex) -> bool { . self.has_vars_bound_at_or_above(binder.shifted_in(1)) . } . 44,080 ( 0.01%) fn has_escaping_bound_vars(&self) -> bool { 8,237 ( 0.00%) self.has_vars_bound_at_or_above(ty::INNERMOST) 44,122 ( 0.01%) } . 3,759 ( 0.00%) #[instrument(level = "trace")] . fn has_type_flags(&self, flags: TypeFlags) -> bool { 4,659 ( 0.00%) self.visit_with(&mut HasTypeFlagsVisitor { flags }).break_value() == Some(FoundFlags) . } . fn has_projections(&self) -> bool { 54 ( 0.00%) self.has_type_flags(TypeFlags::HAS_PROJECTION) . } . fn has_opaque_types(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_TY_OPAQUE) . } 928 ( 0.00%) fn references_error(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_ERROR) 928 ( 0.00%) } . fn has_param_types_or_consts(&self) -> bool { 1,050 ( 0.00%) self.has_type_flags(TypeFlags::HAS_TY_PARAM | TypeFlags::HAS_CT_PARAM) . } . fn has_infer_regions(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_RE_INFER) . } . fn has_infer_types(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_TY_INFER) . } . fn has_infer_types_or_consts(&self) -> bool { 6,488 ( 0.00%) self.has_type_flags(TypeFlags::HAS_TY_INFER | TypeFlags::HAS_CT_INFER) . } 4,430 ( 0.00%) fn needs_infer(&self) -> bool { 5,796 ( 0.00%) self.has_type_flags(TypeFlags::NEEDS_INFER) 4,436 ( 0.00%) } . fn has_placeholders(&self) -> bool { . self.has_type_flags( . TypeFlags::HAS_RE_PLACEHOLDER . | TypeFlags::HAS_TY_PLACEHOLDER . | TypeFlags::HAS_CT_PLACEHOLDER, . ) . } . fn needs_subst(&self) -> bool { -- line 133 ---------------------------------------- -- line 147 ---------------------------------------- . fn has_erasable_regions(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_FREE_REGIONS) . } . . /// Indicates whether this value references only 'global' . /// generic parameters that are the same regardless of what fn we are . /// in. This is used for caching. . fn is_global(&self) -> bool { 3,170 ( 0.00%) !self.has_type_flags(TypeFlags::HAS_FREE_LOCAL_NAMES) . } . . /// True if there are any late-bound regions . fn has_late_bound_regions(&self) -> bool { . self.has_type_flags(TypeFlags::HAS_RE_LATE_BOUND) . } . . /// Indicates whether this value still has parameters/placeholders/inference variables -- line 163 ---------------------------------------- -- line 194 ---------------------------------------- . . fn tcx<'a>(&'a self) -> TyCtxt<'tcx>; . . fn fold_binder(&mut self, t: Binder<'tcx, T>) -> Binder<'tcx, T> . where . T: TypeFoldable<'tcx>, . Self: TypeFolder<'tcx, Error = !>, . { 219,326 ( 0.07%) t.super_fold_with(self) . } . . fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> . where . Self: TypeFolder<'tcx, Error = !>, . { 2,366 ( 0.00%) t.super_fold_with(self) . } . . fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> . where . Self: TypeFolder<'tcx, Error = !>, . { . r.super_fold_with(self) . } . . fn fold_const(&mut self, c: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> . where . Self: TypeFolder<'tcx, Error = !>, . { 306 ( 0.00%) c.super_fold_with(self) . } . . fn fold_predicate(&mut self, p: ty::Predicate<'tcx>) -> ty::Predicate<'tcx> . where . Self: TypeFolder<'tcx, Error = !>, . { 39 ( 0.00%) p.super_fold_with(self) . } . . fn fold_mir_const(&mut self, c: mir::ConstantKind<'tcx>) -> mir::ConstantKind<'tcx> . where . Self: TypeFolder<'tcx, Error = !>, . { . bug!("most type folders should not be folding MIR datastructures: {:?}", c) . } -- line 238 ---------------------------------------- -- line 247 ---------------------------------------- . /// A blanket implementation of this trait (that defers to the relevant . /// method of [`TypeFolder`]) is provided for all infallible folders in . /// order to ensure the two APIs are coherent. . pub trait FallibleTypeFolder<'tcx>: TypeFolder<'tcx> { . fn try_fold_binder(&mut self, t: Binder<'tcx, T>) -> Result, Self::Error> . where . T: TypeFoldable<'tcx>, . { 3,940 ( 0.00%) t.try_super_fold_with(self) . } . . fn try_fold_ty(&mut self, t: Ty<'tcx>) -> Result, Self::Error> { . t.try_super_fold_with(self) . } . . fn try_fold_region(&mut self, r: ty::Region<'tcx>) -> Result, Self::Error> { . r.try_super_fold_with(self) -- line 263 ---------------------------------------- -- line 269 ---------------------------------------- . ) -> Result<&'tcx ty::Const<'tcx>, Self::Error> { . c.try_super_fold_with(self) . } . . fn try_fold_predicate( . &mut self, . p: ty::Predicate<'tcx>, . ) -> Result, Self::Error> { 1,588 ( 0.00%) p.try_super_fold_with(self) . } . . fn try_fold_mir_const( . &mut self, . c: mir::ConstantKind<'tcx>, . ) -> Result, Self::Error> { . bug!("most type folders should not be folding MIR datastructures: {:?}", c) . } -- line 285 ---------------------------------------- -- line 286 ---------------------------------------- . } . . // Blanket implementation of fallible trait for infallible folders . // delegates to infallible methods to prevent incoherence . impl<'tcx, F> FallibleTypeFolder<'tcx> for F . where . F: TypeFolder<'tcx, Error = !>, . { 89,868 ( 0.03%) fn try_fold_binder(&mut self, t: Binder<'tcx, T>) -> Result, Self::Error> . where . T: TypeFoldable<'tcx>, . { 157,363 ( 0.05%) Ok(self.fold_binder(t)) 134,802 ( 0.04%) } . 72 ( 0.00%) fn try_fold_ty(&mut self, t: Ty<'tcx>) -> Result, Self::Error> { 403,771 ( 0.13%) Ok(self.fold_ty(t)) 90 ( 0.00%) } . 124 ( 0.00%) fn try_fold_region(&mut self, r: ty::Region<'tcx>) -> Result, Self::Error> { 1,613 ( 0.00%) Ok(self.fold_region(r)) 124 ( 0.00%) } . 124,480 ( 0.04%) fn try_fold_const( . &mut self, . c: &'tcx ty::Const<'tcx>, . ) -> Result<&'tcx ty::Const<'tcx>, Self::Error> { 74,980 ( 0.02%) Ok(self.fold_const(c)) 122,880 ( 0.04%) } . . fn try_fold_predicate( . &mut self, . p: ty::Predicate<'tcx>, . ) -> Result, Self::Error> { . Ok(self.fold_predicate(p)) . } . -- line 322 ---------------------------------------- -- line 380 ---------------------------------------- . G: FnMut(ty::Region<'tcx>) -> ty::Region<'tcx>, . H: FnMut(&'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx>, . { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { . self.tcx . } . . fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> { 56 ( 0.00%) let t = ty.super_fold_with(self); . (self.ty_op)(t) . } . . fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> { . let r = r.super_fold_with(self); . (self.lt_op)(r) . } . -- line 396 ---------------------------------------- -- line 415 ---------------------------------------- . ) -> T . where . T: TypeFoldable<'tcx>, . { . value.fold_with(&mut RegionFolder::new(self, skipped_regions, &mut f)) . } . . /// Invoke `callback` on every region appearing free in `value`. 24 ( 0.00%) pub fn for_each_free_region( . self, . value: &impl TypeFoldable<'tcx>, . mut callback: impl FnMut(ty::Region<'tcx>), . ) { . self.any_free_region_meets(value, |r| { 136 ( 0.00%) callback(r); . false . }); 21 ( 0.00%) } . . /// Returns `true` if `callback` returns true for every region appearing free in `value`. . pub fn all_free_regions_meet( . self, . value: &impl TypeFoldable<'tcx>, . mut callback: impl FnMut(ty::Region<'tcx>) -> bool, . ) -> bool { 30 ( 0.00%) !self.any_free_region_meets(value, |r| !callback(r)) . } . . /// Returns `true` if `callback` returns true for some region appearing free in `value`. . pub fn any_free_region_meets( . self, . value: &impl TypeFoldable<'tcx>, . callback: impl FnMut(ty::Region<'tcx>) -> bool, . ) -> bool { -- line 448 ---------------------------------------- -- line 479 ---------------------------------------- . t: &Binder<'tcx, T>, . ) -> ControlFlow { . self.outer_index.shift_in(1); . let result = t.as_ref().skip_binder().visit_with(self); . self.outer_index.shift_out(1); . result . } . 125 ( 0.00%) fn visit_region(&mut self, r: ty::Region<'tcx>) -> ControlFlow { 224 ( 0.00%) match *r { . ty::ReLateBound(debruijn, _) if debruijn < self.outer_index => { . ControlFlow::CONTINUE . } . _ => { . if (self.callback)(r) { . ControlFlow::BREAK . } else { . ControlFlow::CONTINUE . } . } . } 175 ( 0.00%) } . . fn visit_ty(&mut self, ty: Ty<'tcx>) -> ControlFlow { . // We're only interested in types involving regions 426 ( 0.00%) if ty.flags().intersects(TypeFlags::HAS_FREE_REGIONS) { 150 ( 0.00%) ty.super_visit_with(self) . } else { . ControlFlow::CONTINUE . } . } . } . 1,355 ( 0.00%) value.visit_with(&mut RegionVisitor { outer_index: ty::INNERMOST, callback }).is_break() . } . } . . /// Folds over the substructure of a type, visiting its component . /// types and all regions that occur *free* within it. . /// . /// That is, `Ty` can contain function or method types that bind . /// regions at the call site (`ReLateBound`), and occurrences of -- line 520 ---------------------------------------- -- line 540 ---------------------------------------- . . impl<'a, 'tcx> RegionFolder<'a, 'tcx> { . #[inline] . pub fn new( . tcx: TyCtxt<'tcx>, . skipped_regions: &'a mut bool, . fold_region_fn: &'a mut dyn FnMut(ty::Region<'tcx>, ty::DebruijnIndex) -> ty::Region<'tcx>, . ) -> RegionFolder<'a, 'tcx> { 7,273 ( 0.00%) RegionFolder { tcx, skipped_regions, current_index: ty::INNERMOST, fold_region_fn } . } . } . . impl<'a, 'tcx> TypeFolder<'tcx> for RegionFolder<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 19,324 ( 0.01%) self.tcx 19,324 ( 0.01%) } . . fn fold_binder>( . &mut self, . t: ty::Binder<'tcx, T>, . ) -> ty::Binder<'tcx, T> { 24 ( 0.00%) self.current_index.shift_in(1); . let t = t.super_fold_with(self); 24 ( 0.00%) self.current_index.shift_out(1); . t . } . 20 ( 0.00%) #[instrument(skip(self), level = "debug")] . fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> { 196 ( 0.00%) match *r { 20 ( 0.00%) ty::ReLateBound(debruijn, _) if debruijn < self.current_index => { . debug!(?self.current_index, "skipped bound region"); 20 ( 0.00%) *self.skipped_regions = true; . r . } . _ => { . debug!(?self.current_index, "folding free region"); 528 ( 0.00%) (self.fold_region_fn)(r, self.current_index) . } . } . } . } . . /////////////////////////////////////////////////////////////////////////// . // Bound vars replacer . -- line 585 ---------------------------------------- -- line 592 ---------------------------------------- . current_index: ty::DebruijnIndex, . . fld_r: Option<&'a mut (dyn FnMut(ty::BoundRegion) -> ty::Region<'tcx> + 'a)>, . fld_t: Option<&'a mut (dyn FnMut(ty::BoundTy) -> Ty<'tcx> + 'a)>, . fld_c: Option<&'a mut (dyn FnMut(ty::BoundVar, Ty<'tcx>) -> &'tcx ty::Const<'tcx> + 'a)>, . } . . impl<'a, 'tcx> BoundVarReplacer<'a, 'tcx> { 478 ( 0.00%) fn new( . tcx: TyCtxt<'tcx>, . fld_r: Option<&'a mut (dyn FnMut(ty::BoundRegion) -> ty::Region<'tcx> + 'a)>, . fld_t: Option<&'a mut (dyn FnMut(ty::BoundTy) -> Ty<'tcx> + 'a)>, . fld_c: Option<&'a mut (dyn FnMut(ty::BoundVar, Ty<'tcx>) -> &'tcx ty::Const<'tcx> + 'a)>, . ) -> Self { 1,673 ( 0.00%) BoundVarReplacer { tcx, current_index: ty::INNERMOST, fld_r, fld_t, fld_c } 239 ( 0.00%) } . } . . impl<'a, 'tcx> TypeFolder<'tcx> for BoundVarReplacer<'a, 'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { 338 ( 0.00%) self.tcx 153 ( 0.00%) } . . fn fold_binder>( . &mut self, . t: ty::Binder<'tcx, T>, . ) -> ty::Binder<'tcx, T> { 330 ( 0.00%) self.current_index.shift_in(1); 580 ( 0.00%) let t = t.super_fold_with(self); 294 ( 0.00%) self.current_index.shift_out(1); . t . } . 1,360 ( 0.00%) fn fold_ty(&mut self, t: Ty<'tcx>) -> Ty<'tcx> { 790 ( 0.00%) match *t.kind() { 30 ( 0.00%) ty::Bound(debruijn, bound_ty) if debruijn == self.current_index => { 6 ( 0.00%) if let Some(fld_t) = self.fld_t.as_mut() { . let ty = fld_t(bound_ty); 6 ( 0.00%) return ty::fold::shift_vars(self.tcx, &ty, self.current_index.as_u32()); . } . } 778 ( 0.00%) _ if t.has_vars_bound_at_or_above(self.current_index) => { 986 ( 0.00%) return t.super_fold_with(self); . } . _ => {} . } . t 846 ( 0.00%) } . 680 ( 0.00%) fn fold_region(&mut self, r: ty::Region<'tcx>) -> ty::Region<'tcx> { 648 ( 0.00%) match *r { 648 ( 0.00%) ty::ReLateBound(debruijn, br) if debruijn == self.current_index => { 324 ( 0.00%) if let Some(fld_r) = self.fld_r.as_mut() { . let region = fld_r(br); 648 ( 0.00%) return if let ty::ReLateBound(debruijn1, br) = *region { . // If the callback returns a late-bound region, . // that region should always use the INNERMOST . // debruijn index. Then we adjust it to the . // correct depth. . assert_eq!(debruijn1, ty::INNERMOST); . self.tcx.mk_region(ty::ReLateBound(debruijn, br)) . } else { . region . }; . } . } . _ => {} . } . r 680 ( 0.00%) } . . fn fold_const(&mut self, ct: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { . match *ct { . ty::Const { val: ty::ConstKind::Bound(debruijn, bound_const), ty } . if debruijn == self.current_index => . { . if let Some(fld_c) = self.fld_c.as_mut() { . let ct = fld_c(bound_const, ty); -- line 669 ---------------------------------------- -- line 697 ---------------------------------------- . mut fld_r: F, . ) -> (T, BTreeMap>) . where . F: FnMut(ty::BoundRegion) -> ty::Region<'tcx>, . T: TypeFoldable<'tcx>, . { . let mut region_map = BTreeMap::new(); . let mut real_fld_r = 7,212 ( 0.00%) |br: ty::BoundRegion| *region_map.entry(br).or_insert_with(|| fld_r(br)); 98 ( 0.00%) let value = value.skip_binder(); 4,583 ( 0.00%) let value = if !value.has_escaping_bound_vars() { 8,364 ( 0.00%) value . } else { 277 ( 0.00%) let mut replacer = BoundVarReplacer::new(self, Some(&mut real_fld_r), None, None); . value.fold_with(&mut replacer) . }; 13,135 ( 0.00%) (value, region_map) . } . . /// Replaces all escaping bound vars. The `fld_r` closure replaces escaping . /// bound regions; the `fld_t` closure replaces escaping bound types and the `fld_c` . /// closure replaces escaping bound consts. 978 ( 0.00%) pub fn replace_escaping_bound_vars( . self, . value: T, . mut fld_r: F, . mut fld_t: G, . mut fld_c: H, . ) -> T . where . F: FnMut(ty::BoundRegion) -> ty::Region<'tcx>, . G: FnMut(ty::BoundTy) -> Ty<'tcx>, . H: FnMut(ty::BoundVar, Ty<'tcx>) -> &'tcx ty::Const<'tcx>, . T: TypeFoldable<'tcx>, . { 1,394 ( 0.00%) if !value.has_escaping_bound_vars() { 37,862 ( 0.01%) value . } else { . let mut replacer = 2,400 ( 0.00%) BoundVarReplacer::new(self, Some(&mut fld_r), Some(&mut fld_t), Some(&mut fld_c)); 486 ( 0.00%) value.fold_with(&mut replacer) . } 674 ( 0.00%) } . . /// Replaces all types or regions bound by the given `Binder`. The `fld_r` . /// closure replaces bound regions while the `fld_t` closure replaces bound . /// types. 140,578 ( 0.05%) pub fn replace_bound_vars( . self, . value: Binder<'tcx, T>, . mut fld_r: F, . fld_t: G, . fld_c: H, . ) -> (T, BTreeMap>) . where . F: FnMut(ty::BoundRegion) -> ty::Region<'tcx>, . G: FnMut(ty::BoundTy) -> Ty<'tcx>, . H: FnMut(ty::BoundVar, Ty<'tcx>) -> &'tcx ty::Const<'tcx>, . T: TypeFoldable<'tcx>, . { . let mut region_map = BTreeMap::new(); 836 ( 0.00%) let real_fld_r = |br: ty::BoundRegion| *region_map.entry(br).or_insert_with(|| fld_r(br)); 137,998 ( 0.05%) let value = self.replace_escaping_bound_vars(value.skip_binder(), real_fld_r, fld_t, fld_c); 134,780 ( 0.04%) (value, region_map) 92,568 ( 0.03%) } . . /// Replaces any late-bound regions bound in `value` with . /// free variants attached to `all_outlive_scope`. 308 ( 0.00%) pub fn liberate_late_bound_regions( . self, . all_outlive_scope: DefId, . value: ty::Binder<'tcx, T>, . ) -> T . where . T: TypeFoldable<'tcx>, . { . self.replace_late_bound_regions(value, |br| { 429 ( 0.00%) self.mk_region(ty::ReFree(ty::FreeRegion { 66 ( 0.00%) scope: all_outlive_scope, . bound_region: br.kind, . })) . }) . .0 168 ( 0.00%) } . . pub fn shift_bound_var_indices(self, bound_vars: usize, value: T) -> T . where . T: TypeFoldable<'tcx>, . { . self.replace_escaping_bound_vars( 5,415 ( 0.00%) value, . |r| { . self.mk_region(ty::ReLateBound( . ty::INNERMOST, . ty::BoundRegion { . var: ty::BoundVar::from_usize(r.var.as_usize() + bound_vars), . kind: r.kind, . }, . )) -- line 795 ---------------------------------------- -- line 843 ---------------------------------------- . fn collect_late_bound_regions( . self, . value: &Binder<'tcx, T>, . just_constraint: bool, . ) -> FxHashSet . where . T: TypeFoldable<'tcx>, . { 36 ( 0.00%) let mut collector = LateBoundRegionsCollector::new(just_constraint); . let result = value.as_ref().skip_binder().visit_with(&mut collector); . assert!(result.is_continue()); // should never have stopped early 72 ( 0.00%) collector.regions . } . . /// Replaces any late-bound regions bound in `value` with `'erased`. Useful in codegen but also . /// method lookup and a few other places where precise region relationships are not required. . pub fn erase_late_bound_regions(self, value: Binder<'tcx, T>) -> T . where . T: TypeFoldable<'tcx>, . { 60 ( 0.00%) self.replace_late_bound_regions(value, |_| self.lifetimes.re_erased).0 . } . . /// Rewrite any late-bound regions so that they are anonymous. Region numbers are . /// assigned starting at 0 and increasing monotonically in the order traversed . /// by the fold operation. . /// . /// The chief purpose of this function is to canonicalize regions so that two . /// `FnSig`s or `TraitRef`s which are equivalent up to region naming will become . /// structurally identical. For example, `for<'a, 'b> fn(&'a isize, &'b isize)` and . /// `for<'a, 'b> fn(&'b isize, &'a isize)` will become identical after anonymization. 9,796 ( 0.00%) pub fn anonymize_late_bound_regions(self, sig: Binder<'tcx, T>) -> Binder<'tcx, T> . where . T: TypeFoldable<'tcx>, . { 6,980 ( 0.00%) let mut counter = 0; 36 ( 0.00%) let inner = self . .replace_late_bound_regions(sig, |_| { . let br = ty::BoundRegion { . var: ty::BoundVar::from_u32(counter), . kind: ty::BrAnon(counter), . }; . let r = self.mk_region(ty::ReLateBound(ty::INNERMOST, br)); . counter += 1; . r . }) . .0; 1,396 ( 0.00%) let bound_vars = self.mk_bound_variable_kinds( 4,188 ( 0.00%) (0..counter).map(|i| ty::BoundVariableKind::Region(ty::BrAnon(i))), . ); 8,364 ( 0.00%) Binder::bind_with_vars(inner, bound_vars) 8,394 ( 0.00%) } . } . . pub struct ValidateBoundVars<'tcx> { . bound_vars: &'tcx ty::List, . binder_index: ty::DebruijnIndex, . // We may encounter the same variable at different levels of binding, so . // this can't just be `Ty` . visited: SsoHashSet<(ty::DebruijnIndex, Ty<'tcx>)>, -- line 902 ---------------------------------------- -- line 1004 ---------------------------------------- . tcx: TyCtxt<'tcx>, . current_index: ty::DebruijnIndex, . amount: u32, . } . . impl<'tcx> Shifter<'tcx> { . pub fn new(tcx: TyCtxt<'tcx>, amount: u32) -> Self { . Shifter { tcx, current_index: ty::INNERMOST, amount } 12 ( 0.00%) } . } . . impl<'tcx> TypeFolder<'tcx> for Shifter<'tcx> { . fn tcx<'b>(&'b self) -> TyCtxt<'tcx> { . self.tcx . } . . fn fold_binder>( -- line 1020 ---------------------------------------- -- line 1038 ---------------------------------------- . self.tcx.mk_region(shifted) . } . } . _ => r, . } . } . . fn fold_ty(&mut self, ty: Ty<'tcx>) -> Ty<'tcx> { 12 ( 0.00%) match *ty.kind() { . ty::Bound(debruijn, bound_ty) => { . if self.amount == 0 || debruijn < self.current_index { . ty . } else { . let debruijn = debruijn.shifted_in(self.amount); . self.tcx.mk_ty(ty::Bound(debruijn, bound_ty)) . } . } . 18 ( 0.00%) _ => ty.super_fold_with(self), . } . } . . fn fold_const(&mut self, ct: &'tcx ty::Const<'tcx>) -> &'tcx ty::Const<'tcx> { . if let ty::Const { val: ty::ConstKind::Bound(debruijn, bound_ct), ty } = *ct { . if self.amount == 0 || debruijn < self.current_index { . ct . } else { -- line 1064 ---------------------------------------- -- line 1085 ---------------------------------------- . } . . pub fn shift_vars<'tcx, T>(tcx: TyCtxt<'tcx>, value: T, amount: u32) -> T . where . T: TypeFoldable<'tcx>, . { . debug!("shift_vars(value={:?}, amount={})", value, amount); . 12 ( 0.00%) value.fold_with(&mut Shifter::new(tcx, amount)) . } . . #[derive(Debug, PartialEq, Eq, Copy, Clone)] . struct FoundEscapingVars; . . /// An "escaping var" is a bound var whose binder is not part of `t`. A bound var can be a . /// bound region or a bound type. . /// -- line 1101 ---------------------------------------- -- line 1128 ---------------------------------------- . . impl<'tcx> TypeVisitor<'tcx> for HasEscapingVarsVisitor { . type BreakTy = FoundEscapingVars; . . fn visit_binder>( . &mut self, . t: &Binder<'tcx, T>, . ) -> ControlFlow { 40 ( 0.00%) self.outer_index.shift_in(1); . let result = t.super_visit_with(self); 52 ( 0.00%) self.outer_index.shift_out(1); . result . } . . #[inline] . fn visit_ty(&mut self, t: Ty<'tcx>) -> ControlFlow { . // If the outer-exclusive-binder is *strictly greater* than . // `outer_index`, that means that `t` contains some content . // bound at `outer_index` or above (because -- line 1146 ---------------------------------------- -- line 1210 ---------------------------------------- . #[instrument(level = "trace")] . fn visit_ty(&mut self, t: Ty<'_>) -> ControlFlow { . debug!( . "HasTypeFlagsVisitor: t={:?} t.flags={:?} self.flags={:?}", . t, . t.flags(), . self.flags . ); 49,914 ( 0.02%) if t.flags().intersects(self.flags) { . ControlFlow::Break(FoundFlags) . } else { . ControlFlow::CONTINUE . } . } . . #[inline] . #[instrument(skip(self), level = "trace")] . fn visit_region(&mut self, r: ty::Region<'tcx>) -> ControlFlow { 107 ( 0.00%) let flags = r.type_flags(); . trace!(r.flags=?flags); . if flags.intersects(self.flags) { . ControlFlow::Break(FoundFlags) . } else { . ControlFlow::CONTINUE . } . } . . #[inline] . #[instrument(level = "trace")] . fn visit_const(&mut self, c: &'tcx ty::Const<'tcx>) -> ControlFlow { 49,792 ( 0.02%) let flags = FlagComputation::for_const(c); . trace!(r.flags=?flags); 22 ( 0.00%) if flags.intersects(self.flags) { . ControlFlow::Break(FoundFlags) . } else { . ControlFlow::CONTINUE . } . } . . #[inline] . #[instrument(level = "trace")] -- line 1250 ---------------------------------------- -- line 1285 ---------------------------------------- . /// them constraints `'a == 'b`. But if you have `<&'a u32 as . /// Trait>::Foo` and `<&'b u32 as Trait>::Foo`, normalizing those . /// types may mean that `'a` and `'b` don't appear in the results, . /// so they are not considered *constrained*. . just_constrained: bool, . } . . impl LateBoundRegionsCollector { 18 ( 0.00%) fn new(just_constrained: bool) -> Self { 126 ( 0.00%) LateBoundRegionsCollector { . current_index: ty::INNERMOST, . regions: Default::default(), . just_constrained, . } 18 ( 0.00%) } . } . . impl<'tcx> TypeVisitor<'tcx> for LateBoundRegionsCollector { . fn visit_binder>( . &mut self, . t: &Binder<'tcx, T>, . ) -> ControlFlow { . self.current_index.shift_in(1); . let result = t.super_visit_with(self); . self.current_index.shift_out(1); . result . } . 