diff options
Diffstat (limited to 'compiler/rustc_hir_analysis/src/check/intrinsic.rs')
| -rw-r--r-- | compiler/rustc_hir_analysis/src/check/intrinsic.rs | 549 |
1 files changed, 549 insertions, 0 deletions
diff --git a/compiler/rustc_hir_analysis/src/check/intrinsic.rs b/compiler/rustc_hir_analysis/src/check/intrinsic.rs new file mode 100644 index 000000000..609095c9c --- /dev/null +++ b/compiler/rustc_hir_analysis/src/check/intrinsic.rs @@ -0,0 +1,549 @@ +//! Type-checking for the rust-intrinsic and platform-intrinsic +//! intrinsics that the compiler exposes. + +use crate::errors::{ + UnrecognizedAtomicOperation, UnrecognizedIntrinsicFunction, + WrongNumberOfGenericArgumentsToIntrinsic, +}; +use crate::require_same_types; + +use hir::def_id::DefId; +use rustc_errors::{struct_span_err, DiagnosticMessage}; +use rustc_hir as hir; +use rustc_middle::traits::{ObligationCause, ObligationCauseCode}; +use rustc_middle::ty::{self, TyCtxt}; +use rustc_span::symbol::{kw, sym, Symbol}; +use rustc_target::spec::abi::Abi; + +use std::iter; + +fn equate_intrinsic_type<'tcx>( + tcx: TyCtxt<'tcx>, + it: &hir::ForeignItem<'_>, + n_tps: usize, + n_lts: usize, + sig: ty::PolyFnSig<'tcx>, +) { + let (own_counts, span) = match &it.kind { + hir::ForeignItemKind::Fn(.., generics) => { + let own_counts = tcx.generics_of(it.owner_id.to_def_id()).own_counts(); + (own_counts, generics.span) + } + _ => { + struct_span_err!(tcx.sess, it.span, E0622, "intrinsic must be a function") + .span_label(it.span, "expected a function") + .emit(); + return; + } + }; + + let gen_count_ok = |found: usize, expected: usize, descr: &str| -> bool { + if found != expected { + tcx.sess.emit_err(WrongNumberOfGenericArgumentsToIntrinsic { + span, + found, + expected, + descr, + }); + false + } else { + true + } + }; + + if gen_count_ok(own_counts.lifetimes, n_lts, "lifetime") + && gen_count_ok(own_counts.types, n_tps, "type") + && gen_count_ok(own_counts.consts, 0, "const") + { + let fty = tcx.mk_fn_ptr(sig); + let cause = ObligationCause::new(it.span, it.hir_id(), ObligationCauseCode::IntrinsicType); + require_same_types(tcx, &cause, tcx.mk_fn_ptr(tcx.fn_sig(it.owner_id)), fty); + } +} + +/// Returns the unsafety of the given intrinsic. +pub fn intrinsic_operation_unsafety(tcx: TyCtxt<'_>, intrinsic_id: DefId) -> hir::Unsafety { + let has_safe_attr = match tcx.has_attr(intrinsic_id, sym::rustc_safe_intrinsic) { + true => hir::Unsafety::Normal, + false => hir::Unsafety::Unsafe, + }; + let is_in_list = match tcx.item_name(intrinsic_id) { + // When adding a new intrinsic to this list, + // it's usually worth updating that intrinsic's documentation + // to note that it's safe to call, since + // safe extern fns are otherwise unprecedented. + sym::abort + | sym::assert_inhabited + | sym::assert_zero_valid + | sym::assert_uninit_valid + | sym::size_of + | sym::min_align_of + | sym::needs_drop + | sym::caller_location + | sym::add_with_overflow + | sym::sub_with_overflow + | sym::mul_with_overflow + | sym::wrapping_add + | sym::wrapping_sub + | sym::wrapping_mul + | sym::saturating_add + | sym::saturating_sub + | sym::rotate_left + | sym::rotate_right + | sym::ctpop + | sym::ctlz + | sym::cttz + | sym::bswap + | sym::bitreverse + | sym::discriminant_value + | sym::type_id + | sym::likely + | sym::unlikely + | sym::ptr_guaranteed_cmp + | sym::minnumf32 + | sym::minnumf64 + | sym::maxnumf32 + | sym::rustc_peek + | sym::maxnumf64 + | sym::type_name + | sym::forget + | sym::black_box + | sym::variant_count + | sym::ptr_mask => hir::Unsafety::Normal, + _ => hir::Unsafety::Unsafe, + }; + + if has_safe_attr != is_in_list { + tcx.sess.struct_span_err( + tcx.def_span(intrinsic_id), + DiagnosticMessage::Str(format!