57 ( 0.00%) fn visit_ty(&mut self, t: Ty<'tcx>) -> ControlFlow { . // if we are only looking for "constrained" region, we have to . // ignore the inputs to a projection, as they may not appear . // in the normalized form 70 ( 0.00%) if self.just_constrained { 56 ( 0.00%) if let ty::Projection(..) | ty::Opaque(..) = t.kind() { . return ControlFlow::CONTINUE; . } . } . 86 ( 0.00%) t.super_visit_with(self) 38 ( 0.00%) } . . fn visit_const(&mut self, c: &'tcx ty::Const<'tcx>) -> ControlFlow { . // if we are only looking for "constrained" region, we have to . // ignore the inputs of an unevaluated const, as they may not appear . // in the normalized form . if self.just_constrained { . if let ty::ConstKind::Unevaluated(..) = c.val { . return ControlFlow::CONTINUE; . } . } . . c.super_visit_with(self) . } . . fn visit_region(&mut self, r: ty::Region<'tcx>) -> ControlFlow { 60 ( 0.00%) if let ty::ReLateBound(debruijn, br) = *r { 12 ( 0.00%) if debruijn == self.current_index { . self.regions.insert(br.kind); . } . } . ControlFlow::CONTINUE . } . } 30,566 ( 0.01%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_infer/src/infer/at.rs -------------------------------------------------------------------------------- Ir -- line 44 ---------------------------------------- . . impl<'a, 'tcx> InferCtxt<'a, 'tcx> { . #[inline] . pub fn at( . &'a self, . cause: &'a ObligationCause<'tcx>, . param_env: ty::ParamEnv<'tcx>, . ) -> At<'a, 'tcx> { 33,568 ( 0.01%) At { infcx: self, cause, param_env } . } . } . . pub trait ToTrace<'tcx>: Relate<'tcx> + Copy { . fn to_trace( . tcx: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx>; . } . . impl<'a, 'tcx> At<'a, 'tcx> { . /// Hacky routine for equating two impl headers in coherence. 32,280 ( 0.01%) pub fn eq_impl_headers( . self, . expected: &ty::ImplHeader<'tcx>, . actual: &ty::ImplHeader<'tcx>, . ) -> InferResult<'tcx, ()> { . debug!("eq_impl_header({:?} = {:?})", expected, actual); 40,350 ( 0.01%) match (expected.trait_ref, actual.trait_ref) { . (Some(a_ref), Some(b_ref)) => self.eq(a_ref, b_ref), . (None, None) => self.eq(expected.self_ty, actual.self_ty), . _ => bug!("mk_eq_impl_headers given mismatched impl kinds"), . } 36,315 ( 0.01%) } . . /// Makes `a <: b`, where `a` may or may not be expected. . pub fn sub_exp(self, a_is_expected: bool, a: T, b: T) -> InferResult<'tcx, ()> . where . T: ToTrace<'tcx>, . { 5,296 ( 0.00%) self.trace_exp(a_is_expected, a, b).sub(a, b) . } . . /// Makes `actual <: expected`. For example, if type-checking a . /// call like `foo(x)`, where `foo: fn(i32)`, you might have . /// `sup(i32, x)`, since the "expected" type is the type that . /// appears in the signature. . pub fn sup(self, expected: T, actual: T) -> InferResult<'tcx, ()> . where -- line 94 ---------------------------------------- -- line 116 ---------------------------------------- . /// Makes `expected <: actual`. . pub fn eq(self, expected: T, actual: T) -> InferResult<'tcx, ()> . where . T: ToTrace<'tcx>, . { . self.trace(expected, actual).eq(expected, actual) . } . 40 ( 0.00%) pub fn relate(self, expected: T, variance: ty::Variance, actual: T) -> InferResult<'tcx, ()> . where . T: ToTrace<'tcx>, . { 20 ( 0.00%) match variance { . ty::Variance::Covariant => self.sub(expected, actual), 12 ( 0.00%) ty::Variance::Invariant => self.eq(expected, actual), . ty::Variance::Contravariant => self.sup(expected, actual), . . // We could make this make sense but it's not readily . // exposed and I don't feel like dealing with it. Note . // that bivariance in general does a bit more than just . // *nothing*, it checks that the types are the same . // "modulo variance" basically. . ty::Variance::Bivariant => panic!("Bivariant given to `relate()`"), . } 36 ( 0.00%) } . . /// Computes the least-upper-bound, or mutual supertype, of two . /// values. The order of the arguments doesn't matter, but since . /// this can result in an error (e.g., if asked to compute LUB of . /// u32 and i32), it is meaningful to call one of them the . /// "expected type". . pub fn lub(self, expected: T, actual: T) -> InferResult<'tcx, T> . where -- line 148 ---------------------------------------- -- line 174 ---------------------------------------- . . /// Like `trace`, but the expected value is determined by the . /// boolean argument (if true, then the first argument `a` is the . /// "expected" value). . pub fn trace_exp(self, a_is_expected: bool, a: T, b: T) -> Trace<'a, 'tcx> . where . T: ToTrace<'tcx>, . { 121,192 ( 0.04%) let trace = ToTrace::to_trace(self.infcx.tcx, self.cause, a_is_expected, a, b); . Trace { at: self, trace, a_is_expected } . } . } . . impl<'a, 'tcx> Trace<'a, 'tcx> { . /// Makes `a <: b` where `a` may or may not be expected (if . /// `a_is_expected` is true, then `a` is expected). . #[instrument(skip(self), level = "debug")] . pub fn sub(self, a: T, b: T) -> InferResult<'tcx, ()> . where . T: Relate<'tcx>, . { 5,717 ( 0.00%) let Trace { at, trace, a_is_expected } = self; 23,332 ( 0.01%) at.infcx.commit_if_ok(|_| { 14,826 ( 0.00%) let mut fields = at.infcx.combine_fields(trace, at.param_env); 1,853 ( 0.00%) fields 3,177 ( 0.00%) .sub(a_is_expected) 6,886 ( 0.00%) .relate(a, b) 4,236 ( 0.00%) .map(move |_| InferOk { value: (), obligations: fields.obligations }) . }) . } . . /// Makes `a == b`; the expectation is set by the call to . /// `trace()`. . #[instrument(skip(self), level = "debug")] . pub fn eq(self, a: T, b: T) -> InferResult<'tcx, ()> . where . T: Relate<'tcx>, . { 74,325 ( 0.02%) let Trace { at, trace, a_is_expected } = self; 279,526 ( 0.09%) at.infcx.commit_if_ok(|_| { 130,525 ( 0.04%) let mut fields = at.infcx.combine_fields(trace, at.param_env); 35,175 ( 0.01%) fields 35,175 ( 0.01%) .equate(a_is_expected) 82,229 ( 0.03%) .relate(a, b) 52,280 ( 0.02%) .map(move |_| InferOk { value: (), obligations: fields.obligations }) . }) . } . . #[instrument(skip(self), level = "debug")] . pub fn lub(self, a: T, b: T) -> InferResult<'tcx, T> . where . T: Relate<'tcx>, . { 30 ( 0.00%) let Trace { at, trace, a_is_expected } = self; 132 ( 0.00%) at.infcx.commit_if_ok(|_| { 84 ( 0.00%) let mut fields = at.infcx.combine_fields(trace, at.param_env); 18 ( 0.00%) fields 18 ( 0.00%) .lub(a_is_expected) 24 ( 0.00%) .relate(a, b) 24 ( 0.00%) .map(move |t| InferOk { value: t, obligations: fields.obligations }) . }) . } . . #[instrument(skip(self), level = "debug")] . pub fn glb(self, a: T, b: T) -> InferResult<'tcx, T> . where . T: Relate<'tcx>, . { -- line 241 ---------------------------------------- -- line 253 ---------------------------------------- . impl<'tcx> ToTrace<'tcx> for Ty<'tcx> { . fn to_trace( . _: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { 3,248 ( 0.00%) TypeTrace { cause: cause.clone(), values: Types(ExpectedFound::new(a_is_expected, a, b)) } 928 ( 0.00%) } . } . . impl<'tcx> ToTrace<'tcx> for ty::Region<'tcx> { . fn to_trace( . _: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { 357 ( 0.00%) TypeTrace { cause: cause.clone(), values: Regions(ExpectedFound::new(a_is_expected, a, b)) } 102 ( 0.00%) } . } . . impl<'tcx> ToTrace<'tcx> for &'tcx Const<'tcx> { . fn to_trace( . _: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { . TypeTrace { cause: cause.clone(), values: Consts(ExpectedFound::new(a_is_expected, a, b)) } . } . } . . impl<'tcx> ToTrace<'tcx> for ty::TraitRef<'tcx> { 17,842 ( 0.01%) fn to_trace( . _: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { 44,605 ( 0.01%) TypeTrace { . cause: cause.clone(), 35,684 ( 0.01%) values: TraitRefs(ExpectedFound::new(a_is_expected, a, b)), . } 35,684 ( 0.01%) } . } . . impl<'tcx> ToTrace<'tcx> for ty::PolyTraitRef<'tcx> { 1,324 ( 0.00%) fn to_trace( . _: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { 3,310 ( 0.00%) TypeTrace { . cause: cause.clone(), 11,916 ( 0.00%) values: PolyTraitRefs(ExpectedFound::new(a_is_expected, a, b)), . } 2,648 ( 0.00%) } . } . . impl<'tcx> ToTrace<'tcx> for ty::ProjectionTy<'tcx> { 24 ( 0.00%) fn to_trace( . tcx: TyCtxt<'tcx>, . cause: &ObligationCause<'tcx>, . a_is_expected: bool, . a: Self, . b: Self, . ) -> TypeTrace<'tcx> { . let a_ty = tcx.mk_projection(a.item_def_id, a.substs); . let b_ty = tcx.mk_projection(b.item_def_id, b.substs); 14 ( 0.00%) TypeTrace { . cause: cause.clone(), . values: Types(ExpectedFound::new(a_is_expected, a_ty, b_ty)), . } 18 ( 0.00%) } . } 115,226 ( 0.04%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_middle/src/hir/map/mod.rs -------------------------------------------------------------------------------- Ir -- line 17 ---------------------------------------- . use rustc_span::hygiene::MacroKind; . use rustc_span::source_map::Spanned; . use rustc_span::symbol::{kw, sym, Ident, Symbol}; . use rustc_span::Span; . use rustc_target::spec::abi::Abi; . use std::collections::VecDeque; . . fn fn_decl<'hir>(node: Node<'hir>) -> Option<&'hir FnDecl<'hir>> { 85 ( 0.00%) match node { . Node::Item(Item { kind: ItemKind::Fn(sig, _, _), .. }) . | Node::TraitItem(TraitItem { kind: TraitItemKind::Fn(sig, _), .. }) . | Node::ImplItem(ImplItem { kind: ImplItemKind::Fn(sig, _), .. }) => Some(&sig.decl), . Node::Expr(Expr { kind: ExprKind::Closure(_, fn_decl, ..), .. }) . | Node::ForeignItem(ForeignItem { kind: ForeignItemKind::Fn(fn_decl, ..), .. }) => { . Some(fn_decl) . } . _ => None, . } . } . . pub fn fn_sig<'hir>(node: Node<'hir>) -> Option<&'hir FnSig<'hir>> { 768 ( 0.00%) match &node { . Node::Item(Item { kind: ItemKind::Fn(sig, _, _), .. }) . | Node::TraitItem(TraitItem { kind: TraitItemKind::Fn(sig, _), .. }) . | Node::ImplItem(ImplItem { kind: ImplItemKind::Fn(sig, _), .. }) => Some(sig), . _ => None, . } . } . . pub fn associated_body<'hir>(node: Node<'hir>) -> Option { 5,012 ( 0.00%) match node { . Node::Item(Item { . kind: ItemKind::Const(_, body) | ItemKind::Static(.., body) | ItemKind::Fn(.., body), . .. . }) . | Node::TraitItem(TraitItem { . kind: . TraitItemKind::Const(_, Some(body)) | TraitItemKind::Fn(_, TraitFn::Provided(body)), . .. . }) . | Node::ImplItem(ImplItem { . kind: ImplItemKind::Const(_, body) | ImplItemKind::Fn(_, body), . .. . }) 221 ( 0.00%) | Node::Expr(Expr { kind: ExprKind::Closure(.., body, _, _), .. }) => Some(*body), . 9,216 ( 0.00%) Node::AnonConst(constant) => Some(constant.body), . . _ => None, . } . } . . fn is_body_owner<'hir>(node: Node<'hir>, hir_id: HirId) -> bool { . match associated_body(node) { . Some(b) => b.hir_id == hir_id, -- line 71 ---------------------------------------- -- line 83 ---------------------------------------- . pub struct ParentHirIterator<'hir> { . current_id: HirId, . map: Map<'hir>, . } . . impl<'hir> Iterator for ParentHirIterator<'hir> { . type Item = (HirId, Node<'hir>); . 1,960 ( 0.00%) fn next(&mut self) -> Option { 280 ( 0.00%) if self.current_id == CRATE_HIR_ID { . return None; . } . loop { . // There are nodes that do not have entries, so we need to skip them. . let parent_id = self.map.get_parent_node(self.current_id); . 840 ( 0.00%) if parent_id == self.current_id { . self.current_id = CRATE_HIR_ID; . return None; . } . 560 ( 0.00%) self.current_id = parent_id; 2,240 ( 0.00%) if let Some(node) = self.map.find(parent_id) { 1,120 ( 0.00%) return Some((parent_id, node)); . } . // If this `HirId` doesn't have an entry, skip it and look for its `parent_id`. . } 2,520 ( 0.00%) } . } . . /// An iterator that walks up the ancestor tree of a given `HirId`. . /// Constructed using `tcx.hir().parent_owner_iter(hir_id)`. . pub struct ParentOwnerIterator<'hir> { . current_id: HirId, . map: Map<'hir>, . } . . impl<'hir> Iterator for ParentOwnerIterator<'hir> { . type Item = (LocalDefId, OwnerNode<'hir>); . 8,262 ( 0.00%) fn next(&mut self) -> Option { 2,754 ( 0.00%) if self.current_id.local_id.index() != 0 { 807 ( 0.00%) self.current_id.local_id = ItemLocalId::new(0); 3,228 ( 0.00%) if let Some(node) = self.map.tcx.hir_owner(self.current_id.owner) { . return Some((self.current_id.owner, node.node)); . } . } 111 ( 0.00%) if self.current_id == CRATE_HIR_ID { 28 ( 0.00%) return None; . } . loop { . // There are nodes that do not have entries, so we need to skip them. . let parent_id = self.map.def_key(self.current_id.owner).parent; . . let parent_id = parent_id.map_or(CRATE_HIR_ID.owner, |local_def_index| { . let def_id = LocalDefId { local_def_index }; . self.map.local_def_id_to_hir_id(def_id).owner . }); 194 ( 0.00%) self.current_id = HirId::make_owner(parent_id); . . // If this `HirId` doesn't have an entry, skip it and look for its `parent_id`. 194 ( 0.00%) if let Some(node) = self.map.tcx.hir_owner(self.current_id.owner) { . return Some((self.current_id.owner, node.node)); . } . } 7,344 ( 0.00%) } . } . . impl<'hir> Map<'hir> { 210 ( 0.00%) pub fn krate(&self) -> &'hir Crate<'hir> { 30 ( 0.00%) self.tcx.hir_crate(()) 240 ( 0.00%) } . 7 ( 0.00%) pub fn root_module(&self) -> &'hir Mod<'hir> { 1 ( 0.00%) match self.tcx.hir_owner(CRATE_DEF_ID).map(|o| o.node) { . Some(OwnerNode::Crate(item)) => item, . _ => bug!(), . } 8 ( 0.00%) } . . pub fn items(&self) -> impl Iterator> + 'hir { . let krate = self.krate(); . krate.owners.iter().filter_map(|owner| match owner.as_ref()?.node() { . OwnerNode::Item(item) => Some(item), . _ => None, . }) . } -- line 169 ---------------------------------------- -- line 184 ---------------------------------------- . . #[inline] . pub fn def_path_hash(self, def_id: LocalDefId) -> DefPathHash { . // Accessing the DefPathHash is ok, it is incr. comp. stable. . self.tcx.untracked_resolutions.definitions.def_path_hash(def_id) . } . . #[inline] 28,212 ( 0.01%) pub fn local_def_id(&self, hir_id: HirId) -> LocalDefId { 5,754 ( 0.00%) self.opt_local_def_id(hir_id).unwrap_or_else(|| { . bug!( . "local_def_id: no entry for `{:?}`, which has a map of `{:?}`", . hir_id, . self.find(hir_id) . ) . }) 21,159 ( 0.01%) } . . #[inline] 15,344 ( 0.01%) pub fn opt_local_def_id(&self, hir_id: HirId) -> Option { 4,304 ( 0.00%) if hir_id.local_id == ItemLocalId::new(0) { . Some(hir_id.owner) . } else { 6,278 ( 0.00%) self.tcx . .hir_owner_nodes(hir_id.owner)? . .local_id_to_def_id . .get(&hir_id.local_id) . .copied() . } 17,262 ( 0.01%) } . . #[inline] 7 ( 0.00%) pub fn local_def_id_to_hir_id(&self, def_id: LocalDefId) -> HirId { . // FIXME(#85914) is this access safe for incr. comp.? 1,461 ( 0.00%) self.tcx.untracked_resolutions.definitions.local_def_id_to_hir_id(def_id) 14 ( 0.00%) } . 7 ( 0.00%) pub fn iter_local_def_id(&self) -> impl Iterator + '_ { . // Create a dependency to the crate to be sure we reexcute this when the amount of . // definitions change. 1 ( 0.00%) self.tcx.ensure().hir_crate(()); . self.tcx.untracked_resolutions.definitions.iter_local_def_id() 9 ( 0.00%) } . 3,598 ( 0.00%) pub fn opt_def_kind(&self, local_def_id: LocalDefId) -> Option { . let hir_id = self.local_def_id_to_hir_id(local_def_id); 6,682 ( 0.00%) let def_kind = match self.find(hir_id)? { 752 ( 0.00%) Node::Item(item) => match item.kind { . ItemKind::Static(..) => DefKind::Static, . ItemKind::Const(..) => DefKind::Const, . ItemKind::Fn(..) => DefKind::Fn, . ItemKind::Macro(..) => DefKind::Macro(MacroKind::Bang), . ItemKind::Mod(..) => DefKind::Mod, . ItemKind::OpaqueTy(..) => DefKind::OpaqueTy, . ItemKind::TyAlias(..) => DefKind::TyAlias, . ItemKind::Enum(..) => DefKind::Enum, -- line 239 ---------------------------------------- -- line 247 ---------------------------------------- . ItemKind::GlobalAsm(..) => DefKind::GlobalAsm, . ItemKind::Impl { .. } => DefKind::Impl, . }, . Node::ForeignItem(item) => match item.kind { . ForeignItemKind::Fn(..) => DefKind::Fn, . ForeignItemKind::Static(..) => DefKind::Static, . ForeignItemKind::Type => DefKind::ForeignTy, . }, 4 ( 0.00%) Node::TraitItem(item) => match item.kind { . TraitItemKind::Const(..) => DefKind::AssocConst, . TraitItemKind::Fn(..) => DefKind::AssocFn, . TraitItemKind::Type(..) => DefKind::AssocTy, . }, 8 ( 0.00%) Node::ImplItem(item) => match item.kind { . ImplItemKind::Const(..) => DefKind::AssocConst, . ImplItemKind::Fn(..) => DefKind::AssocFn, . ImplItemKind::TyAlias(..) => DefKind::AssocTy, . }, . Node::Variant(_) => DefKind::Variant, . Node::Ctor(variant_data) => { . // FIXME(eddyb) is this even possible, if we have a `Node::Ctor`? . assert_ne!(variant_data.ctor_hir_id(), None); -- line 268 ---------------------------------------- -- line 270 ---------------------------------------- . let ctor_of = match self.find(self.get_parent_node(hir_id)) { . Some(Node::Item(..)) => def::CtorOf::Struct, . Some(Node::Variant(..)) => def::CtorOf::Variant, . _ => unreachable!(), . }; . DefKind::Ctor(ctor_of, def::CtorKind::from_hir(variant_data)) . } . Node::AnonConst(_) => { 768 ( 0.00%) let inline = match self.find(self.get_parent_node(hir_id)) { . Some(Node::Expr(&Expr { . kind: ExprKind::ConstBlock(ref anon_const), .. . })) if anon_const.hir_id == hir_id => true, . _ => false, . }; . if inline { DefKind::InlineConst } else { DefKind::AnonConst } . } . Node::Field(_) => DefKind::Field, . Node::Expr(expr) => match expr.kind { . ExprKind::Closure(.., None) => DefKind::Closure, . ExprKind::Closure(.., Some(_)) => DefKind::Generator, . _ => bug!("def_kind: unsupported node: {}", self.node_to_string(hir_id)), . }, 423 ( 0.00%) Node::GenericParam(param) => match param.kind { . GenericParamKind::Lifetime { .. } => DefKind::LifetimeParam, . GenericParamKind::Type { .. } => DefKind::TyParam, . GenericParamKind::Const { .. } => DefKind::ConstParam, . }, . Node::Crate(_) => DefKind::Mod, . Node::Stmt(_) . | Node::PathSegment(_) . | Node::Ty(_) -- line 300 ---------------------------------------- -- line 304 ---------------------------------------- . | Node::Binding(_) . | Node::Local(_) . | Node::Param(_) . | Node::Arm(_) . | Node::Lifetime(_) . | Node::Visibility(_) . | Node::Block(_) => return None, . }; 1,876 ( 0.00%) Some(def_kind) 5,140 ( 0.00%) } . . pub fn def_kind(&self, local_def_id: LocalDefId) -> DefKind { . self.opt_def_kind(local_def_id) . .unwrap_or_else(|| bug!("def_kind: unsupported node: {:?}", local_def_id)) . } . 36,472 ( 0.01%) pub fn find_parent_node(&self, id: HirId) -> Option { 4,559 ( 0.00%) if id.local_id == ItemLocalId::from_u32(0) { . Some(self.tcx.hir_owner_parent(id.owner)) . } else { 8,594 ( 0.00%) let owner = self.tcx.hir_owner_nodes(id.owner)?; 4,297 ( 0.00%) let node = owner.nodes[id.local_id].as_ref()?; 12,891 ( 0.00%) let hir_id = HirId { owner: id.owner, local_id: node.parent }; . Some(hir_id) . } 36,472 ( 0.01%) } . 1,133 ( 0.00%) pub fn get_parent_node(&self, hir_id: HirId) -> HirId { 8,754 ( 0.00%) self.find_parent_node(hir_id).unwrap() 2,266 ( 0.00%) } . . /// Retrieves the `Node` corresponding to `id`, returning `None` if cannot be found. 110,584 ( 0.04%) pub fn find(&self, id: HirId) -> Option> { 13,823 ( 0.00%) if id.local_id == ItemLocalId::from_u32(0) { . let owner = self.tcx.hir_owner(id.owner)?; 3,635 ( 0.00%) Some(owner.node.into()) . } else { 20,266 ( 0.01%) let owner = self.tcx.hir_owner_nodes(id.owner)?; 10,133 ( 0.00%) let node = owner.nodes[id.local_id].as_ref()?; 30,399 ( 0.01%) Some(node.node) . } 110,584 ( 0.04%) } . . /// Retrieves the `Node` corresponding to `id`, returning `None` if cannot be found. . #[inline] . pub fn find_by_def_id(&self, id: LocalDefId) -> Option> { 2,298 ( 0.00%) self.find(self.local_def_id_to_hir_id(id)) . } . . /// Retrieves the `Node` corresponding to `id`, panicking if it cannot be found. 10,299 ( 0.00%) pub fn get(&self, id: HirId) -> Node<'hir> { 5,501 ( 0.00%) self.find(id).unwrap_or_else(|| bug!("couldn't find hir id {} in the HIR map", id)) 6,866 ( 0.00%) } . . /// Retrieves the `Node` corresponding to `id`, panicking if it cannot be found. . #[inline] . pub fn get_by_def_id(&self, id: LocalDefId) -> Node<'hir> { . self.find_by_def_id(id).unwrap_or_else(|| bug!("couldn't find {:?} in the HIR map", id)) . } . 278 ( 0.00%) pub fn get_if_local(&self, id: DefId) -> Option> { 139 ( 0.00%) id.as_local().and_then(|id| self.find(self.local_def_id_to_hir_id(id))) 278 ( 0.00%) } . . pub fn get_generics(&self, id: LocalDefId) -> Option<&'hir Generics<'hir>> { . let node = self.tcx.hir_owner(id)?; . match node.node { . OwnerNode::ImplItem(impl_item) => Some(&impl_item.generics), . OwnerNode::TraitItem(trait_item) => Some(&trait_item.generics), . OwnerNode::Item(Item { . kind: -- line 374 ---------------------------------------- -- line 381 ---------------------------------------- . | ItemKind::TraitAlias(generics, _) . | ItemKind::Impl(Impl { generics, .. }), . .. . }) => Some(generics), . _ => None, . } . } . 37,079 ( 0.01%) pub fn item(&self, id: ItemId) -> &'hir Item<'hir> { 10,594 ( 0.00%) self.tcx.hir_owner(id.def_id).unwrap().node.expect_item() 42,376 ( 0.01%) } . 378 ( 0.00%) pub fn trait_item(&self, id: TraitItemId) -> &'hir TraitItem<'hir> { 108 ( 0.00%) self.tcx.hir_owner(id.def_id).unwrap().node.expect_trait_item() 432 ( 0.00%) } . 1,624 ( 0.00%) pub fn impl_item(&self, id: ImplItemId) -> &'hir ImplItem<'hir> { 464 ( 0.00%) self.tcx.hir_owner(id.def_id).unwrap().node.expect_impl_item() 1,856 ( 0.00%) } . . pub fn foreign_item(&self, id: ForeignItemId) -> &'hir ForeignItem<'hir> { . self.tcx.hir_owner(id.def_id).unwrap().node.expect_foreign_item() . } . 34,125 ( 0.01%) pub fn body(&self, id: BodyId) -> &'hir Body<'hir> { 9,750 ( 0.00%) self.tcx.hir_owner_nodes(id.hir_id.owner).unwrap().bodies[&id.hir_id.local_id] 39,000 ( 0.01%) } . 51 ( 0.00%) pub fn fn_decl_by_hir_id(&self, hir_id: HirId) -> Option<&'hir FnDecl<'hir>> { 51 ( 0.00%) if let Some(node) = self.find(hir_id) { . fn_decl(node) . } else { . bug!("no node for hir_id `{}`", hir_id) . } 34 ( 0.00%) } . 384 ( 0.00%) pub fn fn_sig_by_hir_id(&self, hir_id: HirId) -> Option<&'hir FnSig<'hir>> { 384 ( 0.00%) if let Some(node) = self.find(hir_id) { . fn_sig(node) . } else { . bug!("no node for hir_id `{}`", hir_id) . } 384 ( 0.00%) } . . pub fn enclosing_body_owner(&self, hir_id: HirId) -> HirId { . for (parent, _) in self.parent_iter(hir_id) { . if let Some(body) = self.maybe_body_owned_by(parent) { . return self.body_owner(body); . } . } . . bug!("no `enclosing_body_owner` for hir_id `{}`", hir_id); . } . . /// Returns the `HirId` that corresponds to the definition of . /// which this is the body of, i.e., a `fn`, `const` or `static` . /// item (possibly associated), a closure, or a `hir::AnonConst`. 18,680 ( 0.01%) pub fn body_owner(&self, BodyId { hir_id }: BodyId) -> HirId { . let parent = self.get_parent_node(hir_id); 14,010 ( 0.00%) assert!(self.find(parent).map_or(false, |n| is_body_owner(n, hir_id))); . parent 18,680 ( 0.01%) } . 6,160 ( 0.00%) pub fn body_owner_def_id(&self, id: BodyId) -> LocalDefId { 9,590 ( 0.00%) self.local_def_id(self.body_owner(id)) 6,160 ( 0.00%) } . . /// Given a `HirId`, returns the `BodyId` associated with it, . /// if the node is a body owner, otherwise returns `None`. 