( + "intrinsic safety mismatch between list of intrinsics within the compiler and core library intrinsics for intrinsic `{}`", + tcx.item_name(intrinsic_id) + ))).emit(); + } + + is_in_list +} + +/// Remember to add all intrinsics here, in `compiler/rustc_codegen_llvm/src/intrinsic.rs`, +/// and in `library/core/src/intrinsics.rs`. +pub fn check_intrinsic_type(tcx: TyCtxt<'_>, it: &hir::ForeignItem<'_>) { + let param = |n| tcx.mk_ty_param(n, Symbol::intern(&format!("P{}", n))); + let intrinsic_id = it.owner_id.to_def_id(); + let intrinsic_name = tcx.item_name(intrinsic_id); + let name_str = intrinsic_name.as_str(); + + let bound_vars = tcx.mk_bound_variable_kinds( + [ty::BoundVariableKind::Region(ty::BrAnon(0)), ty::BoundVariableKind::Region(ty::BrEnv)] + .iter() + .copied(), + ); + let mk_va_list_ty = |mutbl| { + tcx.lang_items().va_list().map(|did| { + let region = tcx.mk_region(ty::ReLateBound( + ty::INNERMOST, + ty::BoundRegion { var: ty::BoundVar::from_u32(0), kind: ty::BrAnon(0) }, + )); + let env_region = tcx.mk_region(ty::ReLateBound( + ty::INNERMOST, + ty::BoundRegion { var: ty::BoundVar::from_u32(1), kind: ty::BrEnv }, + )); + let va_list_ty = tcx.bound_type_of(did).subst(tcx, &[region.into()]); + (tcx.mk_ref(env_region, ty::TypeAndMut { ty: va_list_ty, mutbl }), va_list_ty) + }) + }; + + let (n_tps, n_lts, inputs, output, unsafety) = if name_str.starts_with("atomic_") { + let split: Vec<&str> = name_str.split('_').collect(); + assert!(split.len() >= 2, "Atomic intrinsic in an incorrect format"); + + //We only care about the operation here + let (n_tps, inputs, output) = match split[1] { + "cxchg" | "cxchgweak" => ( + 1, + vec![tcx.mk_mut_ptr(param(0)), param(0), param(0)], + tcx.intern_tup(&[param(0), tcx.types.bool]), + ), + "load" => (1, vec![tcx.mk_imm_ptr(param(0))], param(0)), + "store" => (1, vec![tcx.mk_mut_ptr(param(0)), param(0)], tcx.mk_unit()), + + "xchg" | "xadd" | "xsub" | "and" | "nand" | "or" | "xor" | "max" | "min" | "umax" + | "umin" => (1, vec![tcx.mk_mut_ptr(param(0)), param(0)], param(0)), + "fence" | "singlethreadfence" => (0, Vec::new(), tcx.mk_unit()), + op => { + tcx.sess.emit_err(UnrecognizedAtomicOperation { span: it.span, op }); + return; + } + }; + (n_tps, 0, inputs, output, hir::Unsafety::Unsafe) + } else { + let unsafety = intrinsic_operation_unsafety(tcx, intrinsic_id); + let (n_tps, inputs, output) = match intrinsic_name { + sym::abort => (0, Vec::new(), tcx.types.never), + sym::unreachable => (0, Vec::new(), tcx.types.never), + sym::breakpoint => (0, Vec::new(), tcx.mk_unit()), + sym::size_of | sym::pref_align_of | sym::min_align_of | sym::variant_count => { + (1, Vec::new(), tcx.types.usize) + } + sym::size_of_val | sym::min_align_of_val => { + (1, vec![tcx.mk_imm_ptr(param(0))], tcx.types.usize) + } + sym::rustc_peek => (1, vec![param(0)], param(0)), + sym::caller_location => (0, vec![], tcx.caller_location_ty()), + sym::assert_inhabited | sym::assert_zero_valid | sym::assert_uninit_valid => { + (1, Vec::new(), tcx.mk_unit()) + } + sym::forget => (1, vec![param(0)], tcx.mk_unit()), + sym::transmute => (2, vec![param(0)], param(1)), + sym::prefetch_read_data + | sym::prefetch_write_data + | sym::prefetch_read_instruction + | sym::prefetch_write_instruction => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + tcx.types.i32, + ], + tcx.mk_unit(), + ), + sym::drop_in_place => (1, vec![tcx.mk_mut_ptr(param(0))], tcx.mk_unit()), + sym::needs_drop => (1, Vec::new(), tcx.types.bool), + + sym::type_name => (1, Vec::new(), tcx.mk_static_str()), + sym::type_id => (1, Vec::new(), tcx.types.u64), + sym::offset | sym::arith_offset => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + tcx.types.isize, + ], + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + ), + sym::ptr_mask => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + tcx.types.usize, + ], + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + ), + + sym::copy | sym::copy_nonoverlapping => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Mut }), + tcx.types.usize, + ], + tcx.mk_unit(), + ), + sym::volatile_copy_memory | sym::volatile_copy_nonoverlapping_memory => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Mut }), + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Not }), + tcx.types.usize, + ], + tcx.mk_unit(), + ), + sym::write_bytes | sym::volatile_set_memory => ( + 1, + vec![ + tcx.mk_ptr(ty::TypeAndMut { ty: param(0), mutbl: hir::Mutability::Mut }), + tcx.types.u8, + tcx.types.usize, + ], + tcx.mk_unit(), + ), + sym::sqrtf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::sqrtf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::powif32 => (0, vec![tcx.types.f32, tcx.types.i32], tcx.types.f32), + sym::powif64 => (0, vec![tcx.types.f64, tcx.types.i32], tcx.types.f64), + sym::sinf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::sinf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::cosf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::cosf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::powf32 => (0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32), + sym::powf64 => (0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64), + sym::expf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::expf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::exp2f32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::exp2f64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::logf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::logf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::log10f32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::log10f64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::log2f32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::log2f64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::fmaf32 => (0, vec![tcx.types.f32, tcx.types.f32, tcx.types.f32], tcx.types.f32), + sym::fmaf64 => (0, vec![tcx.types.f64, tcx.types.f64, tcx.types.f64], tcx.types.f64), + sym::fabsf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::fabsf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::minnumf32 => (0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32), + sym::minnumf64 => (0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64), + sym::maxnumf32 => (0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32), + sym::maxnumf64 => (0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64), + sym::copysignf32 => (0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32), + sym::copysignf64 => (0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64), + sym::floorf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::floorf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::ceilf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::ceilf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::truncf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::truncf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::rintf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::rintf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::nearbyintf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::nearbyintf64 => (0, vec![tcx.types.f64], tcx.types.f64), + sym::roundf32 => (0, vec![tcx.types.f32], tcx.types.f32), + sym::roundf64 => (0, vec![tcx.types.f64], tcx.types.f64), + + sym::volatile_load | sym::unaligned_volatile_load => { + (1, vec![tcx.mk_imm_ptr(param(0))], param(0)) + } + sym::volatile_store | sym::unaligned_volatile_store => { + (1, vec![tcx.mk_mut_ptr(param(0)), param(0)], tcx.mk_unit()) + } + + sym::ctpop + | sym::ctlz + | sym::ctlz_nonzero + | sym::cttz + | sym::cttz_nonzero + | sym::bswap + | sym::bitreverse => (1, vec![param(0)], param(0)), + + sym::add_with_overflow | sym::sub_with_overflow | sym::mul_with_overflow => { + (1, vec![param(0), param(0)], tcx.intern_tup(&[param(0), tcx.types.bool])) + } + + sym::ptr_guaranteed_cmp => { + (1, vec![tcx.mk_imm_ptr(param(0)), tcx.mk_imm_ptr(param(0))], tcx.types.u8) + } + + sym::const_allocate => { + (0, vec![tcx.types.usize, tcx.types.usize], tcx.mk_mut_ptr(tcx.types.u8)) + } + sym::const_deallocate => ( + 0, + vec![tcx.mk_mut_ptr(tcx.types.u8), tcx.types.usize, tcx.types.usize], + tcx.mk_unit(), + ), + + sym::ptr_offset_from => { + (1, vec![tcx.mk_imm_ptr(param(0)), tcx.mk_imm_ptr(param(0))], tcx.types.isize) + } + sym::ptr_offset_from_unsigned => { + (1, vec![tcx.mk_imm_ptr(param(0)), tcx.mk_imm_ptr(param(0))], tcx.types.usize) + } + sym::unchecked_div | sym::unchecked_rem | sym::exact_div => { + (1, vec![param(0), param(0)], param(0)) + } + sym::unchecked_shl | sym::unchecked_shr | sym::rotate_left | sym::rotate_right => { + (1, vec![param(0), param(0)], param(0)) + } + sym::unchecked_add | sym::unchecked_sub | sym::unchecked_mul => { + (1, vec![param(0), param(0)], param(0)) + } + sym::wrapping_add | sym::wrapping_sub | sym::wrapping_mul => { + (1, vec![param(0), param(0)], param(0)) + } + sym::saturating_add | sym::saturating_sub => (1, vec![param(0), param(0)], param(0)), + sym::fadd_fast | sym::fsub_fast | sym::fmul_fast | sym::fdiv_fast | sym::frem_fast => { + (1, vec![param(0), param(0)], param(0)) + } + sym::float_to_int_unchecked => (2, vec![param(0)], param(1)), + + sym::assume => (0, vec![tcx.types.bool], tcx.mk_unit()), + sym::likely => (0, vec![tcx.types.bool], tcx.types.bool), + sym::unlikely => (0, vec![tcx.types.bool], tcx.types.bool), + + sym::discriminant_value => { + let assoc_items = tcx.associated_item_def_ids( + tcx.require_lang_item(hir::LangItem::DiscriminantKind, None), + ); + let discriminant_def_id = assoc_items[0]; + + let br = ty::BoundRegion { var: ty::BoundVar::from_u32(0), kind: ty::BrAnon(0) }; + ( + 1, + vec![ + tcx.mk_imm_ref(tcx.mk_region(ty::ReLateBound(ty::INNERMOST, br)), param(0)), + ], + tcx.mk_projection(discriminant_def_id, tcx.mk_substs([param(0).into()].iter())), + ) + } + + kw::Try => { + let mut_u8 = tcx.mk_mut_ptr(tcx.types.u8); + let try_fn_ty = ty::Binder::dummy(tcx.mk_fn_sig( + iter::once(mut_u8), + tcx.mk_unit(), + false, + hir::Unsafety::Normal, + Abi::Rust, + )); + let catch_fn_ty = ty::Binder::dummy(tcx.mk_fn_sig( + [mut_u8, mut_u8].iter().cloned(), + tcx.mk_unit(), + false, + hir::Unsafety::Normal, + Abi::Rust, + )); + ( + 0, + vec![tcx.mk_fn_ptr(try_fn_ty), mut_u8, tcx.mk_fn_ptr(catch_fn_ty)], + tcx.types.i32, + ) + } + + sym::va_start | sym::va_end => match mk_va_list_ty(hir::Mutability::Mut) { + Some((va_list_ref_ty, _)) => (0, vec![va_list_ref_ty], tcx.mk_unit()), + None => bug!("`va_list` language item needed for C-variadic intrinsics"), + }, + + sym::va_copy => match mk_va_list_ty(hir::Mutability::Not) { + Some((va_list_ref_ty, va_list_ty)) => { + let va_list_ptr_ty = tcx.mk_mut_ptr(va_list_ty); + (0, vec![va_list_ptr_ty, va_list_ref_ty], tcx.mk_unit()) + } + None => bug!("`va_list` language item needed for C-variadic intrinsics"), + }, + + sym::va_arg => match mk_va_list_ty(hir::Mutability::Mut) { + Some((va_list_ref_ty, _)) => (1, vec![va_list_ref_ty], param(0)), + None => bug!