1,041 ( 0.00%) pub fn maybe_body_owned_by(&self, hir_id: HirId) -> Option { 3,523 ( 0.00%) self.find(hir_id).map(associated_body).flatten() 3,123 ( 0.00%) } . . /// Given a body owner's id, returns the `BodyId` associated with it. 3,600 ( 0.00%) pub fn body_owned_by(&self, id: HirId) -> BodyId { . self.maybe_body_owned_by(id).unwrap_or_else(|| { . span_bug!( . self.span(id), . "body_owned_by: {} has no associated body", . self.node_to_string(id) . ); . }) 2,800 ( 0.00%) } . 8 ( 0.00%) pub fn body_param_names(&self, id: BodyId) -> impl Iterator + 'hir { 60 ( 0.00%) self.body(id).params.iter().map(|arg| match arg.pat.kind { 18 ( 0.00%) PatKind::Binding(_, _, ident, _) => ident, . _ => Ident::empty(), . }) 24 ( 0.00%) } . . /// Returns the `BodyOwnerKind` of this `LocalDefId`. . /// . /// Panics if `LocalDefId` does not have an associated body. 4,848 ( 0.00%) pub fn body_owner_kind(&self, id: HirId) -> BodyOwnerKind { 5,248 ( 0.00%) match self.get(id) { . Node::Item(&Item { kind: ItemKind::Const(..), .. }) . | Node::TraitItem(&TraitItem { kind: TraitItemKind::Const(..), .. }) . | Node::ImplItem(&ImplItem { kind: ImplItemKind::Const(..), .. }) . | Node::AnonConst(_) => BodyOwnerKind::Const, . Node::Ctor(..) . | Node::Item(&Item { kind: ItemKind::Fn(..), .. }) . | Node::TraitItem(&TraitItem { kind: TraitItemKind::Fn(..), .. }) . | Node::ImplItem(&ImplItem { kind: ImplItemKind::Fn(..), .. }) => BodyOwnerKind::Fn, . Node::Item(&Item { kind: ItemKind::Static(_, m, _), .. }) => BodyOwnerKind::Static(m), . Node::Expr(&Expr { kind: ExprKind::Closure(..), .. }) => BodyOwnerKind::Closure, . node => bug!("{:#?} is not a body node", node), . } 4,848 ( 0.00%) } . . /// Returns the `ConstContext` of the body associated with this `LocalDefId`. . /// . /// Panics if `LocalDefId` does not have an associated body. . /// . /// This should only be used for determining the context of a body, a return . /// value of `Some` does not always suggest that the owner of the body is `const`, . /// just that it has to be checked as if it were. 6,400 ( 0.00%) pub fn body_const_context(&self, did: LocalDefId) -> Option { . let hir_id = self.local_def_id_to_hir_id(did); 9,600 ( 0.00%) let ccx = match self.body_owner_kind(hir_id) { . BodyOwnerKind::Const => ConstContext::Const, . BodyOwnerKind::Static(mt) => ConstContext::Static(mt), . 32 ( 0.00%) BodyOwnerKind::Fn if self.tcx.is_constructor(did.to_def_id()) => return None, 32 ( 0.00%) BodyOwnerKind::Fn if self.tcx.is_const_fn_raw(did.to_def_id()) => ConstContext::ConstFn, . BodyOwnerKind::Fn 64 ( 0.00%) if self.tcx.has_attr(did.to_def_id(), sym::default_method_body_is_const) => . { . ConstContext::ConstFn . } . BodyOwnerKind::Fn | BodyOwnerKind::Closure => return None, . }; . . Some(ccx) 7,200 ( 0.00%) } . . /// Returns an iterator of the `DefId`s for all body-owners in this . /// crate. If you would prefer to iterate over the bodies . /// themselves, you can do `self.hir().krate().body_ids.iter()`. 21 ( 0.00%) pub fn body_owners(self) -> impl Iterator + 'hir { 3 ( 0.00%) self.krate() . .owners . .iter_enumerated() . .flat_map(move |(owner, owner_info)| { 1,542 ( 0.00%) let bodies = &owner_info.as_ref()?.nodes.bodies; . Some(bodies.iter().map(move |&(local_id, _)| { . let hir_id = HirId { owner, local_id }; . let body_id = BodyId { hir_id }; 1,360 ( 0.00%) self.body_owner_def_id(body_id) . })) . }) . .flatten() 15 ( 0.00%) } . 10 ( 0.00%) pub fn par_body_owners(self, f: F) { . use rustc_data_structures::sync::{par_iter, ParallelIterator}; . #[cfg(parallel_compiler)] . use rustc_rayon::iter::IndexedParallelIterator; . 3 ( 0.00%) par_iter(&self.krate().owners.raw).enumerate().for_each(|(owner, owner_info)| { . let owner = LocalDefId::new(owner); 3,084 ( 0.00%) if let Some(owner_info) = owner_info { . par_iter(owner_info.nodes.bodies.range(..)).for_each(|(local_id, _)| { . let hir_id = HirId { owner, local_id: *local_id }; . let body_id = BodyId { hir_id }; 1,224 ( 0.00%) f(self.body_owner_def_id(body_id)) . }) . } . }); 8 ( 0.00%) } . . pub fn ty_param_owner(&self, id: HirId) -> LocalDefId { . match self.get(id) { . Node::Item(&Item { kind: ItemKind::Trait(..) | ItemKind::TraitAlias(..), .. }) => { . id.expect_owner() . } . Node::GenericParam(_) => self.get_parent_item(id), . _ => bug!("ty_param_owner: {} not a type parameter", self.node_to_string(id)), -- line 558 ---------------------------------------- -- line 564 ---------------------------------------- . Node::Item(&Item { kind: ItemKind::Trait(..) | ItemKind::TraitAlias(..), .. }) => { . kw::SelfUpper . } . Node::GenericParam(param) => param.name.ident().name, . _ => bug!("ty_param_name: {} not a type parameter", self.node_to_string(id)), . } . } . 252 ( 0.00%) pub fn trait_impls(&self, trait_did: DefId) -> &'hir [LocalDefId] { 28 ( 0.00%) self.tcx.all_local_trait_impls(()).get(&trait_did).map_or(&[], |xs| &xs[..]) 252 ( 0.00%) } . . /// Gets the attributes on the crate. This is preferable to . /// invoking `krate.attrs` because it registers a tighter . /// dep-graph access. . pub fn krate_attrs(&self) -> &'hir [ast::Attribute] { 20 ( 0.00%) self.attrs(CRATE_HIR_ID) . } . 140 ( 0.00%) pub fn get_module(&self, module: LocalDefId) -> (&'hir Mod<'hir>, Span, HirId) { . let hir_id = HirId::make_owner(module); 100 ( 0.00%) match self.tcx.hir_owner(module).map(|o| o.node) { 18 ( 0.00%) Some(OwnerNode::Item(&Item { span, kind: ItemKind::Mod(ref m), .. })) => { . (m, span, hir_id) . } 33 ( 0.00%) Some(OwnerNode::Crate(item)) => (item, item.inner, hir_id), . node => panic!("not a module: {:?}", node), . } 180 ( 0.00%) } . . /// Walks the contents of a crate. See also `Crate::visit_all_items`. 11 ( 0.00%) pub fn walk_toplevel_module(self, visitor: &mut impl Visitor<'hir>) { 30 ( 0.00%) let (top_mod, span, hir_id) = self.get_module(CRATE_DEF_ID); . visitor.visit_mod(top_mod, span, hir_id); 8 ( 0.00%) } . . /// Walks the attributes in a crate. 20 ( 0.00%) pub fn walk_attributes(self, visitor: &mut impl Visitor<'hir>) { 2 ( 0.00%) let krate = self.krate(); . for (owner, info) in krate.owners.iter_enumerated() { 2,056 ( 0.00%) if let Some(info) = info { . for (local_id, attrs) in info.attrs.map.iter() { . let id = HirId { owner, local_id: *local_id }; . for a in *attrs { 600 ( 0.00%) visitor.visit_attribute(id, a) . } . } . } . } 16 ( 0.00%) } . . /// Visits all items in the crate in some deterministic (but . /// unspecified) order. If you just need to process every item, . /// but don't care about nesting, this method is the best choice. . /// . /// If you do care about nesting -- usually because your algorithm . /// follows lexical scoping rules -- then you want a different . /// approach. You should override `visit_nested_item` in your . /// visitor and then call `intravisit::walk_crate` instead. 144 ( 0.00%) pub fn visit_all_item_likes(&self, visitor: &mut V) . where . V: itemlikevisit::ItemLikeVisitor<'hir>, . { 20 ( 0.00%) let krate = self.krate(); 70 ( 0.00%) for owner in krate.owners.iter().filter_map(Option::as_ref) { 6,567 ( 0.00%) match owner.node() { 8,084 ( 0.00%) OwnerNode::Item(item) => visitor.visit_item(item), . OwnerNode::ForeignItem(item) => visitor.visit_foreign_item(item), 24 ( 0.00%) OwnerNode::ImplItem(item) => visitor.visit_impl_item(item), . OwnerNode::TraitItem(item) => visitor.visit_trait_item(item), . OwnerNode::Crate(_) => {} . } . } 144 ( 0.00%) } . . /// A parallel version of `visit_all_item_likes`. . pub fn par_visit_all_item_likes(&self, visitor: &V) . where . V: itemlikevisit::ParItemLikeVisitor<'hir> + Sync + Send, . { 1 ( 0.00%) let krate = self.krate(); 2 ( 0.00%) par_for_each_in(&krate.owners.raw, |owner| match owner.as_ref().map(OwnerInfo::node) { 188 ( 0.00%) Some(OwnerNode::Item(item)) => visitor.visit_item(item), . Some(OwnerNode::ForeignItem(item)) => visitor.visit_foreign_item(item), 8 ( 0.00%) Some(OwnerNode::ImplItem(item)) => visitor.visit_impl_item(item), 2 ( 0.00%) Some(OwnerNode::TraitItem(item)) => visitor.visit_trait_item(item), . Some(OwnerNode::Crate(_)) | None => {} . }) . } . 344 ( 0.00%) pub fn visit_item_likes_in_module(&self, module: LocalDefId, visitor: &mut V) . where . V: ItemLikeVisitor<'hir>, . { 44 ( 0.00%) let module = self.tcx.hir_module_items(module); . 48 ( 0.00%) for id in module.items.iter() { 8,460 ( 0.00%) visitor.visit_item(self.item(*id)); . } . 48 ( 0.00%) for id in module.trait_items.iter() { 80 ( 0.00%) visitor.visit_trait_item(self.trait_item(*id)); . } . 48 ( 0.00%) for id in module.impl_items.iter() { 312 ( 0.00%) visitor.visit_impl_item(self.impl_item(*id)); . } . 48 ( 0.00%) for id in module.foreign_items.iter() { . visitor.visit_foreign_item(self.foreign_item(*id)); . } 352 ( 0.00%) } . 46 ( 0.00%) pub fn for_each_module(&self, f: impl Fn(LocalDefId)) { . let mut queue = VecDeque::new(); . queue.push_back(CRATE_DEF_ID); . 32 ( 0.00%) while let Some(id) = queue.pop_front() { . f(id); 12 ( 0.00%) let items = self.tcx.hir_module_items(id); 128 ( 0.00%) queue.extend(items.submodules.iter().copied()) . } 40 ( 0.00%) } . . #[cfg(not(parallel_compiler))] . #[inline] . pub fn par_for_each_module(&self, f: impl Fn(LocalDefId)) { 4 ( 0.00%) self.for_each_module(f) . } . . #[cfg(parallel_compiler)] . pub fn par_for_each_module(&self, f: impl Fn(LocalDefId) + Sync) { . use rustc_data_structures::sync::{par_iter, ParallelIterator}; . par_iter_submodules(self.tcx, CRATE_DEF_ID, &f); . . fn par_iter_submodules(tcx: TyCtxt<'_>, module: LocalDefId, f: &F) -- line 699 ---------------------------------------- -- line 703 ---------------------------------------- . (*f)(module); . let items = tcx.hir_module_items(module); . par_iter(&items.submodules[..]).for_each(|&sm| par_iter_submodules(tcx, sm, f)); . } . } . . /// Returns an iterator for the nodes in the ancestor tree of the `current_id` . /// until the crate root is reached. Prefer this over your own loop using `get_parent_node`. 152 ( 0.00%) pub fn parent_iter(self, current_id: HirId) -> ParentHirIterator<'hir> { . ParentHirIterator { current_id, map: self } 608 ( 0.00%) } . . /// Returns an iterator for the nodes in the ancestor tree of the `current_id` . /// until the crate root is reached. Prefer this over your own loop using `get_parent_node`. . pub fn parent_owner_iter(self, current_id: HirId) -> ParentOwnerIterator<'hir> { . ParentOwnerIterator { current_id, map: self } 2,713 ( 0.00%) } . . /// Checks if the node is left-hand side of an assignment. . pub fn is_lhs(&self, id: HirId) -> bool { . match self.find(self.get_parent_node(id)) { . Some(Node::Expr(expr)) => match expr.kind { . ExprKind::Assign(lhs, _rhs, _span) => lhs.hir_id == id, . _ => false, . }, -- line 727 ---------------------------------------- -- line 792 ---------------------------------------- . } . None . } . . /// Retrieves the `HirId` for `id`'s parent item, or `id` itself if no . /// parent item is in this map. The "parent item" is the closest parent node . /// in the HIR which is recorded by the map and is an item, either an item . /// in a module, trait, or impl. 871 ( 0.00%) pub fn get_parent_item(&self, hir_id: HirId) -> LocalDefId { 7,839 ( 0.00%) if let Some((def_id, _node)) = self.parent_owner_iter(hir_id).next() { . def_id . } else { . CRATE_DEF_ID . } 1,742 ( 0.00%) } . . /// Returns the `HirId` of `id`'s nearest module parent, or `id` itself if no . /// module parent is in this map. . pub(super) fn get_module_parent_node(&self, hir_id: HirId) -> LocalDefId { 332 ( 0.00%) for (def_id, node) in self.parent_owner_iter(hir_id) { 104 ( 0.00%) if let OwnerNode::Item(&Item { kind: ItemKind::Mod(_), .. }) = node { . return def_id; . } . } . CRATE_DEF_ID . } . . /// When on an if expression, a match arm tail expression or a match arm, give back . /// the enclosing `if` or `match` expression. -- line 820 ---------------------------------------- -- line 885 ---------------------------------------- . } . } . bug!( . "expected foreign mod or inlined parent, found {}", . self.node_to_string(HirId::make_owner(parent)) . ) . } . 5,677 ( 0.00%) pub fn expect_item(&self, id: LocalDefId) -> &'hir Item<'hir> { 2,433 ( 0.00%) match self.tcx.hir_owner(id) { . Some(Owner { node: OwnerNode::Item(item), .. }) => item, . _ => bug!("expected item, found {}", self.node_to_string(HirId::make_owner(id))), . } 6,488 ( 0.00%) } . 112 ( 0.00%) pub fn expect_impl_item(&self, id: LocalDefId) -> &'hir ImplItem<'hir> { 48 ( 0.00%) match self.tcx.hir_owner(id) { . Some(Owner { node: OwnerNode::ImplItem(item), .. }) => item, . _ => bug!("expected impl item, found {}", self.node_to_string(HirId::make_owner(id))), . } 128 ( 0.00%) } . 28 ( 0.00%) pub fn expect_trait_item(&self, id: LocalDefId) -> &'hir TraitItem<'hir> { 12 ( 0.00%) match self.tcx.hir_owner(id) { . Some(Owner { node: OwnerNode::TraitItem(item), .. }) => item, . _ => bug!("expected trait item, found {}", self.node_to_string(HirId::make_owner(id))), . } 32 ( 0.00%) } . . pub fn expect_variant(&self, id: HirId) -> &'hir Variant<'hir> { . match self.find(id) { . Some(Node::Variant(variant)) => variant, . _ => bug!("expected variant, found {}", self.node_to_string(id)), . } . } . -- line 920 ---------------------------------------- -- line 929 ---------------------------------------- . . pub fn expect_expr(&self, id: HirId) -> &'hir Expr<'hir> { . match self.find(id) { . Some(Node::Expr(expr)) => expr, . _ => bug!("expected expr, found {}", self.node_to_string(id)), . } . } . 4,068 ( 0.00%) pub fn opt_name(&self, id: HirId) -> Option { 1,356 ( 0.00%) Some(match self.get(id) { . Node::Item(i) => i.ident.name, . Node::ForeignItem(fi) => fi.ident.name, . Node::ImplItem(ii) => ii.ident.name, . Node::TraitItem(ti) => ti.ident.name, . Node::Variant(v) => v.ident.name, . Node::Field(f) => f.ident.name, . Node::Lifetime(lt) => lt.name.ident().name, 1,356 ( 0.00%) Node::GenericParam(param) => param.name.ident().name, . Node::Binding(&Pat { kind: PatKind::Binding(_, _, l, _), .. }) => l.name, . Node::Ctor(..) => self.name(HirId::make_owner(self.get_parent_item(id))), . _ => return None, . }) 2,260 ( 0.00%) } . 3,616 ( 0.00%) pub fn name(&self, id: HirId) -> Symbol { 1,356 ( 0.00%) match self.opt_name(id) { . Some(name) => name, . None => bug!("no name for {}", self.node_to_string(id)), . } 2,712 ( 0.00%) } . . /// Given a node ID, gets a list of attributes associated with the AST . /// corresponding to the node-ID. 106,169 ( 0.04%) pub fn attrs(&self, id: HirId) -> &'hir [ast::Attribute] { 15,167 ( 0.01%) self.tcx.hir_attrs(id.owner).get(id.local_id) 121,336 ( 0.04%) } . . /// Gets the span of the definition of the specified HIR node. . /// This is used by `tcx.get_span` 1,611 ( 0.00%) pub fn span(&self, hir_id: HirId) -> Span { 765 ( 0.00%) self.opt_span(hir_id) . .unwrap_or_else(|| bug!("hir::map::Map::span: id not in map: {:?}", hir_id)) 1,611 ( 0.00%) } . 7,448 ( 0.00%) pub fn opt_span(&self, hir_id: HirId) -> Option { 7,448 ( 0.00%) let span = match self.find(hir_id)? { . Node::Param(param) => param.span, 376 ( 0.00%) Node::Item(item) => match &item.kind { . ItemKind::Fn(sig, _, _) => sig.span, 376 ( 0.00%) _ => item.span, . }, . Node::ForeignItem(foreign_item) => foreign_item.span, 12 ( 0.00%) Node::TraitItem(trait_item) => match &trait_item.kind { 12 ( 0.00%) TraitItemKind::Fn(sig, _) => sig.span, . _ => trait_item.span, . }, 58 ( 0.00%) Node::ImplItem(impl_item) => match &impl_item.kind { 56 ( 0.00%) ImplItemKind::Fn(sig, _) => sig.span, 2 ( 0.00%) _ => impl_item.span, . }, . Node::Variant(variant) => variant.span, 2 ( 0.00%) Node::Field(field) => field.span, 4,480 ( 0.00%) Node::AnonConst(constant) => self.body(constant.body).value.span, . Node::Expr(expr) => expr.span, . Node::Stmt(stmt) => stmt.span, . Node::PathSegment(seg) => seg.ident.span, . Node::Ty(ty) => ty.span, . Node::TraitRef(tr) => tr.path.span, . Node::Binding(pat) => pat.span, . Node::Pat(pat) => pat.span, . Node::Arm(arm) => arm.span, -- line 999 ---------------------------------------- -- line 1007 ---------------------------------------- . Node::GenericParam(param) => param.span, . Node::Visibility(&Spanned { . node: VisibilityKind::Restricted { ref path, .. }, . .. . }) => path.span, . Node::Infer(i) => i.span, . Node::Visibility(v) => bug!("unexpected Visibility {:?}", v), . Node::Local(local) => local.span, 4 ( 0.00%) Node::Crate(item) => item.inner, . }; . Some(span) 10,640 ( 0.00%) } . . /// Like `hir.span()`, but includes the body of function items . /// (instead of just the function header) . pub fn span_with_body(&self, hir_id: HirId) -> Span { . match self.find(hir_id) { . Some(Node::TraitItem(item)) => item.span, . Some(Node::ImplItem(impl_item)) => impl_item.span, . Some(Node::Item(item)) => item.span, . Some(_) => self.span(hir_id), . _ => bug!("hir::map::Map::span_with_body: id not in map: {:?}", hir_id), . } . } . 14 ( 0.00%) pub fn span_if_local(&self, id: DefId) -> Option { 939 ( 0.00%) id.as_local().and_then(|id| self.opt_span(self.local_def_id_to_hir_id(id))) 21 ( 0.00%) } . . pub fn res_span(&self, res: Res) -> Option { . match res { . Res::Err => None, . Res::Local(id) => Some(self.span(id)), . res => self.span_if_local(res.opt_def_id()?), . } . } -- line 1042 ---------------------------------------- -- line 1062 ---------------------------------------- . } . . impl<'hir> intravisit::Map<'hir> for Map<'hir> { . fn find(&self, hir_id: HirId) -> Option> { . self.find(hir_id) . } . . fn body(&self, id: BodyId) -> &'hir Body<'hir> { 2,338 ( 0.00%) self.body(id) . } . . fn item(&self, id: ItemId) -> &'hir Item<'hir> { 2,444 ( 0.00%) self.item(id) . } . . fn trait_item(&self, id: TraitItemId) -> &'hir TraitItem<'hir> { 30 ( 0.00%) self.trait_item(id) . } . . fn impl_item(&self, id: ImplItemId) -> &'hir ImplItem<'hir> { 112 ( 0.00%) self.impl_item(id) . } . . fn foreign_item(&self, id: ForeignItemId) -> &'hir ForeignItem<'hir> { . self.foreign_item(id) . } . } . 7 ( 0.00%) pub(super) fn crate_hash(tcx: TyCtxt<'_>, crate_num: CrateNum) -> Svh { . debug_assert_eq!(crate_num, LOCAL_CRATE); . let krate = tcx.hir_crate(()); 3 ( 0.00%) let hir_body_hash = krate.hir_hash; . . let upstream_crates = upstream_crates(tcx); . . // We hash the final, remapped names of all local source files so we . // don't have to include the path prefix remapping commandline args. . // If we included the full mapping in the SVH, we could only have . // reproducible builds by compiling from the same directory. So we just . // hash the result of the mapping instead of the mapping itself. 2 ( 0.00%) let mut source_file_names: Vec<_> = tcx . .sess . .source_map() . .files() . .iter() . .filter(|source_file| source_file.cnum == LOCAL_CRATE) 11 ( 0.00%) .map(|source_file| source_file.name_hash) . .collect(); . . source_file_names.sort_unstable(); . . let mut hcx = tcx.create_stable_hashing_context(); . let mut stable_hasher = StableHasher::new(); . hir_body_hash.hash_stable(&mut hcx, &mut stable_hasher); . upstream_crates.hash_stable(&mut hcx, &mut stable_hasher); . source_file_names.hash_stable(&mut hcx, &mut stable_hasher); 3 ( 0.00%) if tcx.sess.opts.debugging_opts.incremental_relative_spans { . let definitions = &tcx.untracked_resolutions.definitions; . let mut owner_spans: Vec<_> = krate . .owners . .iter_enumerated() . .filter_map(|(def_id, info)| { . let _ = info.as_ref()?; . let def_path_hash = definitions.def_path_hash(def_id); . let span = definitions.def_span(def_id); . debug_assert_eq!(span.parent(), None); . Some((def_path_hash, span)) . }) . .collect(); . owner_spans.sort_unstable_by_key(|bn| bn.0); . owner_spans.hash_stable(&mut hcx, &mut stable_hasher); . } 3 ( 0.00%) tcx.sess.opts.dep_tracking_hash(true).hash_stable(&mut hcx, &mut stable_hasher); 2 ( 0.00%) tcx.sess.local_stable_crate_id().hash_stable(&mut hcx, &mut stable_hasher); . . let crate_hash: Fingerprint = stable_hasher.finish(); 1 ( 0.00%) Svh::new(crate_hash.to_smaller_hash()) 9 ( 0.00%) } . . fn upstream_crates(tcx: TyCtxt<'_>) -> Vec<(StableCrateId, Svh)> { . let mut upstream_crates: Vec<_> = tcx . .crates(()) . .iter() . .map(|&cnum| { 25 ( 0.00%) let stable_crate_id = tcx.resolutions(()).cstore.stable_crate_id(cnum); 5 ( 0.00%) let hash = tcx.crate_hash(cnum); . (stable_crate_id, hash) . }) . .collect(); . upstream_crates.sort_unstable_by_key(|&(stable_crate_id, _)| stable_crate_id); . upstream_crates . } . . fn hir_id_to_string(map: &Map<'_>, id: HirId) -> String { -- line 1155 ---------------------------------------- -- line 1238 ---------------------------------------- . Some(Node::Lifetime(_)) => node_str("lifetime"), . Some(Node::GenericParam(ref param)) => format!("generic_param {:?}{}", param, id_str), . Some(Node::Visibility(ref vis)) => format!("visibility {:?}{}", vis, id_str), . Some(Node::Crate(..)) => String::from("root_crate"), . None => format!("unknown node{}", id_str), . } . } . 36 ( 0.00%) pub(super) fn hir_module_items(tcx: TyCtxt<'_>, module_id: LocalDefId) -> ModuleItems { 24 ( 0.00%) let mut collector = ModuleCollector { . tcx, . submodules: Vec::default(), . items: Vec::default(), . trait_items: Vec::default(), . impl_items: Vec::default(), . foreign_items: Vec::default(), . }; . 20 ( 0.00%) let (hir_mod, span, hir_id) = tcx.hir().get_module(module_id); . collector.visit_mod(hir_mod, span, hir_id); . 64 ( 0.00%) let ModuleCollector { submodules, items, trait_items, impl_items, foreign_items, .. } = . collector; 44 ( 0.00%) return ModuleItems { 16 ( 0.00%) submodules: submodules.into_boxed_slice(), 16 ( 0.00%) items: items.into_boxed_slice(), 16 ( 0.00%) trait_items: trait_items.into_boxed_slice(), 16 ( 0.00%) impl_items: impl_items.into_boxed_slice(), 16 ( 0.00%) foreign_items: foreign_items.into_boxed_slice(), . }; . . struct ModuleCollector<'tcx> { . tcx: TyCtxt<'tcx>, . submodules: Vec, . items: Vec, . trait_items: Vec, . impl_items: Vec, . foreign_items: Vec, . } . . impl<'hir> Visitor<'hir> for ModuleCollector<'hir> { . type NestedFilter = nested_filter::All; . . fn nested_visit_map(&mut self) -> Self::Map { 330 ( 0.00%) self.tcx.hir() . } . 