("`va_list` language item needed for C-variadic intrinsics"), + }, + + sym::nontemporal_store => (1, vec![tcx.mk_mut_ptr(param(0)), param(0)], tcx.mk_unit()), + + sym::raw_eq => { + let br = ty::BoundRegion { var: ty::BoundVar::from_u32(0), kind: ty::BrAnon(0) }; + let param_ty = + tcx.mk_imm_ref(tcx.mk_region(ty::ReLateBound(ty::INNERMOST, br)), param(0)); + (1, vec![param_ty; 2], tcx.types.bool) + } + + sym::black_box => (1, vec![param(0)], param(0)), + + sym::const_eval_select => (4, vec![param(0), param(1), param(2)], param(3)), + + sym::vtable_size | sym::vtable_align => { + (0, vec![tcx.mk_imm_ptr(tcx.mk_unit())], tcx.types.usize) + } + + other => { + tcx.sess.emit_err(UnrecognizedIntrinsicFunction { span: it.span, name: other }); + return; + } + }; + (n_tps, 0, inputs, output, unsafety) + }; + let sig = tcx.mk_fn_sig(inputs.into_iter(), output, false, unsafety, Abi::RustIntrinsic); + let sig = ty::Binder::bind_with_vars(sig, bound_vars); + equate_intrinsic_type(tcx, it, n_tps, n_lts, sig) +} + +/// Type-check `extern "platform-intrinsic" { ... }` functions. +pub fn check_platform_intrinsic_type(tcx: TyCtxt<'_>, it: &hir::ForeignItem<'_>) { + let param = |n| { + let name = Symbol::intern(&format!("P{}", n)); + tcx.mk_ty_param(n, name) + }; + + let name = it.ident.name; + + let (n_tps, inputs, output) = match name { + sym::simd_eq | sym::simd_ne | sym::simd_lt | sym::simd_le | sym::simd_gt | sym::simd_ge => { + (2, vec![param(0), param(0)], param(1)) + } + sym::simd_add + | sym::simd_sub + | sym::simd_mul + | sym::simd_rem + | sym::simd_div + | sym::simd_shl + | sym::simd_shr + | sym::simd_and + | sym::simd_or + | sym::simd_xor + | sym::simd_fmin + | sym::simd_fmax + | sym::simd_fpow + | sym::simd_saturating_add + | sym::simd_saturating_sub => (1, vec![param(0), param(0)], param(0)), + sym::simd_arith_offset => (2, vec![param(0), param(1)], param(0)), + sym::simd_neg + | sym::simd_fsqrt + | sym::simd_fsin + | sym::simd_fcos + | sym::simd_fexp + | sym::simd_fexp2 + | sym::simd_flog2 + | sym::simd_flog10 + | sym::simd_flog + | sym::simd_fabs + | sym::simd_ceil + | sym::simd_floor + | sym::simd_round + | sym::simd_trunc => (1, vec![param(0)], param(0)), + sym::simd_fpowi => (1, vec![param(0), tcx.types.i32], param(0)), + sym::simd_fma => (1, vec![param(0), param(0), param(0)], param(0)), + sym::simd_gather => (3, vec![param(0), param(1), param(2)], param(0)), + sym::simd_scatter => (3, vec![param(0), param(1), param(2)], tcx.mk_unit()), + sym::simd_insert => (2, vec![param(0), tcx.types.u32, param(1)], param(0)), + sym::simd_extract => (2, vec![param(0), tcx.types.u32], param(1)), + sym::simd_cast + | sym::simd_as + | sym::simd_cast_ptr + | sym::simd_expose_addr + | sym::simd_from_exposed_addr => (2, vec![param(0)], param(1)), + sym::simd_bitmask => (2, vec![param(0)], param(1)), + sym::simd_select | sym::simd_select_bitmask => { + (2, vec![param(0), param(1), param(1)], param(1)) + } + sym::simd_reduce_all | sym::simd_reduce_any => (1, vec![param(0)], tcx.types.bool), + sym::simd_reduce_add_ordered | sym::simd_reduce_mul_ordered => { + (2, vec![param(0), param(1)], param(1)) + } + sym::simd_reduce_add_unordered + | sym::simd_reduce_mul_unordered + | sym::simd_reduce_and + | sym::simd_reduce_or + | sym::simd_reduce_xor + | sym::simd_reduce_min + | sym::simd_reduce_max + | sym::simd_reduce_min_nanless + | sym::simd_reduce_max_nanless => (2, vec![param(0)], param(1)), + sym::simd_shuffle => (3, vec![param(0), param(0), param(1)], param(2)), + name if name.as_str().starts_with("simd_shuffle") => { + match name.as_str()["simd_shuffle".len()..].parse() { + Ok(n) => { + let params = vec![param(0), param(0), tcx.mk_array(tcx.types.u32, n)]; + (2, params, param(1)) + } + Err(_) => { + let msg = + format!("unrecognized platform-specific intrinsic function: `{name}`"); + tcx.sess.struct_span_err(it.span, &msg).emit(); + return; + } + } + } + _ => { + let msg = format!("unrecognized platform-specific intrinsic function: `{name}`"); + tcx.sess.struct_span_err(it.span, &msg).emit(); + return; + } + }; + + let sig = tcx.mk_fn_sig( + inputs.into_iter(), + output, + false, + hir::Unsafety::Unsafe, + Abi::PlatformIntrinsic, + ); + let sig = ty::Binder::dummy(sig); + equate_intrinsic_type(tcx, it, n_tps, 0, sig) +} |