940 ( 0.00%) fn visit_item(&mut self, item: &'hir Item<'hir>) { 564 ( 0.00%) self.items.push(item.item_id()); 376 ( 0.00%) if let ItemKind::Mod(..) = item.kind { . // If this declares another module, do not recurse inside it. 3 ( 0.00%) self.submodules.push(item.def_id); . } else { 1,110 ( 0.00%) intravisit::walk_item(self, item) . } 12 ( 0.00%) } . . fn visit_trait_item(&mut self, item: &'hir TraitItem<'hir>) { 6 ( 0.00%) self.trait_items.push(item.trait_item_id()); 6 ( 0.00%) intravisit::walk_trait_item(self, item) . } . . fn visit_impl_item(&mut self, item: &'hir ImplItem<'hir>) { 24 ( 0.00%) self.impl_items.push(item.impl_item_id()); 24 ( 0.00%) intravisit::walk_impl_item(self, item) . } . . fn visit_foreign_item(&mut self, item: &'hir ForeignItem<'hir>) { . self.foreign_items.push(item.foreign_item_id()); . intravisit::walk_foreign_item(self, item) . } . } 32 ( 0.00%) } 58,484 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/.cargo/registry/src/github.com-1ecc6299db9ec823/ena-0.14.0/src/unify/mod.rs -------------------------------------------------------------------------------- Ir -- line 154 ---------------------------------------- . /// Value of a unification key. We implement Tarjan's union-find . /// algorithm: when two keys are unified, one of them is converted . /// into a "redirect" pointing at the other. These redirects form a . /// DAG: the roots of the DAG (nodes that are not redirected) are each . /// associated with a value of type `V` and a rank. The rank is used . /// to keep the DAG relatively balanced, which helps keep the running . /// time of the algorithm under control. For more information, see . /// . 75 ( 0.00%) #[derive(PartialEq, Clone, Debug)] . pub struct VarValue { 17,564 ( 0.01%) parent: K, // if equal to self, this is a root . value: K::Value, // value assigned (only relevant to root) 17,564 ( 0.01%) rank: u32, // max depth (only relevant to root) . } . . /// Table of unification keys and their values. You must define a key type K . /// that implements the `UnifyKey` trait. Unification tables can be used in two-modes: . /// . /// - in-place (`UnificationTable>` or `InPlaceUnificationTable`): . /// - This is the standard mutable mode, where the array is modified . /// in place. . /// - To do backtracking, you can employ the `snapshot` and `rollback_to` . /// methods. . /// - persistent (`UnificationTable>` or `PersistentUnificationTable`): . /// - In this mode, we use a persistent vector to store the data, so that . /// cloning the table is an O(1) operation. . /// - This implies that ordinary operations are quite a bit slower though. . /// - Requires the `persistent` feature be selected in your Cargo.toml file. 28,585 ( 0.01%) #[derive(Clone, Debug, Default)] . pub struct UnificationTable { . /// Indicates the current value of each key. . values: S, . } . . pub type UnificationStorage = Vec>; . pub type UnificationTableStorage = UnificationTable, ()>>; . -- line 190 ---------------------------------------- -- line 215 ---------------------------------------- . } . . fn new(parent: K, value: K::Value, rank: u32) -> VarValue { . VarValue { . parent: parent, // this is a root . value: value, . rank: rank, . } 1,226 ( 0.00%) } . . fn redirect(&mut self, to: K) { 12,172 ( 0.00%) self.parent = to; . } . . fn root(&mut self, rank: u32, value: K::Value) { 8,140 ( 0.00%) self.rank = rank; 8,098 ( 0.00%) self.value = value; . } . . fn parent(&self, self_key: K) -> Option { 276,348 ( 0.09%) self.if_not_self(self.parent, self_key) . } . . fn if_not_self(&self, key: K, self_key: K) -> Option { . if key == self_key { . None . } else { . Some(key) . } -- line 243 ---------------------------------------- -- line 311 ---------------------------------------- . pub fn len(&self) -> usize { . self.values.len() . } . } . . impl UnificationTable { . /// Starts a new snapshot. Each snapshot must be either . /// Creates a fresh key with the given value. 105,384 ( 0.04%) pub fn new_key(&mut self, value: S::Value) -> S::Key { . let len = self.values.len(); 71,775 ( 0.02%) let key: S::Key = UnifyKey::from_index(len as u32); . self.values.push(VarValue::new_var(key, value)); 35,421 ( 0.01%) debug!("{}: created new key: {:?}", S::tag(), key); . key 157,116 ( 0.05%) } . . /// Reserve memory for `num_new_keys` to be created. Does not . /// actually create the new keys; you must then invoke `new_key`. . pub fn reserve(&mut self, num_new_keys: usize) { . self.values.reserve(num_new_keys); . } . . /// Clears all unifications that have been performed, resetting to -- line 333 ---------------------------------------- -- line 339 ---------------------------------------- . let value = value(key); . VarValue::new_var(key, value) . }); . } . . /// Obtains the current value for a particular key. . /// Not for end-users; they can use `probe_value`. . fn value(&self, key: S::Key) -> &VarValue { 207,505 ( 0.07%) &self.values[key.index() as usize] . } . . /// Find the root node for `vid`. This uses the standard . /// union-find algorithm with path compression: . /// . . /// . /// NB. This is a building-block operation and you would probably . /// prefer to call `probe` below. . /// . /// This is an always-inlined version of this function for the hot . /// callsites. `uninlined_get_root_key` is the never-inlined version. . #[inline(always)] . fn inlined_get_root_key(&mut self, vid: S::Key) -> S::Key { . let redirect = { 148,828 ( 0.05%) match self.value(vid).parent(vid) { . None => return vid, . Some(redirect) => redirect, . } . }; . 32 ( 0.00%) let root_key: S::Key = self.uninlined_get_root_key(redirect); 8 ( 0.00%) if root_key != redirect { . // Path compression . self.update_value(vid, |value| value.parent = root_key); . } . . root_key . } . . // This is a never-inlined version of this function for cold callsites. . // 'inlined_get_root_key` is the always-inlined version. . #[inline(never)] 372,384 ( 0.12%) fn uninlined_get_root_key(&mut self, vid: S::Key) -> S::Key { . self.inlined_get_root_key(vid) 363,307 ( 0.12%) } . . fn update_value(&mut self, key: S::Key, op: OP) . where . OP: FnOnce(&mut VarValue), . { 49,701 ( 0.02%) self.values.update(key.index() as usize, op); 25,721 ( 0.01%) debug!("Updated variable {:?} to {:?}", key, self.value(key)); . } . . /// Either redirects `node_a` to `node_b` or vice versa, depending . /// on the relative rank. The value associated with the new root . /// will be `new_value`. . /// . /// NB: This is the "union" operation of "union-find". It is . /// really more of a building block. If the values associated with . /// your key are non-trivial, you would probably prefer to call . /// `unify_var_var` below. . fn unify_roots(&mut self, key_a: S::Key, key_b: S::Key, new_value: S::Value) { 8,106 ( 0.00%) debug!("unify(key_a={:?}, key_b={:?})", key_a, key_b); . 4,108 ( 0.00%) let rank_a = self.value(key_a).rank; 28,426 ( 0.01%) let rank_b = self.value(key_b).rank; . if let Some((new_root, redirected)) = S::Key::order_roots( 12,222 ( 0.00%) key_a, . &self.value(key_a).value, 12,222 ( 0.00%) key_b, . &self.value(key_b).value, . ) { . // compute the new rank for the new root that they chose; . // this may not be the optimal choice. . let new_rank = if new_root == key_a { . debug_assert!(redirected == key_b); . if rank_a > rank_b { . rank_a -- line 416 ---------------------------------------- -- line 422 ---------------------------------------- . debug_assert!(redirected == key_a); . if rank_b > rank_a { . rank_b . } else { . rank_a + 1 . } . }; . self.redirect_root(new_rank, redirected, new_root, new_value); 16,212 ( 0.01%) } else if rank_a > rank_b { . // a has greater rank, so a should become b's parent, . // i.e., b should redirect to a. . self.redirect_root(rank_a, key_b, key_a, new_value); 8,106 ( 0.00%) } else if rank_a < rank_b { . // b has greater rank, so a should redirect to b. 10 ( 0.00%) self.redirect_root(rank_b, key_a, key_b, new_value); . } else { . // If equal, redirect one to the other and increment the . // other's rank. 28,384 ( 0.01%) self.redirect_root(rank_a + 1, key_a, key_b, new_value); . } . } . . /// Internal method to redirect `old_root_key` (which is currently . /// a root) to a child of `new_root_key` (which will remain a . /// root). The rank and value of `new_root_key` will be updated to . /// `new_rank` and `new_value` respectively. 101,330 ( 0.03%) fn redirect_root( . &mut self, . new_rank: u32, . old_root_key: S::Key, . new_root_key: S::Key, . new_value: S::Value, . ) { . self.update_value(old_root_key, |old_root_value| { . old_root_value.redirect(new_root_key); . }); . self.update_value(new_root_key, |new_root_value| { 4,032 ( 0.00%) new_root_value.root(new_rank, new_value); . }); 56,734 ( 0.02%) } . } . . /// //////////////////////////////////////////////////////////////////////// . /// Public API . . impl UnificationTable . where . S: UnificationStoreMut, . K: UnifyKey, . V: UnifyValue, . { . /// Unions two keys without the possibility of failure; only . /// applicable when unify values use `NoError` as their error . /// type. 68,978 ( 0.02%) pub fn union(&mut self, a_id: K1, b_id: K2) . where . K1: Into, . K2: Into, . V: UnifyValue, . { . self.unify_var_var(a_id, b_id).unwrap(); 60,864 ( 0.02%) } . . /// Unions a key and a value without the possibility of failure; . /// only applicable when unify values use `NoError` as their error . /// type. 82,687 ( 0.03%) pub fn union_value(&mut self, id: K1, value: V) . where . K1: Into, . V: UnifyValue, . { . self.unify_var_value(id, value).unwrap(); 64,316 ( 0.02%) } . . /// Given two keys, indicates whether they have been unioned together. . pub fn unioned(&mut self, a_id: K1, b_id: K2) -> bool . where . K1: Into, . K2: Into, . { . self.find(a_id) == self.find(b_id) -- line 502 ---------------------------------------- -- line 503 ---------------------------------------- . } . . /// Given a key, returns the (current) root key. . pub fn find(&mut self, id: K1) -> K . where . K1: Into, . { . let id = id.into(); 27,877 ( 0.01%) self.uninlined_get_root_key(id) . } . . /// Unions together two variables, merging their values. If . /// merging the values fails, the error is propagated and this . /// method has no effect. . pub fn unify_var_var(&mut self, a_id: K1, b_id: K2) -> Result<(), V::Error> . where . K1: Into, . K2: Into, . { . let a_id = a_id.into(); . let b_id = b_id.into(); . 16,296 ( 0.01%) let root_a = self.uninlined_get_root_key(a_id); 24,342 ( 0.01%) let root_b = self.uninlined_get_root_key(b_id); . 4,048 ( 0.00%) if root_a == root_b { . return Ok(()); . } . 28,486 ( 0.01%) let combined = V::unify_values(&self.value(root_a).value, &self.value(root_b).value)?; . . Ok(self.unify_roots(root_a, root_b, combined)) . } . . /// Sets the value of the key `a_id` to `b`, attempting to merge . /// with the previous value. 2,880 ( 0.00%) pub fn unify_var_value(&mut self, a_id: K1, b: V) -> Result<(), V::Error> . where . K1: Into, . { . let a_id = a_id.into(); 10,504 ( 0.00%) let root_a = self.uninlined_get_root_key(a_id); 29,501 ( 0.01%) let value = V::unify_values(&self.value(root_a).value, &b)?; 20,298 ( 0.01%) self.update_value(root_a, |node| node.value = value); . Ok(()) 3,200 ( 0.00%) } . . /// Returns the current value for the given key. If the key has . /// been union'd, this will give the value from the current root. 10,560 ( 0.00%) pub fn probe_value(&mut self, id: K1) -> V . where . K1: Into, . { . self.inlined_probe_value(id) 7,680 ( 0.00%) } . . // An always-inlined version of `probe_value`, for hot callsites. . #[inline(always)] . pub fn inlined_probe_value(&mut self, id: K1) -> V . where . K1: Into, . { . let id = id.into(); -- line 565 ---------------------------------------- -- line 570 ---------------------------------------- . . /////////////////////////////////////////////////////////////////////////// . . impl UnifyValue for () { . type Error = NoError; . . fn unify_values(_: &(), _: &()) -> Result<(), NoError> { . Ok(()) 8,080 ( 0.00%) } . } . . impl UnifyValue for Option { . type Error = V::Error; . . fn unify_values(a: &Option, b: &Option) -> Result { . match (a, b) { . (&None, &None) => Ok(None), -- line 586 ---------------------------------------- 104,653 ( 0.03%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_trait_selection/src/traits/select/mod.rs -------------------------------------------------------------------------------- Ir -- line 208 ---------------------------------------- . /// There is no built-in impl. There may be some other . /// candidate (a where-clause or user-defined impl). . None, . /// It is unknown whether there is an impl. . Ambiguous, . } . . impl<'cx, 'tcx> SelectionContext<'cx, 'tcx> { 5,736 ( 0.00%) pub fn new(infcx: &'cx InferCtxt<'cx, 'tcx>) -> SelectionContext<'cx, 'tcx> { 70,996 ( 0.02%) SelectionContext { . infcx, 12,126 ( 0.00%) freshener: infcx.freshener_keep_static(), . intercrate: false, . intercrate_ambiguity_causes: None, . allow_negative_impls: false, . query_mode: TraitQueryMode::Standard, . } 4,780 ( 0.00%) } . . pub fn intercrate(infcx: &'cx InferCtxt<'cx, 'tcx>) -> SelectionContext<'cx, 'tcx> { 64,559 ( 0.02%) SelectionContext { . infcx, 8,070 ( 0.00%) freshener: infcx.freshener_keep_static(), . intercrate: true, . intercrate_ambiguity_causes: None, . allow_negative_impls: false, . query_mode: TraitQueryMode::Standard, . } . } . . pub fn with_negative( -- line 238 ---------------------------------------- -- line 245 ---------------------------------------- . freshener: infcx.freshener_keep_static(), . intercrate: false, . intercrate_ambiguity_causes: None, . allow_negative_impls, . query_mode: TraitQueryMode::Standard, . } . } . 528 ( 0.00%) pub fn with_query_mode( . infcx: &'cx InferCtxt<'cx, 'tcx>, . query_mode: TraitQueryMode, . ) -> SelectionContext<'cx, 'tcx> { . debug!(?query_mode, "with_query_mode"); 1,056 ( 0.00%) SelectionContext { . infcx, 66 ( 0.00%) freshener: infcx.freshener_keep_static(), . intercrate: false, . intercrate_ambiguity_causes: None, . allow_negative_impls: false, . query_mode, . } 396 ( 0.00%) } . . /// Enables tracking of intercrate ambiguity causes. These are . /// used in coherence to give improved diagnostics. We don't do . /// this until we detect a coherence error because it can lead to . /// false overflow results (#47139) and because it costs . /// computation time. . pub fn enable_tracking_intercrate_ambiguity_causes(&mut self) { . assert!(self.intercrate); . assert!(self.intercrate_ambiguity_causes.is_none()); 1 ( 0.00%) self.intercrate_ambiguity_causes = Some(vec![]); . debug!("selcx: enable_tracking_intercrate_ambiguity_causes"); . } . . /// Gets the intercrate ambiguity causes collected since tracking . /// was enabled and disables tracking at the same time. If . /// tracking is not enabled, just returns an empty vector. . pub fn take_intercrate_ambiguity_causes(&mut self) -> Vec { 4 ( 0.00%) assert!(self.intercrate); . self.intercrate_ambiguity_causes.take().unwrap_or_default() . } . . pub fn infcx(&self) -> &'cx InferCtxt<'cx, 'tcx> { 63,028 ( 0.02%) self.infcx 796 ( 0.00%) } . . pub fn tcx(&self) -> TyCtxt<'tcx> { 92,926 ( 0.03%) self.infcx.tcx . } . . pub fn is_intercrate(&self) -> bool { 251 ( 0.00%) self.intercrate . } . . /////////////////////////////////////////////////////////////////////////// . // Selection . // . // The selection phase tries to identify *how* an obligation will . // be resolved. For example, it will identify which impl or . // parameter bound is to be used. The process can be inconclusive -- line 305 ---------------------------------------- -- line 309 ---------------------------------------- . // 1. If no applicable impl or parameter bound can be found. . // 2. If the output type parameters in the obligation do not match . // those specified by the impl/bound. For example, if the obligation . // is `Vec: Iterable`, but the impl specifies . // `impl Iterable for Vec`, than an error would result. . . /// Attempts to satisfy the obligation. If successful, this will affect the surrounding . /// type environment by performing unification. 6,727 ( 0.00%) #[instrument(level = "debug", skip(self))] 8,649 ( 0.00%) pub fn select( . &mut self, . obligation: &TraitObligation<'tcx>, . ) -> SelectionResult<'tcx, Selection<'tcx>> { 7,029 ( 0.00%) let candidate = match self.select_from_obligation(obligation) { . Err(SelectionError::Overflow) => { . // In standard mode, overflow must have been caught and reported . // earlier. . assert!(self.query_mode == TraitQueryMode::Canonical); . return Err(SelectionError::Overflow); . } . Err(SelectionError::Ambiguous(_)) => { . return Ok(None); . } . Err(e) => { 2,114 ( 0.00%) return Err(e); . } . Ok(None) => { 126 ( 0.00%) return Ok(None); . } 4,608 ( 0.00%) Ok(Some(candidate)) => candidate, . }; . 7,682 ( 0.00%) match self.confirm_candidate(obligation, candidate) { . Err(SelectionError::Overflow) => { . assert!(self.query_mode == TraitQueryMode::Canonical); . Err(SelectionError::Overflow) . } 13 ( 0.00%) Err(e) => Err(e), . Ok(candidate) => { . debug!(?candidate, "confirmed"); 9,204 ( 0.00%) Ok(Some(candidate)) . } . } . } . 9,610 ( 0.00%) crate fn select_from_obligation( . &mut self, . obligation: &TraitObligation<'tcx>, . ) -> SelectionResult<'tcx, SelectionCandidate<'tcx>> { . debug_assert!(!obligation.predicate.has_escaping_bound_vars()); . . let pec = &ProvisionalEvaluationCache::default(); . let stack = self.push_stack(TraitObligationStackList::empty(pec), obligation); . 1,922 ( 0.00%) self.candidate_from_obligation(&stack) 8,649 ( 0.00%) } . . /////////////////////////////////////////////////////////////////////////// . // EVALUATION . // . // Tests whether an obligation can be selected or whether an impl . // can be applied to particular types. It skips the "confirmation" . // step and hence completely ignores output type parameters. . // -- line 372 ---------------------------------------- -- line 374 ---------------------------------------- . // we can be sure it does not. . . /// Evaluates whether the obligation `obligation` can be satisfied (by any means). . pub fn predicate_may_hold_fatal(&mut self, obligation: &PredicateObligation<'tcx>) -> bool { . debug!(?obligation, "predicate_may_hold_fatal"); . . // This fatal query is a stopgap that should only be used in standard mode, . // where we do not expect overflow to be propagated. 6 ( 0.00%) assert!(self.query_mode == TraitQueryMode::Standard); . 30 ( 0.00%) self.evaluate_root_obligation(obligation) . .expect("Overflow should be caught earlier in standard query mode") . .may_apply() . } . . /// Evaluates whether the obligation `obligation` can be satisfied . /// and returns an `EvaluationResult`. This is meant for the . /// *initial* call. 132 ( 0.00%) pub fn evaluate_root_obligation( . &mut self, . obligation: &PredicateObligation<'tcx>, . ) -> Result { . self.evaluation_probe(|this| { 216 ( 0.00%) this.evaluate_predicate_recursively( . TraitObligationStackList::empty(&ProvisionalEvaluationCache::default()), . obligation.clone(), . ) . }) 132 ( 0.00%) } . . fn evaluation_probe( . &mut self, . op: impl FnOnce(&mut Self) -> Result, . ) -> Result { 5,092 ( 0.00%) self.infcx.probe(|snapshot| -> Result { 144 ( 0.00%) let result = op(self)?; . 4,277 ( 0.00%) match self.infcx.leak_check(true, snapshot) { . Ok(()) => {} . Err(_) => return Ok(EvaluatedToErr), . } . 3,055 ( 0.00%) match self.infcx.region_constraints_added_in_snapshot(snapshot) { . None => Ok(result), . Some(_) => Ok(result.max(EvaluatedToOkModuloRegions)), . } . }) . } . . /// Evaluates the predicates in `predicates` recursively. Note that . /// this applies projections in the predicates, and therefore . /// is run within an inference probe. 6,400 ( 0.00%) #[instrument(skip(self, stack), level = "debug")] . fn evaluate_predicates_recursively<'o, I>( . &mut self, . stack: TraitObligationStackList<'o, 'tcx>, . predicates: I, . ) -> Result . where . I: IntoIterator> + std::fmt::Debug, . { . let mut result = EvaluatedToOk; 4,501 ( 0.00%) for obligation in predicates { 1,284 ( 0.00%) let eval = self.evaluate_predicate_recursively(stack, obligation.clone())?; 642 ( 0.00%) if let EvaluatedToErr = eval { . // fast-path - EvaluatedToErr is the top of the lattice, . // so we don't need to look on the other predicates. . return Ok(EvaluatedToErr); . } else { . result = cmp::max(result, eval); . } . } . Ok(result) . } . 3,930 ( 0.00%) #[instrument( . level = "debug", . skip(self, previous_stack), . fields(previous_stack = ?previous_stack.head()) 3,537 ( 0.00%) )] . fn evaluate_predicate_recursively<'o>( . &mut self, . previous_stack: TraitObligationStackList<'o, 'tcx>, . obligation: PredicateObligation<'tcx>, . ) -> Result { . // `previous_stack` stores a `TraitObligation`, while `obligation` is . // a `PredicateObligation`. These are distinct types, so we can't . // use any `Option` combinator method that would force them to be . // the same. 786 ( 0.00%) match previous_stack.head() { 642 ( 0.00%) Some(h) => self.check_recursion_limit(&obligation, h.obligation)?, 72 ( 0.00%) None => self.check_recursion_limit(&obligation, &obligation)?, . } . 2,358 ( 0.00%) let result = ensure_sufficient_stack(|| { 393 ( 0.00%) let bound_predicate = obligation.predicate.kind(); 3,930 ( 0.00%) match bound_predicate.skip_binder() { . ty::PredicateKind::Trait(t) => { . let t = bound_predicate.rebind(t); . debug_assert!(!t.has_escaping_bound_vars()); . let obligation = obligation.with(t); 5,895 ( 0.00%) self.evaluate_trait_predicate_recursively(previous_stack, obligation) . } . . ty::PredicateKind::Subtype(p) => { . let p = bound_predicate.rebind(p); . // Does this code ever run? . match self.infcx.subtype_predicate(&obligation.cause, obligation.param_env, p) { . Some(Ok(InferOk { mut obligations, .. })) => { . self.add_depth(obligations.iter_mut(), obligation.recursion_depth); -- line 483 ---------------------------------------- -- line 693 ---------------------------------------- . } . } . } . } . ty::PredicateKind::TypeWellFormedFromEnv(..) => { . bug!("TypeWellFormedFromEnv is only used for chalk") . } . } 393 ( 0.00%) }); . . debug!("finished: {:?} from {:?}", result, obligation); . . result . } . 8,253 ( 0.00%) #[instrument(skip(self, previous_stack), level = "debug")] . fn evaluate_trait_predicate_recursively<'o>( . &mut self, . previous_stack: TraitObligationStackList<'o, 'tcx>, . mut obligation: TraitObligation<'tcx>, . ) -> Result { 786 ( 0.00%) if !self.intercrate . && obligation.is_global() . && obligation.param_env.caller_bounds().iter().all(|bound| bound.needs_subst()) . { . // If a param env has no global bounds, global obligations do not . // depend on its particular value in order to work, so we can clear . // out the param env and get better caching. . debug!("in global"); 42 ( 0.00%) obligation.param_env = obligation.param_env.without_caller_bounds(); . } . . let stack = self.push_stack(previous_stack, &obligation); . let mut fresh_trait_pred = stack.fresh_trait_pred; 786 ( 0.00%) let mut param_env = obligation.param_env; . . fresh_trait_pred = fresh_trait_pred.map_bound(|mut pred| { 393 ( 0.00%) pred.remap_constness(self.tcx(), &mut param_env); 4,716 ( 0.00%) pred . }); . . debug!(?fresh_trait_pred); . 444 ( 0.00%) if let Some(result) = self.check_evaluation_cache(param_env, fresh_trait_pred) { . debug!(?result, "CACHE HIT"); . return Ok(result); . } . . if let Some(result) = stack.cache().get_provisional(fresh_trait_pred) { . debug!(?result, "PROVISIONAL CACHE HIT"); . stack.update_reached_depth(result.reached_depth); . return Ok(result.result); -- line 744 ---------------------------------------- -- line 748 ---------------------------------------- . // stack. If so, we don't want to insert the result into the . // main cache (it is cycle dependent) nor the provisional . // cache (which is meant for things that have completed but . // for a "backedge" -- this result *is* the backedge). . if let Some(cycle_result) = self.check_evaluation_cycle(&stack) { . return Ok(cycle_result); . } . 2,070 ( 0.00%) let (result, dep_node) = self.in_task(|this| this.evaluate_stack(&stack)); 230 ( 0.00%) let result = result?; . 1,150 ( 0.00%) if !result.must_apply_modulo_regions() { . stack.cache().on_failure(stack.dfn); . } . 230 ( 0.00%) let reached_depth = stack.reached_depth.get(); 460 ( 0.00%) if reached_depth >= stack.depth { . debug!(?result, "CACHE MISS"); 4,370 ( 0.00%) self.insert_evaluation_cache(param_env, fresh_trait_pred, dep_node, result); . . stack.cache().on_completion( 460 ( 0.00%) stack.dfn, . |fresh_trait_pred, provisional_result, provisional_dep_node| { . // Create a new `DepNode` that has dependencies on: . // * The `DepNode` for the original evaluation that resulted in a provisional cache . // entry being crated . // * The `DepNode` for the *current* evaluation, which resulted in us completing . // provisional caches entries and inserting them into the evaluation cache . // . // This ensures that when a query reads this entry from the evaluation cache, -- line 777 ---------------------------------------- -- line 839 ---------------------------------------- . fn check_evaluation_cycle( . &mut self, . stack: &TraitObligationStack<'_, 'tcx>, . ) -> Option { . if let Some(cycle_depth) = stack . .iter() . .skip(1) // Skip top-most frame. . .find(|prev| { 342 ( 0.00%) stack.obligation.param_env == prev.obligation.param_env . && stack.fresh_trait_pred == prev.fresh_trait_pred . }) . .map(|stack| stack.depth) . { . debug!("evaluate_stack --> recursive at depth {}", cycle_depth); . . // If we have a stack like `A B C D E A`, where the top of . // the stack is the final `A`, then this will iterate over -- line 855 ---------------------------------------- -- line 874 ---------------------------------------- . debug!("evaluate_stack --> recursive, inductive"); . Some(EvaluatedToRecur) . } . } else { . None . } . } . 2,070 ( 0.00%) fn evaluate_stack<'o>( . &mut self, . stack: &TraitObligationStack<'o, 'tcx>, . ) -> Result { . // In intercrate mode, whenever any of the generics are unbound, . // there can always be an impl. Even if there are no impls in . // this crate, perhaps the type would be unified with . // something from another crate that does provide an impl. . // -- line 890 ---------------------------------------- -- line 903 ---------------------------------------- . // imagine, this is just where we started. To avoid that, we . // check for unbound variables and return an ambiguous (hence possible) . // match if we've seen this trait before. . // . // This suffices to allow chains like `FnMut` implemented in . // terms of `Fn` etc, but we could probably make this more . // precise still. . let unbound_input_types = 230 ( 0.00%) stack.fresh_trait_pred.skip_binder().trait_ref.substs.types().any(|ty| ty.is_fresh()); . 690 ( 0.00%) if stack.obligation.polarity() != ty::ImplPolarity::Negative { . // This check was an imperfect workaround for a bug in the old . // intercrate mode; it should be removed when that goes away. 1,150 ( 0.00%) if unbound_input_types && self.intercrate { . debug!("evaluate_stack --> unbound argument, intercrate --> ambiguous",); . // Heuristics: show the diagnostics when there are no candidates in crate. . if self.intercrate_ambiguity_causes.is_some() { . debug!("evaluate_stack: intercrate_ambiguity_causes is some"); . if let Ok(candidate_set) = self.assemble_candidates(stack) { . if !candidate_set.ambiguous && candidate_set.vec.is_empty() { . let trait_ref = stack.obligation.predicate.skip_binder().trait_ref; . let self_ty = trait_ref.self_ty(); -- line 924 ---------------------------------------- -- line 937 ---------------------------------------- . self.intercrate_ambiguity_causes.as_mut().unwrap().push(cause); . } . } . } . return Ok(EvaluatedToAmbig); . } . } . 460 ( 0.00%) if unbound_input_types . && stack.iter().skip(1).any(|prev| { . stack.obligation.param_env == prev.obligation.param_env . && self.match_fresh_trait_refs( . stack.fresh_trait_pred, . prev.fresh_trait_pred, . prev.obligation.param_env, . ) . }) . { . debug!("evaluate_stack --> unbound argument, recursive --> giving up",); . return Ok(EvaluatedToUnknown); . } . 2,560 ( 0.00%) match self.candidate_from_obligation(stack) { 822 ( 0.00%) Ok(Some(c)) => self.evaluate_candidate(stack, &c), . Err(SelectionError::Ambiguous(_)) => Ok(EvaluatedToAmbig), . Ok(None) => Ok(EvaluatedToAmbig), . Err(Overflow) => Err(OverflowError::Canonical), . Err(ErrorReporting) => Err(OverflowError::ErrorReporting), . Err(..) => Ok(EvaluatedToErr), . } 2,300 ( 0.00%) } . . /// For defaulted traits, we use a co-inductive strategy to solve, so . /// that recursion is ok. This routine returns `true` if the top of the . /// stack (`cycle[0]`): . /// . /// - is a defaulted trait, . /// - it also appears in the backtrace at some position `X`, . /// - all the predicates at positions `X..` between `X` and the top are -- line 975 ---------------------------------------- -- line 998 ---------------------------------------- . skip(self, stack), . fields(depth = stack.obligation.recursion_depth) . )] . fn evaluate_candidate<'o>( . &mut self, . stack: &TraitObligationStack<'o, 'tcx>, . candidate: &SelectionCandidate<'tcx>, . ) -> Result { 584 ( 0.00%) let mut result = self.evaluation_probe(|this| { . let candidate = (*candidate).clone(); 4,689 ( 0.00%) match this.confirm_candidate(stack.obligation, candidate) { . Ok(selection) => { . debug!(?selection); 1,168 ( 0.00%) this.evaluate_predicates_recursively( . stack.list(), 3,796 ( 0.00%) selection.nested_obligations().into_iter(), . ) . } . Err(..) => Ok(EvaluatedToErr), . } . })?; . . // If we erased any lifetimes, then we want to use . // `EvaluatedToOkModuloRegions` instead of `EvaluatedToOk` . // as your final result. The result will be cached using . // the freshened trait predicate as a key, so we need . // our result to be correct by *any* choice of original lifetimes, . // not just the lifetime choice for this particular (non-erased) . // predicate. . // See issue #80691 5 ( 0.00%) if stack.fresh_trait_pred.has_erased_regions() { . result = result.max(EvaluatedToOkModuloRegions); . } . . debug!(?result); . Ok(result) . } . . fn check_evaluation_cache( -- line 1036 ---------------------------------------- -- line 1037 ---------------------------------------- . &self, . param_env: ty::ParamEnv<'tcx>, . trait_pred: ty::PolyTraitPredicate<'tcx>, . ) -> Option { . // Neither the global nor local cache is aware of intercrate . // mode, so don't do any caching. In particular, we might . // re-use the same `InferCtxt` with both an intercrate . // and non-intercrate `SelectionContext` 786 ( 0.00%) if self.intercrate { . return None; . } . . let tcx = self.tcx(); . if self.can_use_global_caches(param_env) { 2,695 ( 0.00%) if let Some(res) = tcx.evaluation_cache.get(¶m_env.and(trait_pred), tcx) { . return Some(res); . } . } 888 ( 0.00%) self.infcx.evaluation_cache.get(¶m_env.and(trait_pred), tcx) . } . 2,760 ( 0.00%) fn insert_evaluation_cache( . &mut self, . param_env: ty::ParamEnv<'tcx>, . trait_pred: ty::PolyTraitPredicate<'tcx>, . dep_node: DepNodeIndex, . result: EvaluationResult, . ) { . // Avoid caching results that depend on more than just the trait-ref . // - the stack can create recursion. 920 ( 0.00%) if result.is_stack_dependent() { . return; . } . . // Neither the global nor local cache is aware of intercrate . // mode, so don't do any caching. In particular, we might . // re-use the same `InferCtxt` with both an intercrate . // and non-intercrate `SelectionContext` 460 ( 0.00%) if self.intercrate { . return; . } . . if self.can_use_global_caches(param_env) { . if !trait_pred.needs_infer() { . debug!(?trait_pred, ?result, "insert_evaluation_cache global"); . // This may overwrite the cache with the same value . // FIXME: Due to #50507 this overwrites the different values . // This should be changed to use HashMapExt::insert_same . // when that is fixed 222 ( 0.00%) self.tcx().evaluation_cache.insert(param_env.and(trait_pred), dep_node, result); . return; . } . } . . debug!(?trait_pred, ?result, "insert_evaluation_cache"); . self.infcx.evaluation_cache.insert(param_env.and(trait_pred), dep_node, result); 1,840 ( 0.00%) } . . /// For various reasons, it's possible for a subobligation . /// to have a *lower* recursion_depth than the obligation used to create it. . /// Projection sub-obligations may be returned from the projection cache, . /// which results in obligations with an 'old' `recursion_depth`. . /// Additionally, methods like `InferCtxt.subtype_predicate` produce . /// subobligations without taking in a 'parent' depth, causing the . /// generated subobligations to have a `recursion_depth` of `0`. -- line 1101 ---------------------------------------- -- line 1110 ---------------------------------------- . it.for_each(|o| o.recursion_depth = cmp::max(min_depth, o.recursion_depth) + 1); . } . . fn check_recursion_depth>( . &self, . depth: usize, . error_obligation: &Obligation<'tcx, T>, . ) -> Result<(), OverflowError> { 6,336 ( 0.00%) if !self.infcx.tcx.recursion_limit().value_within_limit(depth) { . match self.query_mode { . TraitQueryMode::Standard => { . if self.infcx.is_tainted_by_errors() { . return Err(OverflowError::ErrorReporting); . } . self.infcx.report_overflow_error(error_obligation, true); . } . TraitQueryMode::Canonical => { -- line 1126 ---------------------------------------- -- line 1143 ---------------------------------------- . ) -> Result<(), OverflowError> { . self.check_recursion_depth(obligation.recursion_depth, error_obligation) . } . . fn in_task(&mut self, op: OP) -> (R, DepNodeIndex) . where . OP: FnOnce(&mut Self) -> R, . { 7,254 ( 0.00%) let (result, dep_node) = 5,188 ( 0.00%) self.tcx().dep_graph.with_anon_task(self.tcx(), DepKind::TraitSelect, || op(self)); . self.tcx().dep_graph.read_index(dep_node); 6,696 ( 0.00%) (result, dep_node) . } . . /// filter_impls filters constant trait obligations and candidates that have a positive impl . /// for a negative goal and a negative impl for a positive goal . #[instrument(level = "debug", skip(self))] . fn filter_impls( . &mut self, . candidates: Vec>, . obligation: &TraitObligation<'tcx>, . ) -> Vec> { . let tcx = self.tcx(); . let mut result = Vec::with_capacity(candidates.len()); . 8,364 ( 0.00%) for candidate in candidates { . // Respect const trait obligations 1,542 ( 0.00%) if obligation.is_const() { . match candidate { . // const impl . ImplCandidate(def_id) . if tcx.impl_constness(def_id) == hir::Constness::Const => {} . // const param . ParamCandidate(trait_pred) . if trait_pred.skip_binder().constness . == ty::BoundConstness::ConstIfConst => {} -- line 1178 ---------------------------------------- -- line 1186 ---------------------------------------- . ConstDropCandidate(_) => {} . _ => { . // reject all other types of candidates . continue; . } . } . } . 1,028 ( 0.00%) if let ImplCandidate(def_id) = candidate { 764 ( 0.00%) if ty::ImplPolarity::Reservation == tcx.impl_polarity(def_id) 382 ( 0.00%) || obligation.polarity() == tcx.impl_polarity(def_id) . || self.allow_negative_impls . { . result.push(candidate); . } . } else { . result.push(candidate); . } . } . 2,168 ( 0.00%) result . } . . /// filter_reservation_impls filter reservation impl for any goal as ambiguous 7,429 ( 0.00%) #[instrument(level = "debug", skip(self))] . fn filter_reservation_impls( . &mut self, . candidate: SelectionCandidate<'tcx>, . obligation: &TraitObligation<'tcx>, . ) -> SelectionResult<'tcx, SelectionCandidate<'tcx>> { . let tcx = self.tcx(); . // Treat reservation impls as ambiguity. 1,484 ( 0.00%) if let ImplCandidate(def_id) = candidate { 610 ( 0.00%) if let ty::ImplPolarity::Reservation = tcx.impl_polarity(def_id) { . if let Some(intercrate_ambiguity_clauses) = &mut self.intercrate_ambiguity_causes { . let attrs = tcx.get_attrs(def_id); . let attr = tcx.sess.find_by_name(&attrs, sym::rustc_reservation_impl); . let value = attr.and_then(|a| a.value_str()); . if let Some(value) = value { . debug!( . "filter_reservation_impls: \ . reservation impl ambiguity on {:?}", -- line 1227 ---------------------------------------- -- line 1232 ---------------------------------------- . message: value.to_string(), . }, . ); . } . } . return Ok(None); . } . } 2,622 ( 0.00%) Ok(Some(candidate)) . } . . fn is_knowable<'o>(&mut self, stack: &TraitObligationStack<'o, 'tcx>) -> Option { . debug!("is_knowable(intercrate={:?})", self.intercrate); . 1,698 ( 0.00%) if !self.intercrate || stack.obligation.polarity() == ty::ImplPolarity::Negative { . return None; . } . . let obligation = &stack.obligation; 24 ( 0.00%) let predicate = self.infcx().resolve_vars_if_possible(obligation.predicate); . . // Okay to skip binder because of the nature of the . // trait-ref-is-knowable check, which does not care about . // bound regions. . let trait_ref = predicate.skip_binder().trait_ref; . 24 ( 0.00%) coherence::trait_ref_is_knowable(self.tcx(), trait_ref) . } . . /// Returns `true` if the global caches can be used. . fn can_use_global_caches(&self, param_env: ty::ParamEnv<'tcx>) -> bool { . // If there are any inference variables in the `ParamEnv`, then we . // always use a cache local to this particular scope. Otherwise, we . // switch to a global cache. . if param_env.needs_infer() { -- line 1266 ---------------------------------------- -- line 1286 ---------------------------------------- . &mut self, . mut param_env: ty::ParamEnv<'tcx>, . cache_fresh_trait_pred: ty::PolyTraitPredicate<'tcx>, . ) -> Option>> { . // Neither the global nor local cache is aware of intercrate . // mode, so don't do any caching. In particular, we might . // re-use the same `InferCtxt` with both an intercrate . // and non-intercrate `SelectionContext` 2,382 ( 0.00%) if self.intercrate { 8 ( 0.00%) return None; . } . let tcx = self.tcx(); . let mut pred = cache_fresh_trait_pred.skip_binder(); 2,366 ( 0.00%) pred.remap_constness(tcx, &mut param_env); . 1,183 ( 0.00%) if self.can_use_global_caches(param_env) { 11,830 ( 0.00%) if let Some(res) = tcx.selection_cache.get(¶m_env.and(pred), tcx) { 8,229 ( 0.00%) return Some(res); . } . } 6,050 ( 0.00%) self.infcx.selection_cache.get(¶m_env.and(pred), tcx) . } . . /// Determines whether can we safely cache the result . /// of selecting an obligation. This is almost always `true`, . /// except when dealing with certain `ParamCandidate`s. . /// . /// Ordinarily, a `ParamCandidate` will contain no inference variables, . /// since it was usually produced directly from a `DefId`. However, -- line 1314 ---------------------------------------- -- line 1325 ---------------------------------------- . fn can_cache_candidate( . &self, . result: &SelectionResult<'tcx, SelectionCandidate<'tcx>>, . ) -> bool { . // Neither the global nor local cache is aware of intercrate . // mode, so don't do any caching. In particular, we might . // re-use the same `InferCtxt` with both an intercrate . // and non-intercrate `SelectionContext` 1,116 ( 0.00%) if self.intercrate { . return false; . } 1,650 ( 0.00%) match result { . Ok(Some(SelectionCandidate::ParamCandidate(trait_ref))) => !trait_ref.needs_infer(), . _ => true, . } . } . . fn insert_candidate_cache( . &mut self, . mut param_env: ty::ParamEnv<'tcx>, . cache_fresh_trait_pred: ty::PolyTraitPredicate<'tcx>, . dep_node: DepNodeIndex, . candidate: SelectionResult<'tcx, SelectionCandidate<'tcx>>, . ) { . let tcx = self.tcx(); . let mut pred = cache_fresh_trait_pred.skip_binder(); . 1,116 ( 0.00%) pred.remap_constness(tcx, &mut param_env); . . if !self.can_cache_candidate(&candidate) { . debug!(?pred, ?candidate, "insert_candidate_cache - candidate is not cacheable"); . return; . } . 550 ( 0.00%) if self.can_use_global_caches(param_env) { 1,310 ( 0.00%) if let Err(Overflow) = candidate { . // Don't cache overflow globally; we only produce this in certain modes. . } else if !pred.needs_infer() { 2,200 ( 0.00%) if !candidate.needs_infer() { . debug!(?pred, ?candidate, "insert_candidate_cache global"); . // This may overwrite the cache with the same value. 14,850 ( 0.00%) tcx.selection_cache.insert(param_env.and(pred), dep_node, candidate); . return; . } . } . } . . debug!(?pred, ?candidate, "insert_candidate_cache local"); . self.infcx.selection_cache.insert(param_env.and(pred), dep_node, candidate); . } -- line 1374 ---------------------------------------- -- line 1484 ---------------------------------------- . } . . fn evaluate_where_clause<'o>( . &mut self, . stack: &TraitObligationStack<'o, 'tcx>, . where_clause_trait_ref: ty::PolyTraitRef<'tcx>, . ) -> Result { . self.evaluation_probe(|this| { 2,717 ( 0.00%) match this.match_where_clause_trait_ref(stack.obligation, where_clause_trait_ref) { 224 ( 0.00%) Ok(obligations) => this.evaluate_predicates_recursively(stack.list(), obligations), . Err(()) => Ok(EvaluatedToErr), . } . }) . } . 9 ( 0.00%) pub(super) fn match_projection_projections( . &mut self, . obligation: &ProjectionTyObligation<'tcx>, . env_predicate: PolyProjectionPredicate<'tcx>, . potentially_unnormalized_candidates: bool, . ) -> bool { . let mut nested_obligations = Vec::new(); 5 ( 0.00%) let (infer_predicate, _) = self.infcx.replace_bound_vars_with_fresh_vars( 3 ( 0.00%) obligation.cause.span, . LateBoundRegionConversionTime::HigherRankedType, . env_predicate, . ); 2 ( 0.00%) let infer_projection = if potentially_unnormalized_candidates { . ensure_sufficient_stack(|| { . project::normalize_with_depth_to( . self, . obligation.param_env, . obligation.cause.clone(), . obligation.recursion_depth + 1, . infer_predicate.projection_ty, . &mut nested_obligations, . ) . }) . } else { 2 ( 0.00%) infer_predicate.projection_ty . }; . 1 ( 0.00%) self.infcx 2 ( 0.00%) .at(&obligation.cause, obligation.param_env) 2 ( 0.00%) .sup(obligation.predicate, infer_projection) 8 ( 0.00%) .map_or(false, |InferOk { obligations, value: () }| { . self.evaluate_predicates_recursively( . TraitObligationStackList::empty(&ProvisionalEvaluationCache::default()), . nested_obligations.into_iter().chain(obligations), . ) 2 ( 0.00%) .map_or(false, |res| res.may_apply()) . }) 9 ( 0.00%) } . . /////////////////////////////////////////////////////////////////////////// . // WINNOW . // . // Winnowing is the process of attempting to resolve ambiguity by . // probing further. During the winnowing process, we unify all . // type variables and then we also attempt to evaluate recursive . // bounds to see if they are satisfied. -- line 1544 ---------------------------------------- -- line 1550 ---------------------------------------- . /// See the comment for "SelectionCandidate" for more details. . fn candidate_should_be_dropped_in_favor_of( . &mut self, . sized_predicate: bool, . victim: &EvaluatedCandidate<'tcx>, . other: &EvaluatedCandidate<'tcx>, . needs_infer: bool, . ) -> bool { 1 ( 0.00%) if victim.candidate == other.candidate { . return true; . } . . // Check if a bound would previously have been removed when normalizing . // the param_env so that it can be given the lowest priority. See . // #50825 for the motivation for this. . let is_global = |cand: &ty::PolyTraitPredicate<'tcx>| { . cand.is_global() && !cand.has_late_bound_regions() . }; . . // (*) Prefer `BuiltinCandidate { has_nested: false }`, `PointeeCandidate`, . // `DiscriminantKindCandidate`, and `ConstDropCandidate` to anything else. . // . // This is a fix for #53123 and prevents winnowing from accidentally extending the . // lifetime of a variable. 18 ( 0.00%) match (&other.candidate, &victim.candidate) { . (_, AutoImplCandidate(..)) | (AutoImplCandidate(..), _) => { . bug!( . "default implementations shouldn't be recorded \ . when there are other valid candidates" . ); . } . . // (*) -- line 1582 ---------------------------------------- -- line 1674 ---------------------------------------- . } . (ObjectCandidate(_), ProjectionCandidate(_)) . | (ProjectionCandidate(_), ObjectCandidate(_)) => { . bug!("Have both object and projection candidate") . } . . // Arbitrarily give projection and object candidates priority. . ( 2 ( 0.00%) ObjectCandidate(_) | ProjectionCandidate(_), . ImplCandidate(..) . | ClosureCandidate . | GeneratorCandidate . | FnPointerCandidate { .. } . | BuiltinObjectCandidate . | BuiltinUnsizeCandidate . | TraitUpcastingUnsizeCandidate(_) . | BuiltinCandidate { .. } -- line 1690 ---------------------------------------- -- line 1696 ---------------------------------------- . | ClosureCandidate . | GeneratorCandidate . | FnPointerCandidate { .. } . | BuiltinObjectCandidate . | BuiltinUnsizeCandidate . | TraitUpcastingUnsizeCandidate(_) . | BuiltinCandidate { .. } . | TraitAliasCandidate(..), 4 ( 0.00%) ObjectCandidate(_) | ProjectionCandidate(_), . ) => false, . 10 ( 0.00%) (&ImplCandidate(other_def), &ImplCandidate(victim_def)) => { . // See if we can toss out `victim` based on specialization. . // This requires us to know *for sure* that the `other` impl applies . // i.e., `EvaluatedToOk`. . // . // FIXME(@lcnr): Using `modulo_regions` here seems kind of scary . // to me but is required for `std` to compile, so I didn't change it . // for now. . let tcx = self.tcx(); 4 ( 0.00%) if other.evaluation.must_apply_modulo_regions() { 8 ( 0.00%) if tcx.specializes((other_def, victim_def)) { . return true; . } . } . . if other.evaluation.must_apply_considering_regions() { . match tcx.impls_are_allowed_to_overlap(other_def, victim_def) { . Some(ty::ImplOverlapKind::Permitted { marker: true }) => { . // Subtle: If the predicate we are evaluating has inference -- line 1725 ---------------------------------------- -- line 1790 ---------------------------------------- . | BuiltinUnsizeCandidate . | TraitUpcastingUnsizeCandidate(_) . | BuiltinCandidate { has_nested: true } . | TraitAliasCandidate(..), . ) => false, . } . } . 1,100 ( 0.00%) fn sized_conditions( . &mut self, . obligation: &TraitObligation<'tcx>, . ) -> BuiltinImplConditions<'tcx> { . use self::BuiltinImplConditions::{Ambiguous, None, Where}; . . // NOTE: binder moved to (*) 330 ( 0.00%) let self_ty = self.infcx.shallow_resolve(obligation.predicate.skip_binder().self_ty()); . 550 ( 0.00%) match self_ty.kind() { . ty::Infer(ty::IntVar(_) | ty::FloatVar(_)) . | ty::Uint(_) . | ty::Int(_) . | ty::Bool . | ty::Float(_) . | ty::FnDef(..) . | ty::FnPtr(_) . | ty::RawPtr(..) -- line 1815 ---------------------------------------- -- line 1817 ---------------------------------------- . | ty::Ref(..) . | ty::Generator(..) . | ty::GeneratorWitness(..) . | ty::Array(..) . | ty::Closure(..) . | ty::Never . | ty::Error(_) => { . // safe for everything 77 ( 0.00%) Where(ty::Binder::dummy(Vec::new())) . } . . ty::Str | ty::Slice(_) | ty::Dynamic(..) | ty::Foreign(..) => None, . . ty::Tuple(tys) => Where( . obligation . .predicate 5 ( 0.00%) .rebind(tys.last().into_iter().map(|k| k.expect_ty()).collect()), . ), . . ty::Adt(def, substs) => { 38 ( 0.00%) let sized_crit = def.sized_constraint(self.tcx()); . // (*) binder moved here 95 ( 0.00%) Where( . obligation.predicate.rebind({ 19 ( 0.00%) sized_crit.iter().map(|ty| ty.subst(self.tcx(), substs)).collect() . }), . ) . } . . ty::Projection(_) | ty::Param(_) | ty::Opaque(..) => None, . ty::Infer(ty::TyVar(_)) => Ambiguous, . . ty::Placeholder(..) . | ty::Bound(..) . | ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)) => { . bug!("asked to assemble builtin bounds of unexpected type: {:?}", self_ty); . } . } 880 ( 0.00%) } . 712 ( 0.00%) fn copy_clone_conditions( . &mut self, . obligation: &TraitObligation<'tcx>, . ) -> BuiltinImplConditions<'tcx> { . // NOTE: binder moved to (*) 178 ( 0.00%) let self_ty = self.infcx.shallow_resolve(obligation.predicate.skip_binder().self_ty()); . . use self::BuiltinImplConditions::{Ambiguous, None, Where}; . 445 ( 0.00%) match *self_ty.kind() { . ty::Infer(ty::IntVar(_)) . | ty::Infer(ty::FloatVar(_)) . | ty::FnDef(..) . | ty::FnPtr(_) . | ty::Error(_) => Where(ty::Binder::dummy(Vec::new())), . . ty::Uint(_) . | ty::Int(_) -- line 1874 ---------------------------------------- -- line 1886 ---------------------------------------- . ty::Dynamic(..) . | ty::Str . | ty::Slice(..) . | ty::Generator(..) . | ty::GeneratorWitness(..) . | ty::Foreign(..) . | ty::Ref(_, _, hir::Mutability::Mut) => None, . 2 ( 0.00%) ty::Tuple(tys) => { . // (*) binder moved here 8 ( 0.00%) Where(obligation.predicate.rebind(tys.iter().map(|k| k.expect_ty()).collect())) . } . . ty::Closure(_, substs) => { . // (*) binder moved here . let ty = self.infcx.shallow_resolve(substs.as_closure().tupled_upvars_ty()); . if let ty::Infer(ty::TyVar(_)) = ty.kind() { . // Not yet resolved. . Ambiguous -- line 1904 ---------------------------------------- -- line 1920 ---------------------------------------- . } . . ty::Placeholder(..) . | ty::Bound(..) . | ty::Infer(ty::FreshTy(_) | ty::FreshIntTy(_) | ty::FreshFloatTy(_)) => { . bug!("asked to assemble builtin bounds of unexpected type: {:?}", self_ty); . } . } 534 ( 0.00%) } . . /// For default impls, we need to break apart a type into its . /// "constituent types" -- meaning, the types that it contains. . /// . /// Here are some (simple) examples: . /// . /// ``` . /// (i32, u32) -> [i32, u32] -- line 1936 ---------------------------------------- -- line 2075 ---------------------------------------- . // run inside of a `probe()` so that their side-effects are . // contained. . . fn rematch_impl( . &mut self, . impl_def_id: DefId, . obligation: &TraitObligation<'tcx>, . ) -> Normalized<'tcx, SubstsRef<'tcx>> { 2,360 ( 0.00%) match self.match_impl(impl_def_id, obligation) { 1,888 ( 0.00%) Ok(substs) => substs, . Err(()) => { . bug!( . "Impl {:?} was matchable against {:?} but now is not", . impl_def_id, . obligation . ); . } . } . } . 169,651 ( 0.06%) #[tracing::instrument(level = "debug", skip(self))] . fn match_impl( . &mut self, . impl_def_id: DefId, . obligation: &TraitObligation<'tcx>, . ) -> Result>, ()> { . let impl_trait_ref = self.tcx().impl_trait_ref(impl_def_id).unwrap(); . . // Before we create the substitutions and everything, first . // consider a "quick reject". This avoids creating more types . // and so forth that we need to. . if self.fast_reject_trait_refs(obligation, &impl_trait_ref) { 18 ( 0.00%) return Err(()); . } . . let placeholder_obligation = 62,440 ( 0.02%) self.infcx().replace_bound_vars_with_placeholders(obligation.predicate); 26,760 ( 0.01%) let placeholder_obligation_trait_ref = placeholder_obligation.trait_ref; . 44,600 ( 0.01%) let impl_substs = self.infcx.fresh_substs_for_item(obligation.cause.span, impl_def_id); . 17,840 ( 0.01%) let impl_trait_ref = impl_trait_ref.subst(self.tcx(), impl_substs); . . debug!(?impl_trait_ref); . 53,520 ( 0.02%) let Normalized { value: impl_trait_ref, obligations: mut nested_obligations } = 62,440 ( 0.02%) ensure_sufficient_stack(|| { . project::normalize_with_depth( . self, 8,920 ( 0.00%) obligation.param_env, . obligation.cause.clone(), 26,760 ( 0.01%) obligation.recursion_depth + 1, 17,840 ( 0.01%) impl_trait_ref, . ) . }); . . debug!(?impl_trait_ref, ?placeholder_obligation_trait_ref); . . let cause = ObligationCause::new( 8,920 ( 0.00%) obligation.cause.span, 17,840 ( 0.01%) obligation.cause.body_id, 80,280 ( 0.03%) ObligationCauseCode::MatchImpl(obligation.cause.clone(), impl_def_id), . ); . 17,840 ( 0.01%) let InferOk { obligations, .. } = self . .infcx 8,920 ( 0.00%) .at(&cause, obligation.param_env) . .eq(placeholder_obligation_trait_ref, impl_trait_ref) . .map_err(|e| debug!("match_impl: failed eq_trait_refs due to `{}`", e))?; . nested_obligations.extend(obligations); . 2,563 ( 0.00%) if !self.intercrate . && self.tcx().impl_polarity(impl_def_id) == ty::ImplPolarity::Reservation . { . debug!("match_impl: reservation impls only apply in intercrate mode"); . return Err(()); . } . . debug!(?impl_substs, ?nested_obligations, "match_impl: success"); 5,130 ( 0.00%) Ok(Normalized { value: impl_substs, obligations: nested_obligations }) . } . . fn fast_reject_trait_refs( . &mut self, . obligation: &TraitObligation<'_>, . impl_trait_ref: &ty::TraitRef<'_>, . ) -> bool { . // We can avoid creating type variables and doing the full . // substitution if we find that any of the input types, when . // simplified, do not match. . 26,787 ( 0.01%) iter::zip(obligation.predicate.skip_binder().trait_ref.substs, impl_trait_ref.substs).any( . |(obligation_arg, impl_arg)| { 53,778 ( 0.02%) match (obligation_arg.unpack(), impl_arg.unpack()) { . (GenericArgKind::Type(obligation_ty), GenericArgKind::Type(impl_ty)) => { . // Note, we simplify parameters for the obligation but not the . // impl so that we do not reject a blanket impl but do reject . // more concrete impls if we're searching for `T: Trait`. 71,704 ( 0.02%) let simplified_obligation_ty = fast_reject::simplify_type( . self.tcx(), . obligation_ty, . SimplifyParams::Yes, . StripReferences::No, . ); 53,778 ( 0.02%) let simplified_impl_ty = fast_reject::simplify_type( . self.tcx(), . impl_ty, . SimplifyParams::No, . StripReferences::No, . ); . 26,889 ( 0.01%) simplified_obligation_ty.is_some() . && simplified_impl_ty.is_some() . && simplified_obligation_ty != simplified_impl_ty . } . (GenericArgKind::Lifetime(_), GenericArgKind::Lifetime(_)) => { . // Lifetimes can never cause a rejection. . false . } . (GenericArgKind::Const(_), GenericArgKind::Const(_)) => { -- line 2194 ---------------------------------------- -- line 2201 ---------------------------------------- . } . }, . ) . } . . /// Normalize `where_clause_trait_ref` and try to match it against . /// `obligation`. If successful, return any predicates that . /// result from the normalization. 2,223 ( 0.00%) fn match_where_clause_trait_ref( . &mut self, . obligation: &TraitObligation<'tcx>, . where_clause_trait_ref: ty::PolyTraitRef<'tcx>, . ) -> Result>, ()> { . self.match_poly_trait_ref(obligation, where_clause_trait_ref) 1,976 ( 0.00%) } . . /// Returns `Ok` if `poly_trait_ref` being true implies that the . /// obligation is satisfied. . #[instrument(skip(self), level = "debug")] . fn match_poly_trait_ref( . &mut self, . obligation: &TraitObligation<'tcx>, . poly_trait_ref: ty::PolyTraitRef<'tcx>, . ) -> Result>, ()> { 662 ( 0.00%) self.infcx 247 ( 0.00%) .at(&obligation.cause, obligation.param_env) 1,986 ( 0.00%) .sup(obligation.predicate.to_poly_trait_ref(), poly_trait_ref) . .map(|InferOk { obligations, .. }| obligations) . .map_err(|_| ()) . } . . /////////////////////////////////////////////////////////////////////////// . // Miscellany . . fn match_fresh_trait_refs( -- line 2235 ---------------------------------------- -- line 2242 ---------------------------------------- . matcher.relate(previous, current).is_ok() . } . . fn push_stack<'o>( . &mut self, . previous_stack: TraitObligationStackList<'o, 'tcx>, . obligation: &'o TraitObligation<'tcx>, . ) -> TraitObligationStack<'o, 'tcx> { 8,910 ( 0.00%) let fresh_trait_pred = obligation.predicate.fold_with(&mut self.freshener); . . let dfn = previous_stack.cache.next_dfn(); 786 ( 0.00%) let depth = previous_stack.depth() + 1; 11,007 ( 0.00%) TraitObligationStack { . obligation, 7,163 ( 0.00%) fresh_trait_pred, . reached_depth: Cell::new(depth), . previous: previous_stack, . dfn, . depth, . } . } . . #[instrument(skip(self), level = "debug")] -- line 2264 ---------------------------------------- -- line 2307 ---------------------------------------- . ) . .map_bound(|(trait_ref, ..)| trait_ref) . } . . /// Returns the obligations that are implied by instantiating an . /// impl or trait. The obligations are substituted and fully . /// normalized. This is used when confirming an impl or default . /// impl. 10,856 ( 0.00%) #[tracing::instrument(level = "debug", skip(self, cause, param_env))] . fn impl_or_trait_obligations( . &mut self, . cause: ObligationCause<'tcx>, . recursion_depth: usize, . param_env: ty::ParamEnv<'tcx>, . def_id: DefId, // of impl or trait . substs: SubstsRef<'tcx>, // for impl or trait . ) -> Vec> { -- line 2323 ---------------------------------------- -- line 2334 ---------------------------------------- . // V: Iterator, V: Sized, . // ::Item: Copy . // When we substitute, say, `V => IntoIter, U => $0`, the last . // obligation will normalize to `<$0 as Iterator>::Item = $1` and . // `$1: Copy`, so we must ensure the obligations are emitted in . // that order. . let predicates = tcx.predicates_of(def_id); . debug!(?predicates); 472 ( 0.00%) assert_eq!(predicates.parent, None); 1,416 ( 0.00%) let mut obligations = Vec::with_capacity(predicates.predicates.len()); . for (predicate, _) in predicates.predicates { . debug!(?predicate); 4,805 ( 0.00%) let predicate = normalize_with_depth_to( . self, . param_env, . cause.clone(), . recursion_depth, 961 ( 0.00%) predicate.subst(tcx, substs), . &mut obligations, . ); 9,610 ( 0.00%) obligations.push(Obligation { . cause: cause.clone(), . recursion_depth, . param_env, . predicate, . }); . } . . // We are performing deduplication here to avoid exponential blowups -- line 2362 ---------------------------------------- -- line 2363 ---------------------------------------- . // (#38528) from happening, but the real cause of the duplication is . // unknown. What we know is that the deduplication avoids exponential . // amount of predicates being propagated when processing deeply nested . // types. . // . // This code is hot enough that it's worth avoiding the allocation . // required for the FxHashSet when possible. Special-casing lengths 0, . // 1 and 2 covers roughly 75-80% of the cases. 1,317 ( 0.00%) if obligations.len() <= 1 { . // No possibility of duplicates. 435 ( 0.00%) } else if obligations.len() == 2 { . // Only two elements. Drop the second if they are equal. . if obligations[0] == obligations[1] { . obligations.truncate(1); . } . } else { . // Three or more elements. Use a general deduplication process. . let mut seen = FxHashSet::default(); 77 ( 0.00%) obligations.retain(|i| seen.insert(i.clone())); . } . 1,888 ( 0.00%) obligations . } . } . . trait TraitObligationExt<'tcx> { . fn derived_cause( . &self, . variant: fn(DerivedObligationCause<'tcx>) -> ObligationCauseCode<'tcx>, . ) -> ObligationCause<'tcx>; -- line 2392 ---------------------------------------- -- line 2408 ---------------------------------------- . */ . . let obligation = self; . . // NOTE(flaper87): As of now, it keeps track of the whole error . // chain. Ideally, we should have a way to configure this either . // by using -Z verbose or just a CLI argument. . let derived_cause = DerivedObligationCause { 1,888 ( 0.00%) parent_trait_pred: obligation.predicate, 944 ( 0.00%) parent_code: obligation.cause.clone_code(), . }; . let derived_code = variant(derived_cause); 5,664 ( 0.00%) ObligationCause::new(obligation.cause.span, obligation.cause.body_id, derived_code) . } . } . . impl<'o, 'tcx> TraitObligationStack<'o, 'tcx> { . fn list(&'o self) -> TraitObligationStackList<'o, 'tcx> { . TraitObligationStackList::with(self) . } . . fn cache(&self) -> &'o ProvisionalEvaluationCache<'tcx> { 873 ( 0.00%) self.previous.cache . } . . fn iter(&'o self) -> TraitObligationStackList<'o, 'tcx> { . self.list() . } . . /// Indicates that attempting to evaluate this stack entry . /// required accessing something from the stack at depth `reached_depth`. -- line 2438 ---------------------------------------- -- line 2540 ---------------------------------------- . /// evaluation. When we create an entry in the evaluation cache using this provisional . /// cache entry (see `on_completion`), we use this `dep_node` to ensure that future reads from . /// the cache will have all of the necessary incr comp dependencies tracked. . dep_node: DepNodeIndex, . } . . impl<'tcx> Default for ProvisionalEvaluationCache<'tcx> { . fn default() -> Self { 1,253 ( 0.00%) Self { dfn: Cell::new(0), map: Default::default() } . } . } . . impl<'tcx> ProvisionalEvaluationCache<'tcx> { . /// Get the next DFN in sequence (basically a counter). . fn next_dfn(&self) -> usize { 393 ( 0.00%) let result = self.dfn.get(); 1,572 ( 0.00%) self.dfn.set(result + 1); . result . } . . /// Check the provisional cache for any result for . /// `fresh_trait_ref`. If there is a hit, then you must consider . /// it an access to the stack slots at depth . /// `reached_depth` (from the returned value). . fn get_provisional( -- line 2564 ---------------------------------------- -- line 2663 ---------------------------------------- . fn on_completion( . &self, . dfn: usize, . mut op: impl FnMut(ty::PolyTraitPredicate<'tcx>, EvaluationResult, DepNodeIndex), . ) { . debug!(?dfn, "on_completion"); . . for (fresh_trait_pred, eval) in 1,610 ( 0.00%) self.map.borrow_mut().drain_filter(|_k, eval| eval.from_dfn >= dfn) . { . debug!(?fresh_trait_pred, ?eval, "on_completion"); . . op(fresh_trait_pred, eval.result, eval.dep_node); . } . } . } . -- line 2679 ---------------------------------------- -- line 2692 ---------------------------------------- . TraitObligationStackList { cache: r.cache(), head: Some(r) } . } . . fn head(&self) -> Option<&'o TraitObligationStack<'o, 'tcx>> { . self.head . } . . fn depth(&self) -> usize { 1,107 ( 0.00%) if let Some(head) = self.head { head.depth } else { 0 } . } . } . . impl<'o, 'tcx> Iterator for TraitObligationStackList<'o, 'tcx> { . type Item = &'o TraitObligationStack<'o, 'tcx>; . . fn next(&mut self) -> Option<&'o TraitObligationStack<'o, 'tcx>> { 1,036 ( 0.00%) let o = self.head?; 173 ( 0.00%) *self = o.previous; . Some(o) . } . } . . impl<'o, 'tcx> fmt::Debug for TraitObligationStack<'o, 'tcx> { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . write!(f, "TraitObligationStack({:?})", self.obligation) . } -- line 2717 ---------------------------------------- 69,336 ( 0.02%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/library/core/src/slice/iter/macros.rs -------------------------------------------------------------------------------- Ir -- line 70 ---------------------------------------- . . impl<'a, T> $name<'a, T> { . // Helper function for creating a slice from the iterator. . #[inline(always)] . fn make_slice(&self) -> &'a [T] { . // SAFETY: the iterator was created from a slice with pointer . // `self.ptr` and length `len!(self)`. This guarantees that all . // the prerequisites for `from_raw_parts` are fulfilled. 2,912 ( 0.00%) unsafe { from_raw_parts(self.ptr.as_ptr(), len!(self)) } . } . . // Helper function for moving the start of the iterator forwards by `offset` elements, . // returning the old start. . // Unsafe because the offset must not exceed `self.len()`. . #[inline(always)] . unsafe fn post_inc_start(&mut self, offset: isize) -> * $raw_mut T { . if mem::size_of::() == 0 { . zst_shrink!(self, offset); . self.ptr.as_ptr() . } else { . let old = self.ptr.as_ptr(); . // SAFETY: the caller guarantees that `offset` doesn't exceed `self.len()`, . // so this new pointer is inside `self` and thus guaranteed to be non-null. 19,622 ( 0.01%) self.ptr = unsafe { NonNull::new_unchecked(self.ptr.as_ptr().offset(offset)) }; . old . } . } . . // Helper function for moving the end of the iterator backwards by `offset` elements, . // returning the new end. . // Unsafe because the offset must not exceed `self.len()`. . #[inline(always)] -- line 101 ---------------------------------------- -- line 102 ---------------------------------------- . unsafe fn pre_dec_end(&mut self, offset: isize) -> * $raw_mut T { . if mem::size_of::() == 0 { . zst_shrink!(self, offset); . self.ptr.as_ptr() . } else { . // SAFETY: the caller guarantees that `offset` doesn't exceed `self.len()`, . // which is guaranteed to not overflow an `isize`. Also, the resulting pointer . // is in bounds of `slice`, which fulfills the other requirements for `offset`. 6 ( 0.00%) self.end = unsafe { self.end.offset(-offset) }; . self.end . } . } . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl ExactSizeIterator for $name<'_, T> { . #[inline(always)] . fn len(&self) -> usize { 8,401 ( 0.00%) len!(self) . } . . #[inline(always)] . fn is_empty(&self) -> bool { . is_empty!(self) . } . } . -- line 128 ---------------------------------------- -- line 134 ---------------------------------------- . fn next(&mut self) -> Option<$elem> { . // could be implemented with slices, but this avoids bounds checks . . // SAFETY: `assume` calls are safe since a slice's start pointer . // must be non-null, and slices over non-ZSTs must also have a . // non-null end pointer. The call to `next_unchecked!` is safe . // since we check if the iterator is empty first. . unsafe { 15,692 ( 0.01%) assume(!self.ptr.as_ptr().is_null()); . if mem::size_of::() != 0 { 2,527 ( 0.00%) assume(!self.end.is_null()); . } 4,711,039 ( 1.57%) if is_empty!(self) { . None . } else { . Some(next_unchecked!(self)) . } . } . } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 126,709 ( 0.04%) let exact = len!(self); . (exact, Some(exact)) . } . . #[inline] . fn count(self) -> usize { . len!(self) . } . . #[inline] . fn nth(&mut self, n: usize) -> Option<$elem> { 240 ( 0.00%) if n >= len!(self) { . // This iterator is now empty. . if mem::size_of::() == 0 { . // We have to do it this way as `ptr` may never be 0, but `end` . // could be (due to wrapping). . self.end = self.ptr.as_ptr(); . } else { . // SAFETY: end can't be 0 if T isn't ZST because ptr isn't 0 and end >= ptr . unsafe { -- line 175 ---------------------------------------- -- line 203 ---------------------------------------- . // faster to compile. . #[inline] . fn for_each(mut self, mut f: F) . where . Self: Sized, . F: FnMut(Self::Item), . { . while let Some(x) = self.next() { 427 ( 0.00%) f(x); . } . } . . // We override the default implementation, which uses `try_fold`, . // because this simple implementation generates less LLVM IR and is . // faster to compile. . #[inline] . fn all(&mut self, mut f: F) -> bool . where . Self: Sized, . F: FnMut(Self::Item) -> bool, . { 3 ( 0.00%) while let Some(x) = self.next() { 1,304 ( 0.00%) if !f(x) { . return false; . } . } . true . } . . // We override the default implementation, which uses `try_fold`, . // because this simple implementation generates less LLVM IR and is . // faster to compile. . #[inline] . fn any(&mut self, mut f: F) -> bool . where . Self: Sized, . F: FnMut(Self::Item) -> bool, . { 16,366 ( 0.01%) while let Some(x) = self.next() { 34,045 ( 0.01%) if f(x) { . return true; . } . } . false . } . . // We override the default implementation, which uses `try_fold`, . // because this simple implementation generates less LLVM IR and is . // faster to compile. . #[inline] . fn find

(&mut self, mut predicate: P) -> Option . where . Self: Sized, . P: FnMut(&Self::Item) -> bool, . { 1,647 ( 0.00%) while let Some(x) = self.next() { 3,525 ( 0.00%) if predicate(&x) { . return Some(x); . } . } . None 72 ( 0.00%) } . . // We override the default implementation, which uses `try_fold`, . // because this simple implementation generates less LLVM IR and is . // faster to compile. . #[inline] . fn find_map(&mut self, mut f: F) -> Option . where . Self: Sized, . F: FnMut(Self::Item) -> Option, . { 23,843 ( 0.01%) while let Some(x) = self.next() { 18,711 ( 0.01%) if let Some(y) = f(x) { 1,260 ( 0.00%) return Some(y); . } . } . None 990 ( 0.00%) } . . // We override the default implementation, which uses `try_fold`, . // because this simple implementation generates less LLVM IR and is . // faster to compile. Also, the `assume` avoids a bounds check. . #[inline] . #[rustc_inherit_overflow_checks] . fn position

(&mut self, mut predicate: P) -> Option where . Self: Sized, . P: FnMut(Self::Item) -> bool, . { . let n = len!(self); . let mut i = 0; . while let Some(x) = self.next() { 10,298 ( 0.00%) if predicate(x) { . // SAFETY: we are guaranteed to be in bounds by the loop invariant: . // when `i >= n`, `self.next()` returns `None` and the loop breaks. . unsafe { assume(i < n) }; . return Some(i); . } . i += 1; . } . None -- line 303 ---------------------------------------- -- line 308 ---------------------------------------- . // faster to compile. Also, the `assume` avoids a bounds check. . #[inline] . fn rposition

(&mut self, mut predicate: P) -> Option where . P: FnMut(Self::Item) -> bool, . Self: Sized + ExactSizeIterator + DoubleEndedIterator . { . let n = len!(self); . let mut i = n; 6,220 ( 0.00%) while let Some(x) = self.next_back() { 76,683 ( 0.03%) i -= 1; 62,459 ( 0.02%) if predicate(x) { . // SAFETY: `i` must be lower than `n` since it starts at `n` . // and is only decreasing. . unsafe { assume(i < n) }; . return Some(i); . } . } . None . } -- line 326 ---------------------------------------- -- line 332 ---------------------------------------- . // the returned references is guaranteed to refer to an element . // of the slice and thus guaranteed to be valid. . // . // Also note that the caller also guarantees that we're never . // called with the same index again, and that no other methods . // that will access this subslice are called, so it is valid . // for the returned reference to be mutable in the case of . // `IterMut` 23,998 ( 0.01%) unsafe { & $( $mut_ )? * self.ptr.as_ptr().add(idx) } . } . . $($extra)* . } . . #[stable(feature = "rust1", since = "1.0.0")] . impl<'a, T> DoubleEndedIterator for $name<'a, T> { . #[inline] -- line 348 ---------------------------------------- -- line 349 ---------------------------------------- . fn next_back(&mut self) -> Option<$elem> { . // could be implemented with slices, but this avoids bounds checks . . // SAFETY: `assume` calls are safe since a slice's start pointer must be non-null, . // and slices over non-ZSTs must also have a non-null end pointer. . // The call to `next_back_unchecked!` is safe since we check if the iterator is . // empty first. . unsafe { 2 ( 0.00%) assume(!self.ptr.as_ptr().is_null()); . if mem::size_of::() != 0 { 8 ( 0.00%) assume(!self.end.is_null()); . } 67,508 ( 0.02%) if is_empty!(self) { . None . } else { . Some(next_back_unchecked!(self)) . } . } . } . . #[inline] -- line 369 ---------------------------------------- 694,252 ( 0.23%) -------------------------------------------------------------------------------- -- 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, . { 81,401 ( 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. 19 ( 0.00%) #[derive(Debug, Eq, PartialEq, Clone, Ord, PartialOrd)] 732 ( 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 1,912 ( 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> { 8 ( 0.00%) encoder.emit_enum(|encoder| match *self { . RealFileName::LocalPath(ref local_path) => { 32 ( 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 224 ---------------------------------------- . 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 { 1,516 ( 0.00%) match self { . RealFileName::LocalPath(p) . | RealFileName::Remapped { local_path: _, virtual_name: p } => &p, . } 5 ( 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 { 4 ( 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> { 4 ( 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. 4,024 ( 0.00%) #[derive(Debug, Eq, PartialEq, Clone, Ord, PartialOrd, Hash)] 4,464 ( 0.00%) #[derive(Decodable, Encodable)] . pub enum FileName { . Real(RealFileName), . /// Call to `quote!`. 2 ( 0.00%) QuoteExpansion(u64), . /// Command line. . Anon(u64), . /// Hack in `src/librustc_ast/parse.rs`. . // FIXME(jseyfried) . MacroExpansion(u64), . ProcMacroSourceCode(u64), . /// Strings provided as `--cfg [cfgspec]` stored in a `crate_cfg`. . CfgSpec(u64), -- line 285 ---------------------------------------- -- 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 { 28 ( 0.00%) fn from(p: PathBuf) -> Self { 8 ( 0.00%) assert!(!p.to_string_lossy().ends_with('>')); 24 ( 0.00%) FileName::Real(RealFileName::LocalPath(p)) 28 ( 0.00%) } . } . 2 ( 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<'_> { 16 ( 0.00%) fn fmt(&self, fmt: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { . use FileName::*; 24 ( 0.00%) match *self.inner { . Real(ref name) => { 24 ( 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, ""), . } 20 ( 0.00%) } . } . . impl FileNameDisplay<'_> { . pub fn to_string_lossy(&self) -> Cow<'_, str> { . match self.inner { . FileName::Real(ref inner) => inner.to_string_lossy(self.display_pref), . _ => Cow::from(format!("{}", self)), . } . } . } . . impl FileName { . pub fn is_real(&self) -> bool { . use FileName::*; 748 ( 0.00%) match *self { . Real(_) => true, . Anon(_) . | MacroExpansion(_) . | ProcMacroSourceCode(_) . | CfgSpec(_) . | CliCrateAttr(_) . | Custom(_) . | QuoteExpansion(_) -- line 353 ---------------------------------------- -- line 357 ---------------------------------------- . } . . pub fn prefer_remapped(&self) -> FileNameDisplay<'_> { . FileNameDisplay { inner: self, display_pref: FileNameDisplayPreference::Remapped } . } . . // This may include transient local filesystem information. . // Must not be embedded in build outputs. 4 ( 0.00%) pub fn prefer_local(&self) -> FileNameDisplay<'_> { . FileNameDisplay { inner: self, display_pref: FileNameDisplayPreference::Local } 8 ( 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 383 ---------------------------------------- . } . . pub fn proc_macro_source_code(src: &str) -> FileName { . let mut hasher = StableHasher::new(); . src.hash(&mut hasher); . FileName::ProcMacroSourceCode(hasher.finish()) . } . 10 ( 0.00%) pub fn cfg_spec_source_code(src: &str) -> FileName { . let mut hasher = StableHasher::new(); . src.hash(&mut hasher); 4 ( 0.00%) FileName::QuoteExpansion(hasher.finish()) 10 ( 0.00%) } . . pub fn cli_crate_attr_source_code(src: &str) -> FileName { . let mut hasher = StableHasher::new(); . src.hash(&mut hasher); . FileName::CliCrateAttr(hasher.finish()) . } . . pub fn doc_test_source_code(path: PathBuf, line: isize) -> FileName { -- line 403 ---------------------------------------- -- 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 { 10 ( 0.00%) pub lo: BytePos, 10 ( 0.00%) pub hi: BytePos, . /// Information about where the macro came from, if this piece of . /// code was created by a macro expansion. 27 ( 0.00%) pub ctxt: SyntaxContext, 9 ( 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 { 17,383 ( 0.01%) self.lo.0 == 0 && self.hi.0 == 0 . } . /// Returns `true` if `self` fully encloses `other`. . pub fn contains(self, other: Self) -> bool { . 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 -- line 501 ---------------------------------------- -- line 502 ---------------------------------------- . // 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 { 5,504 ( 0.00%) fn partial_cmp(&self, rhs: &Self) -> Option { 4,128 ( 0.00%) PartialOrd::partial_cmp(&self.data(), &rhs.data()) 5,504 ( 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] 639 ( 0.00%) pub fn with_lo(self, lo: BytePos) -> Span { . self.data().with_lo(lo) 426 ( 0.00%) } . #[inline] 448 ( 0.00%) pub fn hi(self) -> BytePos { . self.data().hi 448 ( 0.00%) } . #[inline] 2,286 ( 0.00%) pub fn with_hi(self, hi: BytePos) -> Span { . self.data().with_hi(hi) 1,524 ( 0.00%) } . #[inline] . pub fn ctxt(self) -> SyntaxContext { . self.data_untracked().ctxt . } . #[inline] 205 ( 0.00%) pub fn with_ctxt(self, ctxt: SyntaxContext) -> Span { . self.data_untracked().with_ctxt(ctxt) 123 ( 0.00%) } . #[inline] . pub fn parent(self) -> Option { . self.data().parent . } . #[inline] . pub fn with_parent(self, ctxt: Option) -> Span { . self.data().with_parent(ctxt) . } -- line 566 ---------------------------------------- -- line 671 ---------------------------------------- . pub fn find_ancestor_inside(mut self, outer: Span) -> Option { . while !outer.contains(self) { . self = self.parent_callsite()?; . } . Some(self) . } . . /// Edition of the crate from which this span came. 1,905 ( 0.00%) pub fn edition(self) -> edition::Edition { . self.ctxt().edition() 1,270 ( 0.00%) } . . #[inline] . pub fn rust_2015(self) -> bool { 620 ( 0.00%) self.edition() == edition::Edition::Edition2015 . } . . #[inline] . pub fn rust_2018(self) -> bool { 28 ( 0.00%) self.edition() >= edition::Edition::Edition2018 . } . . #[inline] . pub fn rust_2021(self) -> bool { 30 ( 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]`). 5 ( 0.00%) pub fn allows_unstable(self, feature: Symbol) -> bool { 1 ( 0.00%) self.ctxt() . .outer_expn_data() . .allow_internal_unstable . .map_or(false, |features| features.iter().any(|&f| f == feature)) 4 ( 0.00%) } . . /// Checks if this span arises from a compiler desugaring of kind `kind`. 182 ( 0.00%) pub fn is_desugaring(self, kind: DesugaringKind) -> bool { 156 ( 0.00%) match self.ctxt().outer_expn_data().kind { . ExpnKind::Desugaring(k) => k == kind, . _ => false, . } 130 ( 0.00%) } . . /// Returns the compiler desugaring that created this span, or `None` . /// if this span is not from a desugaring. . pub fn desugaring_kind(self) -> Option { . match self.ctxt().outer_expn_data().kind { . ExpnKind::Desugaring(k) => Some(k), . _ => None, . } -- line 736 ---------------------------------------- -- line 767 ---------------------------------------- . . /// Returns a `Span` that would enclose both `self` and `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^^^^^^^^ . /// ``` 30,833 ( 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. 5,602 ( 0.00%) if span_data.ctxt != end_data.ctxt { 4 ( 0.00%) 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( . 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 }, 19,593 ( 0.01%) if span_data.parent == end_data.parent { span_data.parent } else { None }, . ) 25,227 ( 0.01%) } . . /// Returns a `Span` between the end of `self` to the beginning of `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^ . /// ``` 1,562 ( 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 }, 994 ( 0.00%) if span.parent == end.parent { span.parent } else { None }, . ) 1,136 ( 0.00%) } . . /// Returns a `Span` from the beginning of `self` until the beginning of `end`. . /// . /// ```text . /// ____ ___ . /// self lorem ipsum end . /// ^^^^^^^^^^^^^^^^^ . /// ``` 77 ( 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. 14 ( 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 }, 49 ( 0.00%) if span_data.parent == end_data.parent { span_data.parent } else { None }, . ) 63 ( 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, . ) . } . . /// 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 { 2 ( 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 { 2 ( 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). 24 ( 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)) 14 ( 0.00%) } . . #[inline] . pub fn apply_mark(self, expn_id: ExpnId, transparency: Transparency) -> Span { . let span = self.data(); 18,432 ( 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] 2,061 ( 0.00%) pub fn normalize_to_macros_2_0_and_adjust(&mut self, expn_id: ExpnId) -> Option { 1,374 ( 0.00%) let mut span = self.data(); 1,131 ( 0.00%) let mark = span.ctxt.normalize_to_macros_2_0_and_adjust(expn_id); 2,061 ( 0.00%) *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark 2,276 ( 0.00%) } . . #[inline] . pub fn glob_adjust(&mut self, expn_id: ExpnId, glob_span: Span) -> Option> { . let mut span = self.data(); . let mark = span.ctxt.glob_adjust(expn_id, glob_span); . *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark . } -- line 922 ---------------------------------------- -- line 929 ---------------------------------------- . ) -> Option> { . let mut span = self.data(); . let mark = span.ctxt.reverse_glob_adjust(expn_id, glob_span); . *self = Span::new(span.lo, span.hi, span.ctxt, span.parent); . mark . } . . #[inline] 5,872 ( 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()) 5,138 ( 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 { 110 ( 0.00%) MultiSpan { primary_spans: vec![primary_span], span_labels: vec![] } . } . . pub fn from_spans(mut vec: Vec) -> MultiSpan { . vec.sort(); . 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() 21 ( 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 { 110 ( 0.00%) fn from(span: Span) -> MultiSpan { . MultiSpan::from_span(span) 110 ( 0.00%) } . } . . impl From> for MultiSpan { . fn from(spans: Vec) -> MultiSpan { . MultiSpan::from_spans(spans) . } . } . -- line 1157 ---------------------------------------- -- line 1160 ---------------------------------------- . 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`. 294 ( 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 { 518 ( 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; . 147 ( 0.00%) fn sub(self, rhs: BytePos) -> Self { 518 ( 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), . } 441 ( 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, . } . 12 ( 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 1267 ---------------------------------------- . _ => None, . } . } . } . . #[derive(Debug)] . pub struct OffsetOverflowError; . 740 ( 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. 24 ( 0.00%) #[derive(Copy, Clone, PartialEq, Eq, Debug)] 1,480 ( 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 { . 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 => { 18 ( 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)); . } . } -- line 1321 ---------------------------------------- -- line 1329 ---------------------------------------- . . /// The bytes of the hash. . pub fn hash_bytes(&self) -> &[u8] { . let len = self.hash_len(); . &self.value[..len] . } . . fn hash_len(&self) -> usize { 18 ( 0.00%) match self.kind { . SourceFileHashAlgorithm::Md5 => 16, . SourceFileHashAlgorithm::Sha1 => 20, . SourceFileHashAlgorithm::Sha256 => 32, . } . } . } . . /// A single source in the [`SourceMap`]. 232 ( 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. 4 ( 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. 4 ( 0.00%) pub name_hash: u128, . /// Indicates which crate this `SourceFile` was imported from. 4 ( 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)?; . 16 ( 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 { 8 ( 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); . 8 ( 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))?; 12 ( 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))?; 44 ( 0.00%) s.emit_struct_field("cnum", false, |s| self.cnum.encode(s)) . }) . } . } . . impl Decodable for SourceFile { 3,330 ( 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); 370 ( 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 { 707,360 ( 0.24%) 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)); 740 ( 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)); 4,070 ( 0.00%) SourceFile { 2,960 ( 0.00%) name, . start_pos, . end_pos, . src: None, 1,480 ( 0.00%) src_hash, . // Unused - the metadata decoder will construct . // a new SourceFile, filling in `external_src` properly . external_src: Lock::new(ExternalSource::Unneeded), 1,480 ( 0.00%) lines, 1,480 ( 0.00%) multibyte_chars, 1,480 ( 0.00%) non_narrow_chars, 1,480 ( 0.00%) normalized_pos, . name_hash, . cnum, . } . }) 3,330 ( 0.00%) } . } . . impl fmt::Debug for SourceFile { . fn fmt(&self, fmt: &mut fmt::Formatter<'_>) -> fmt::Result { . write!(fmt, "SourceFile({:?})", self.name) . } . } . . impl SourceFile { 66 ( 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); 18 ( 0.00%) let normalized_pos = normalize_src(&mut src, start_pos); . . let name_hash = { . let mut hasher: StableHasher = StableHasher::new(); 12 ( 0.00%) name.hash(&mut hasher); . hasher.finish::() . }; 12 ( 0.00%) let end_pos = start_pos.to_usize() + src.len(); 18 ( 0.00%) assert!(end_pos <= u32::MAX as usize); . 72 ( 0.00%) let (lines, multibyte_chars, non_narrow_chars) = 12 ( 0.00%) analyze_source_file::analyze_source_file(&src, start_pos); . 102 ( 0.00%) SourceFile { . name, . src: Some(Lrc::new(src)), 66 ( 0.00%) src_hash, . external_src: Lock::new(ExternalSource::Unneeded), . start_pos, . end_pos: Pos::from_usize(end_pos), 24 ( 0.00%) lines, 24 ( 0.00%) multibyte_chars, 24 ( 0.00%) non_narrow_chars, 24 ( 0.00%) normalized_pos, . name_hash, . cnum: LOCAL_CRATE, . } 54 ( 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. 1,015 ( 0.00%) pub fn add_external_src(&self, get_src: F) -> bool . where . F: FnOnce() -> Option, . { 145 ( 0.00%) if matches!( 290 ( 0.00%) *self.external_src.borrow(), . ExternalSource::Foreign { kind: ExternalSourceKind::AbsentOk, .. } . ) { . 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 . if let ExternalSource::Foreign { . kind: src_kind @ ExternalSourceKind::AbsentOk, .. . } = &mut *external_src -- line 1582 ---------------------------------------- -- line 1592 ---------------------------------------- . *src_kind = ExternalSourceKind::AbsentErr; . } . . false . } else { . self.src.is_some() || external_src.get_source().is_some() . } . } else { 145 ( 0.00%) self.src.is_some() || self.external_src.borrow().get_source().is_some() . } 1,305 ( 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() 374 ( 0.00%) } . . pub fn is_imported(&self) -> bool { . self.src.is_none() 2,317 ( 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 { 584 ( 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 { 1,558 ( 0.00%) if self.is_empty() { . return self.start_pos..self.end_pos; . } . 1,075 ( 0.00%) assert!(line_index < self.lines.len()); 1,542 ( 0.00%) if line_index == (self.lines.len() - 1) { 20 ( 0.00%) self.lines[line_index]..self.end_pos . } else { 1,012 ( 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`. 2 ( 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; . 6 ( 0.00%) for mbc in self.multibyte_chars.iter() { . debug!("{}-byte char at {:?}", mbc.bytes, mbc.pos); . if mbc.pos < bpos { . // Every character is at least one byte, so we only . // count the actual extra bytes. . total_extra_bytes += mbc.bytes as u32 - 1; . // We should never see a byte position in the middle of a . // character. . assert!(bpos.to_u32() >= mbc.pos.to_u32() + mbc.bytes as u32); . } else { . break; . } . } . 12 ( 0.00%) assert!(self.start_pos.to_u32() + total_extra_bytes <= bpos.to_u32()); 10 ( 0.00%) CharPos(bpos.to_usize() - self.start_pos.to_usize() - total_extra_bytes as usize) 4 ( 0.00%) } . . /// Looks up the file's (1-based) line number and (0-based `CharPos`) column offset, for a . /// given `BytePos`. 7 ( 0.00%) pub fn lookup_file_pos(&self, pos: BytePos) -> (usize, CharPos) { 2 ( 0.00%) let chpos = self.bytepos_to_file_charpos(pos); . match self.lookup_line(pos) { . Some(a) => { . let line = a + 1; // Line numbers start at 1 1 ( 0.00%) let linebpos = self.lines[a]; 2 ( 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 ( 0.00%) assert!(chpos >= linechpos); . (line, col) . } . None => (0, chpos), . } 8 ( 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`. 8 ( 0.00%) pub fn lookup_file_pos_with_col_display(&self, pos: BytePos) -> (usize, CharPos, usize) { 3 ( 0.00%) let (line, col_or_chpos) = self.lookup_file_pos(pos); 2 ( 0.00%) if line > 0 { . let col = col_or_chpos; 1 ( 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); . 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(); 5 ( 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) . } 7 ( 0.00%) } . } . . /// Normalizes the source code and records the normalizations. 60 ( 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 54 ( 0.00%) } . . /// Removes UTF-8 BOM, if any. . fn remove_bom(src: &mut String, normalized_pos: &mut Vec) { 6 ( 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) { 6 ( 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])* 2,974 ( 0.00%) $vis struct $ident($inner_vis $inner_ty); . . impl Pos for $ident { . #[inline(always)] . fn from_usize(n: usize) -> $ident { 231 ( 0.00%) $ident(n as $inner_ty) . } . . #[inline(always)] . fn to_usize(&self) -> usize { 4,844 ( 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 { 1,230,811 ( 0.41%) $ident(self.0 + rhs.0) . } . } . . impl Sub for $ident { . type Output = $ident; . . #[inline(always)] . fn sub(self, rhs: $ident) -> $ident { 695,587 ( 0.23%) $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 { 130,090 ( 0.04%) BytePos(d.read_u32()) . } . } . . // _____________________________________________________________________________ . // Loc, SourceFileAndLine, SourceFileAndBytePos . // . . /// A source code location used for error reporting. -- line 1962 ---------------------------------------- -- 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. 46,179 ( 0.02%) 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; . 10,885 ( 0.00%) if !ctx.hash_spans() { . return; . } . 35,294 ( 0.01%) let span = self.data_untracked(); 6,927 ( 0.00%) span.ctxt.hash_stable(ctx, hasher); 19,791 ( 0.01%) span.parent.hash_stable(ctx, hasher); . 13,253 ( 0.00%) if span.is_dummy() { . Hash::hash(&TAG_INVALID_SPAN, hasher); . return; . } . 13,076 ( 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. 26,152 ( 0.01%) let (file, line_lo, col_lo, line_hi, col_hi) = match ctx.span_data_to_lines_and_cols(&span) . { 13,076 ( 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. . 6,538 ( 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; 6,538 ( 0.00%) let len = (span.hi - span.lo).0; . Hash::hash(&col_line, hasher); . Hash::hash(&len, hasher); 52,776 ( 0.02%) } . } 1,005,605 ( 0.33%) -------------------------------------------------------------------------------- -- Auto-annotated source: /usr/home/liquid/rust/worktree-benchmarking/compiler/rustc_span/src/symbol.rs -------------------------------------------------------------------------------- Ir -- line 15 ---------------------------------------- . use std::str; . . use crate::{with_session_globals, Edition, Span, DUMMY_SP}; . . #[cfg(test)] . mod tests; . . // The proc macro code for this is in `compiler/rustc_macros/src/symbols.rs`. 8 ( 0.00%) symbols! { . // After modifying this list adjust `is_special`, `is_used_keyword`/`is_unused_keyword`, . // this should be rarely necessary though if the keywords are kept in alphabetic order. . Keywords { . // Special reserved identifiers used internally for elided lifetimes, . // unnamed method parameters, crate root module, error recovery etc. . Empty: "", . PathRoot: "{{root}}", . DollarCrate: "$crate", -- line 31 ---------------------------------------- -- line 1498 ---------------------------------------- . write_str, . writeln_macro, . x87_reg, . xer, . xmm_reg, . ymm_reg, . zmm_reg, . } 10 ( 0.00%) } . 11,318 ( 0.00%) #[derive(Copy, Clone, Eq, HashStable_Generic, Encodable, Decodable)] . pub struct Ident { . pub name: Symbol, . pub span: Span, . } . . impl Ident { . #[inline] . /// Constructs a new identifier from a symbol and a span. . pub const fn new(name: Symbol, span: Span) -> Ident { . Ident { name, span } 28,277 ( 0.01%) } . . /// Constructs a new identifier with a dummy span. . #[inline] . pub const fn with_dummy_span(name: Symbol) -> Ident { . Ident::new(name, DUMMY_SP) . } . . #[inline] . pub fn empty() -> Ident { . Ident::with_dummy_span(kw::Empty) . } . . /// Maps a string to an identifier with a dummy span. 3 ( 0.00%) pub fn from_str(string: &str) -> Ident { 3 ( 0.00%) Ident::with_dummy_span(Symbol::intern(string)) 12 ( 0.00%) } . . /// Maps a string and a span to an identifier. . pub fn from_str_and_span(string: &str, span: Span) -> Ident { . Ident::new(Symbol::intern(string), span) . } . . /// Replaces `lo` and `hi` with those from `span`, but keep hygiene context. 40 ( 0.00%) pub fn with_span_pos(self, span: Span) -> Ident { . Ident::new(self.name, span.with_ctxt(self.span.ctxt())) 25 ( 0.00%) } . . pub fn without_first_quote(self) -> Ident { . Ident::new(Symbol::intern(self.as_str().trim_start_matches('\'')), self.span) . } . . /// "Normalize" ident for use in comparisons using "item hygiene". . /// Identifiers with same string value become same if they came from the same macro 2.0 macro . /// (e.g., `macro` item, but not `macro_rules` item) and stay different if they came from . /// different macro 2.0 macros. . /// Technically, this operation strips all non-opaque marks from ident's syntactic context. 18,072 ( 0.01%) pub fn normalize_to_macros_2_0(self) -> Ident { . Ident::new(self.name, self.span.normalize_to_macros_2_0()) 14,056 ( 0.00%) } . . /// "Normalize" ident for use in comparisons using "local variable hygiene". . /// Identifiers with same string value become same if they came from the same non-transparent . /// macro (e.g., `macro` or `macro_rules!` items) and stay different if they came from different . /// non-transparent macros. . /// Technically, this operation strips all transparent marks from ident's syntactic context. 1,422 ( 0.00%) pub fn normalize_to_macro_rules(self) -> Ident { . Ident::new(self.name, self.span.normalize_to_macro_rules()) 1,106 ( 0.00%) } . . /// Access the underlying string. This is a slowish operation because it . /// requires locking the symbol interner. . /// . /// Note that the lifetime of the return value is a lie. See . /// `Symbol::as_str()` for details. . pub fn as_str(&self) -> &str { 9 ( 0.00%) self.name.as_str() . } . } . . impl PartialEq for Ident { 4,557 ( 0.00%) fn eq(&self, rhs: &Self) -> bool { 11,630 ( 0.00%) self.name == rhs.name && self.span.ctxt() == rhs.span.ctxt() 6,076 ( 0.00%) } . } . . impl Hash for Ident { . fn hash(&self, state: &mut H) { 3 ( 0.00%) self.name.hash(state); 2,585 ( 0.00%) self.span.ctxt().hash(state); . } . } . . impl fmt::Debug for Ident { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . fmt::Display::fmt(self, f)?; . fmt::Debug::fmt(&self.span.ctxt(), f) . } . } . . /// This implementation is supposed to be used in error messages, so it's expected to be identical . /// to printing the original identifier token written in source code (`token_to_string`), . /// except that AST identifiers don't keep the rawness flag, so we have to guess it. . impl fmt::Display for Ident { 564 ( 0.00%) fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { 707 ( 0.00%) fmt::Display::fmt(&IdentPrinter::new(self.name, self.is_raw_guess(), None), f) 564 ( 0.00%) } . } . . /// This is the most general way to print identifiers. . /// AST pretty-printer is used as a fallback for turning AST structures into token streams for . /// proc macros. Additionally, proc macros may stringify their input and expect it survive the . /// stringification (especially true for proc macro derives written between Rust 1.15 and 1.30). . /// So we need to somehow pretty-print `$crate` in a way preserving at least some of its . /// hygiene data, most importantly name of the crate it refers to. -- line 1613 ---------------------------------------- -- line 1622 ---------------------------------------- . is_raw: bool, . /// Span used for retrieving the crate name to which `$crate` refers to, . /// if this field is `None` then the `$crate` conversion doesn't happen. . convert_dollar_crate: Option, . } . . impl IdentPrinter { . /// The most general `IdentPrinter` constructor. Do not use this. 21 ( 0.00%) pub fn new(symbol: Symbol, is_raw: bool, convert_dollar_crate: Option) -> IdentPrinter { 881 ( 0.00%) IdentPrinter { symbol, is_raw, convert_dollar_crate } 21 ( 0.00%) } . . /// This implementation is supposed to be used when printing identifiers . /// as a part of pretty-printing for larger AST pieces. . /// Do not use this either. 40 ( 0.00%) pub fn for_ast_ident(ident: Ident, is_raw: bool) -> IdentPrinter { 40 ( 0.00%) IdentPrinter::new(ident.name, is_raw, Some(ident.span)) 20 ( 0.00%) } . } . . impl fmt::Display for IdentPrinter { 920 ( 0.00%) fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { 368 ( 0.00%) if self.is_raw { . f.write_str("r#")?; 184 ( 0.00%) } else if self.symbol == kw::DollarCrate { . if let Some(span) = self.convert_dollar_crate { . let converted = span.ctxt().dollar_crate_name(); . if !converted.is_path_segment_keyword() { . f.write_str("::")?; . } . return fmt::Display::fmt(&converted, f); . } . } -- line 1654 ---------------------------------------- -- line 1656 ---------------------------------------- . } . } . . /// An newtype around `Ident` that calls [Ident::normalize_to_macro_rules] on . /// construction. . // FIXME(matthewj, petrochenkov) Use this more often, add a similar . // `ModernIdent` struct and use that as well. . #[derive(Copy, Clone, Eq, PartialEq, Hash)] 694 ( 0.00%) pub struct MacroRulesNormalizedIdent(Ident); . . impl MacroRulesNormalizedIdent { . pub fn new(ident: Ident) -> Self { 149 ( 0.00%) Self(ident.normalize_to_macro_rules()) . } . } . . impl fmt::Debug for MacroRulesNormalizedIdent { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . fmt::Debug::fmt(&self.0, f) . } . } -- line 1676 ---------------------------------------- -- line 1686 ---------------------------------------- . /// Internally, a `Symbol` is implemented as an index, and all operations . /// (including hashing, equality, and ordering) operate on that index. The use . /// of `rustc_index::newtype_index!` means that `Option` only takes up 4 bytes, . /// because `rustc_index::newtype_index!` reserves the last 256 values for tagging purposes. . /// . /// Note that `Symbol` cannot directly be a `rustc_index::newtype_index!` because it . /// implements `fmt::Debug`, `Encodable`, and `Decodable` in special ways. . #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)] 2,211 ( 0.00%) pub struct Symbol(SymbolIndex); . . rustc_index::newtype_index! { . struct SymbolIndex { .. } . } . . impl Symbol { . const fn new(n: u32) -> Self { . Symbol(SymbolIndex::from_u32(n)) 52 ( 0.00%) } . . /// Maps a string to its interned representation. 139,923 ( 0.05%) pub fn intern(string: &str) -> Self { . with_session_globals(|session_globals| session_globals.symbol_interner.intern(string)) 139,923 ( 0.05%) } . . /// Access the underlying string. This is a slowish operation because it . /// requires locking the symbol interner. . /// . /// Note that the lifetime of the return value is a lie. It's not the same . /// as `&self`, but actually tied to the lifetime of the underlying . /// interner. Interners are long-lived, and there are very few of them, and . /// this function is typically used for short-lived things, so in practice . /// it works out ok. 12,342 ( 0.00%) pub fn as_str(&self) -> &str { 4,114 ( 0.00%) with_session_globals(|session_globals| unsafe { . std::mem::transmute::<&str, &str>(session_globals.symbol_interner.get(*self)) . }) 16,456 ( 0.01%) } . . pub fn as_u32(self) -> u32 { . self.0.as_u32() . } . . pub fn is_empty(self) -> bool { . self == kw::Empty . } . . /// This method is supposed to be used in error messages, so it's expected to be . /// identical to printing the original identifier token written in source code . /// (`token_to_string`, `Ident::to_string`), except that symbols don't keep the rawness flag . /// or edition, so we have to guess the rawness using the global edition. 12 ( 0.00%) pub fn to_ident_string(self) -> String { . Ident::with_dummy_span(self).to_string() 12 ( 0.00%) } . } . . impl fmt::Debug for Symbol { . fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { . fmt::Debug::fmt(self.as_str(), f) . } . } . . impl fmt::Display for Symbol { 332 ( 0.00%) fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { 2,652 ( 0.00%) fmt::Display::fmt(self.as_str(), f) . } . } . . impl Encodable for Symbol { . fn encode(&self, s: &mut S) -> Result<(), S::Error> { 4,002 ( 0.00%) s.emit_str(self.as_str()) . } . } . . impl Decodable for Symbol { . #[inline] 17,194 ( 0.01%) fn decode(d: &mut D) -> Symbol { 32,999 ( 0.01%) Symbol::intern(&d.read_str()) . } . } . . impl HashStable for Symbol { . #[inline] 18 ( 0.00%) fn hash_stable(&self, hcx: &mut CTX, hasher: &mut StableHasher) { 3,317 ( 0.00%) self.as_str().hash_stable(hcx, hasher); 12 ( 0.00%) } . } . . impl ToStableHashKey for Symbol { . type KeyType = String; . #[inline] . fn to_stable_hash_key(&self, _: &CTX) -> String { . self.as_str().to_string() . } -- line 1778 ---------------------------------------- -- line 1785 ---------------------------------------- . // . // The `FxHashMap`+`Vec` pair could be replaced by `FxIndexSet`, but #75278 . // found that to regress performance up to 2% in some cases. This might be . // revisited after further improvements to `indexmap`. . // . // This type is private to prevent accidentally constructing more than one . // `Interner` on the same thread, which makes it easy to mixup `Symbol`s . // between `Interner`s. 2 ( 0.00%) #[derive(Default)] . struct InternerInner { . arena: DroplessArena, . names: FxHashMap<&'static str, Symbol>, . strings: Vec<&'static str>, . } . . impl Interner { . fn prefill(init: &[&'static str]) -> Self { 30 ( 0.00%) Interner(Lock::new(InternerInner { . strings: init.into(), . names: init.iter().copied().zip((0..).map(Symbol::new)).collect(), . ..Default::default() . })) . } . . #[inline] . fn intern(&self, string: &str) -> Symbol { . let mut inner = self.0.lock(); 15,976 ( 0.01%) if let Some(&name) = inner.names.get(string) { . return name; . } . 7,559 ( 0.00%) let name = Symbol::new(inner.strings.len() as u32); . . // SAFETY: we convert from `&str` to `&[u8]`, clone it into the arena, . // and immediately convert the clone back to `&[u8], all because there . // is no `inner.arena.alloc_str()` method. This is clearly safe. . let string: &str = . unsafe { str::from_utf8_unchecked(inner.arena.alloc_slice(string.as_bytes())) }; . . // SAFETY: we can extend the arena allocation to `'static` because we -- line 1824 ---------------------------------------- -- line 1831 ---------------------------------------- . // #91445 for details. . inner.names.insert(string, name); . name . } . . // Get the symbol as a string. `Symbol::as_str()` should be used in . // preference to this function. . fn get(&self, symbol: Symbol) -> &str { 12,342 ( 0.00%) self.0.lock().strings[symbol.0.as_usize()] . } . } . . // This module has a very short name because it's used a lot. . /// This module contains all the defined keyword `Symbol`s. . /// . /// Given that `kw` is imported, use them like `kw::keyword_name`. . /// For example `kw::Loop` or `kw::Break`. -- line 1847 ---------------------------------------- -- line 1863 ---------------------------------------- . . // Used from a macro in `librustc_feature/accepted.rs` . pub use super::kw::MacroRules as macro_rules; . . /// Get the symbol for an integer. . /// . /// The first few non-negative integers each have a static symbol and therefore . /// are fast. 536 ( 0.00%) pub fn integer + Copy + ToString>(n: N) -> Symbol { 536 ( 0.00%) if let Result::Ok(idx) = n.try_into() { . if idx < 10 { 104 ( 0.00%) return Symbol::new(super::SYMBOL_DIGITS_BASE + idx as u32); . } . } 110 ( 0.00%) Symbol::intern(&n.to_string()) 440 ( 0.00%) } . } . . impl Symbol { . fn is_special(self) -> bool { . self <= kw::Underscore . } . . fn is_used_keyword_always(self) -> bool { 63 ( 0.00%) self >= kw::As && self <= kw::While . } . . fn is_used_keyword_conditional(self, edition: impl FnOnce() -> Edition) -> bool { 5,058 ( 0.00%) (self >= kw::Async && self <= kw::Dyn) && edition() >= Edition::Edition2018 . } . . fn is_unused_keyword_always(self) -> bool { 63 ( 0.00%) self >= kw::Abstract && self <= kw::Yield . } . . fn is_unused_keyword_conditional(self, edition: impl FnOnce() -> Edition) -> bool { 21 ( 0.00%) self == kw::Try && edition() >= Edition::Edition2018 . } . . pub fn is_reserved(self, edition: impl Copy + FnOnce() -> Edition) -> bool { 8,350 ( 0.00%) self.is_special() . || self.is_used_keyword_always() . || self.is_unused_keyword_always() . || self.is_used_keyword_conditional(edition) . || self.is_unused_keyword_conditional(edition) . } . . /// A keyword or reserved identifier that can be used as a path segment. . pub fn is_path_segment_keyword(self) -> bool { 19,859 ( 0.01%) self == kw::Super . || self == kw::SelfLower . || self == kw::SelfUpper . || self == kw::Crate . || self == kw::PathRoot . || self == kw::DollarCrate . } . . /// Returns `true` if the symbol is `true` or `false`. . pub fn is_bool_lit(self) -> bool { 167 ( 0.00%) self == kw::True || self == kw::False 167 ( 0.00%) } . . /// Returns `true` if this symbol can be a raw identifier. . pub fn can_be_raw(self) -> bool { 336 ( 0.00%) self != kw::Empty && self != kw::Underscore && !self.is_path_segment_keyword() . } . } . . impl Ident { . // Returns `true` for reserved identifiers used internally for elided lifetimes, . // unnamed method parameters, crate root module, error recovery etc. . pub fn is_special(self) -> bool { . self.name.is_special() 21 ( 0.00%) } . . /// Returns `true` if the token is a keyword used in the language. 21 ( 0.00%) pub fn is_used_keyword(self) -> bool { . // Note: `span.edition()` is relatively expensive, don't call it unless necessary. 21 ( 0.00%) self.name.is_used_keyword_always() . || self.name.is_used_keyword_conditional(|| self.span.edition()) 42 ( 0.00%) } . . /// Returns `true` if the token is a keyword reserved for possible future use. 21 ( 0.00%) pub fn is_unused_keyword(self) -> bool { . // Note: `span.edition()` is relatively expensive, don't call it unless necessary. 21 ( 0.00%) self.name.is_unused_keyword_always() . || self.name.is_unused_keyword_conditional(|| self.span.edition()) 42 ( 0.00%) } . . /// Returns `true` if the token is either a special identifier or a keyword. 1,502 ( 0.00%) pub fn is_reserved(self) -> bool { . // Note: `span.edition()` is relatively expensive, don't call it unless necessary. . self.name.is_reserved(|| self.span.edition()) 3,004 ( 0.00%) } . . /// A keyword or reserved identifier that can be used as a path segment. . pub fn is_path_segment_keyword(self) -> bool { . self.name.is_path_segment_keyword() 2,837 ( 0.00%) } . . /// We see this identifier in a normal identifier position, like variable name or a type. . /// How was it written originally? Did it use the raw form? Let's try to guess. 25 ( 0.00%) pub fn is_raw_guess(self) -> bool { . self.name.can_be_raw() && self.is_reserved() 50 ( 0.00%) } . } 24,656 ( 0.01%) -------------------------------------------------------------------------------- -- 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 { 4,802 ( 0.00%) 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 { 3,636 ( 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) { 602 ( 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::() . ); 27,970 ( 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 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(), 98 ( 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 { 12 ( 0.00%) assert!(len <= A::size()); 36 ( 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 { 6 ( 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(); 1,664 ( 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 { . A::size() . } else { -- line 703 ---------------------------------------- -- 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 { 2,330 ( 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 { 159,166 ( 0.05%) 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 { 216,681 ( 0.07%) if self.spilled() { 14,516 ( 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 { 224,993 ( 0.07%) 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] 3,265 ( 0.00%) pub fn push(&mut self, value: A::Item) { . unsafe { . let (mut ptr, mut len, cap) = self.triple_mut(); 83,986 ( 0.03%) if *len == cap { 21 ( 0.00%) self.reserve(1); 525 ( 0.00%) let &mut (heap_ptr, ref mut heap_len) = self.data.heap_mut(); . ptr = heap_ptr; . len = heap_len; . } 608 ( 0.00%) ptr::write(ptr.add(*len), value); 129,557 ( 0.04%) *len += 1; . } 2,612 ( 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(); 8,980 ( 0.00%) if *len_ptr == 0 { . return None; . } 2,806 ( 0.00%) let last_index = *len_ptr - 1; 2,940 ( 0.00%) *len_ptr = last_index; 1,983 ( 0.00%) Some(ptr::read(ptr.add(last_index))) . } . } . . /// Moves all the elements of `other` into `self`, leaving `other` empty. . /// . /// # Example . /// . /// ``` -- line 861 ---------------------------------------- -- 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 268 ( 0.00%) pub fn try_grow(&mut self, new_cap: usize) -> Result<(), CollectionAllocErr> { . unsafe { 4 ( 0.00%) let (ptr, &mut len, cap) = self.triple_mut(); . let unspilled = !self.spilled(); 706 ( 0.00%) assert!(new_cap >= len); 706 ( 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); 706 ( 0.00%) } else if new_cap != cap { 666 ( 0.00%) let layout = layout_array::(new_cap)?; . debug_assert!(layout.size() > 0); . let new_alloc; 353 ( 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`. 292 ( 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(); . } 706 ( 0.00%) self.data = SmallVecData::from_heap(new_alloc, len); 1,009 ( 0.00%) self.capacity = new_cap; . } . Ok(()) . } 272 ( 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] 8,376 ( 0.00%) pub fn reserve(&mut self, additional: usize) { 5,255 ( 0.00%) infallible(self.try_reserve(additional)) 9,568 ( 0.00%) } . . /// Reserve capacity for `additional` more elements to be inserted. . /// . /// May reserve more space to avoid frequent reallocations. 19,457 ( 0.01%) 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() 45 ( 0.00%) let (_, &mut len, cap) = self.triple_mut(); 90,728 ( 0.03%) 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)?; 68 ( 0.00%) self.try_grow(new_cap) 21,490 ( 0.01%) } . . /// 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(); 36,781 ( 0.01%) if cap - len >= additional { . return Ok(()); . } . let new_cap = len . .checked_add(additional) . .ok_or(CollectionAllocErr::CapacityOverflow)?; . self.try_grow(new_cap) . } . -- line 974 ---------------------------------------- -- 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(); 1,310 ( 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 1047 ---------------------------------------- . . /// Remove and return the element at position `index`, shifting all elements after it to the . /// left. . /// . /// Panics if `index` is out of bounds. . pub fn remove(&mut self, index: usize) -> A::Item { . unsafe { . let (mut ptr, len_ptr, _) = self.triple_mut(); 5 ( 0.00%) let len = *len_ptr; 39 ( 0.00%) assert!(index < len); 368 ( 0.00%) *len_ptr = len - 1; . ptr = ptr.add(index); . let item = ptr::read(ptr); 26 ( 0.00%) ptr::copy(ptr.add(1), ptr, len - index - 1); . item . } . } . . /// Insert an element at position `index`, shifting all elements after it to the right. . /// . /// Panics if `index` is out of bounds. 174 ( 0.00%) pub fn insert(&mut self, index: usize, element: A::Item) { . self.reserve(1); . . unsafe { . let (mut ptr, len_ptr, _) = self.triple_mut(); 16 ( 0.00%) let len = *len_ptr; 32 ( 0.00%) assert!(index <= len); 64 ( 0.00%) *len_ptr = len + 1; . ptr = ptr.add(index); 32 ( 0.00%) ptr::copy(ptr, ptr.add(1), len - index); . ptr::write(ptr, element); . } 113 ( 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. 468 ( 0.00%) pub fn retain bool>(&mut self, mut f: F) { . let mut del = 0; . let len = self.len(); . for i in 0..len { 240 ( 0.00%) if !f(&mut self[i]) { . del += 1; 60 ( 0.00%) } else if del > 0 { . self.swap(i - del, i); . } . } 104 ( 0.00%) self.truncate(len - del); 416 ( 0.00%) } . . /// Removes consecutive duplicate elements. . pub fn dedup(&mut self) . where . A::Item: PartialEq, . { . self.dedup_by(|a, b| a == b); . } -- line 1228 ---------------------------------------- -- 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, . ); 37 ( 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`. 2,284 ( 0.00%) pub fn insert_from_slice(&mut self, index: usize, slice: &[A::Item]) { . self.reserve(slice.len()); . . let len = self.len(); 687 ( 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()); 458 ( 0.00%) self.set_len(len + slice.len()); . } 1,832 ( 0.00%) } . . /// 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(); 564 ( 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 1522 ---------------------------------------- . } . } . } . . impl ops::DerefMut for SmallVec { . #[inline] . fn deref_mut(&mut self) -> &mut [A::Item] { . unsafe { 1,428 ( 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(); 10,243 ( 0.00%) v.extend(iterable); . v . } . } . . impl Extend for SmallVec { 33,843 ( 0.01%) fn extend>(&mut self, iterable: I) { 6,582 ( 0.00%) let mut iter = iterable.into_iter(); . let (lower_size_bound, _) = iter.size_hint(); 2,191 ( 0.00%) self.reserve(lower_size_bound); . . unsafe { . let (ptr, len_ptr, cap) = self.triple_mut(); . let mut len = SetLenOnDrop::new(len_ptr); 17,277 ( 0.01%) while len.get() < cap { 7,650 ( 0.00%) if let Some(out) = iter.next() { . ptr::write(ptr.add(len.get()), out); . len.increment_len(1); . } else { . return; . } . } . } . 2,553 ( 0.00%) for elem in iter { 96 ( 0.00%) self.push(elem); . } 29,112 ( 0.01%) } . } . . 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 { 12,369 ( 0.00%) fn drop(&mut self) { . unsafe { 67,571 ( 0.02%) if self.spilled() { . let (ptr, len) = self.data.heap(); . Vec::from_raw_parts(ptr, len, self.capacity); . } else { . ptr::drop_in_place(&mut self[..]); . } . } 13,363 ( 0.00%) } . } . . #[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 { 90 ( 0.00%) fn drop(&mut self) { 1,188 ( 0.00%) for _ in self {} 80 ( 0.00%) } . } . . impl Iterator for IntoIter { . type Item = A::Item; . . #[inline] . fn next(&mut self) -> Option { 12,396 ( 0.00%) if self.current == self.end { . None . } else { . unsafe { . let current = self.current; 6,053 ( 0.00%) self.current += 1; 218 ( 0.00%) Some(ptr::read(self.data.as_ptr().add(current))) . } . } . } . . #[inline] . fn size_hint(&self) -> (usize, Option) { 93 ( 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); 476 ( 0.00%) IntoIter { 8,546 ( 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 { 4,319 ( 0.00%) local_len: *len, . len, . } . } . . #[inline] . fn get(&self) -> usize { . self.local_len . } . . #[inline] . fn increment_len(&mut self, increment: usize) { 3,353 ( 0.00%) self.local_len += increment; . } . } . . impl<'a> Drop for SetLenOnDrop<'a> { . #[inline] . fn drop(&mut self) { 3,994 ( 0.00%) *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 ---------------------------------------- 211,621 ( 0.07%) -------------------------------------------------------------------------------- The following files chosen for auto-annotation could not be found: -------------------------------------------------------------------------------- ./elf/../sysdeps/x86_64/dl-machine.h ./elf/dl-lookup.c ./elf/do-rel.h ./malloc/malloc.c ./string/../sysdeps/x86_64/multiarch/memmove-vec-unaligned-erms.S ./string/../sysdeps/x86_64/strcmp.S -------------------------------------------------------------------------------- Ir -------------------------------------------------------------------------------- 148,630,549 (49.39%) events annotated