use crate::check::check_function_signature;
use crate::errors::{
UnrecognizedAtomicOperation, UnrecognizedIntrinsicFunction,
WrongNumberOfGenericArgumentsToIntrinsic,
};
use rustc_errors::{codes::*, struct_span_code_err, DiagMessage};
use rustc_hir as hir;
use rustc_middle::bug;
use rustc_middle::traits::{ObligationCause, ObligationCauseCode};
use rustc_middle::ty::{self, Ty, TyCtxt};
use rustc_span::def_id::LocalDefId;
use rustc_span::symbol::sym;
use rustc_span::{Span, Symbol};
use rustc_target::spec::abi::Abi;
fn equate_intrinsic_type<'tcx>(
tcx: TyCtxt<'tcx>,
span: Span,
def_id: LocalDefId,
n_tps: usize,
n_lts: usize,
n_cts: usize,
sig: ty::PolyFnSig<'tcx>,
) {
let (generics, span) = match tcx.hir_node_by_def_id(def_id) {
hir::Node::Item(hir::Item { kind: hir::ItemKind::Fn(_, generics, _), .. })
| hir::Node::ForeignItem(hir::ForeignItem {
kind: hir::ForeignItemKind::Fn(.., generics, _),
..
}) => (tcx.generics_of(def_id), generics.span),
_ => {
struct_span_code_err!(tcx.dcx(), span, E0622, "intrinsic must be a function")
.with_span_label(span, "expected a function")
.emit();
return;
}
};
let own_counts = generics.own_counts();
let gen_count_ok = |found: usize, expected: usize, descr: &str| -> bool {
if found != expected {
tcx.dcx().emit_err(WrongNumberOfGenericArgumentsToIntrinsic {
span,
found,
expected,
descr,
});
false
} else {
true
}
};
let consts_count = if generics.host_effect_index.is_some() {
own_counts.consts - 1
} else {
own_counts.consts
};
if gen_count_ok(own_counts.lifetimes, n_lts, "lifetime")
&& gen_count_ok(own_counts.types, n_tps, "type")
&& gen_count_ok(consts_count, n_cts, "const")
{
let _ = check_function_signature(
tcx,
ObligationCause::new(span, def_id, ObligationCauseCode::IntrinsicType),
def_id.into(),
sig,
);
}
}
pub fn intrinsic_operation_unsafety(tcx: TyCtxt<'_>, intrinsic_id: LocalDefId) -> hir::Safety {
let has_safe_attr = if tcx.has_attr(intrinsic_id, sym::rustc_intrinsic) {
tcx.fn_sig(intrinsic_id).skip_binder().safety()
} else {
match tcx.has_attr(intrinsic_id, sym::rustc_safe_intrinsic) {
true => hir::Safety::Safe,
false => hir::Safety::Unsafe,
}
};
let is_in_list = match tcx.item_name(intrinsic_id.into()) {
sym::abort
| sym::assert_inhabited
| sym::assert_zero_valid
| sym::assert_mem_uninitialized_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::three_way_compare
| sym::discriminant_value
| sym::type_id
| sym::likely
| sym::unlikely
| sym::ptr_guaranteed_cmp
| sym::minnumf16
| sym::minnumf32
| sym::minnumf64
| sym::minnumf128
| sym::maxnumf16
| sym::maxnumf32
| sym::maxnumf64
| sym::maxnumf128
| sym::rustc_peek
| sym::type_name
| sym::forget
| sym::black_box
| sym::variant_count
| sym::is_val_statically_known
| sym::ptr_mask
| sym::aggregate_raw_ptr
| sym::ptr_metadata
| sym::ub_checks
| sym::fadd_algebraic
| sym::fsub_algebraic
| sym::fmul_algebraic
| sym::fdiv_algebraic
| sym::frem_algebraic
| sym::const_eval_select => hir::Safety::Safe,
_ => hir::Safety::Unsafe,
};
if has_safe_attr != is_in_list {
tcx.dcx().struct_span_err(
tcx.def_span(intrinsic_id),
DiagMessage::from(format!(
"intrinsic safety mismatch between list of intrinsics within the compiler and core library intrinsics for intrinsic `{}`",
tcx.item_name(intrinsic_id.into())
)
)).emit();
}
is_in_list
}
pub fn check_intrinsic_type(
tcx: TyCtxt<'_>,
intrinsic_id: LocalDefId,
span: Span,
intrinsic_name: Symbol,
abi: Abi,
) {
let generics = tcx.generics_of(intrinsic_id);
let param = |n| {
if let &ty::GenericParamDef { name, kind: ty::GenericParamDefKind::Type { .. }, .. } =
generics.param_at(n as usize, tcx)
{
Ty::new_param(tcx, n, name)
} else {
Ty::new_error_with_message(tcx, span, "expected param")
}
};
let name_str = intrinsic_name.as_str();
let bound_vars = tcx.mk_bound_variable_kinds(&[
ty::BoundVariableKind::Region(ty::BrAnon),
ty::BoundVariableKind::Region(ty::BrAnon),
ty::BoundVariableKind::Region(ty::BrEnv),
]);
let mk_va_list_ty = |mutbl| {
tcx.lang_items().va_list().map(|did| {
let region = ty::Region::new_bound(
tcx,
ty::INNERMOST,
ty::BoundRegion { var: ty::BoundVar::ZERO, kind: ty::BrAnon },
);
let env_region = ty::Region::new_bound(
tcx,
ty::INNERMOST,
ty::BoundRegion { var: ty::BoundVar::from_u32(2), kind: ty::BrEnv },
);
let va_list_ty = tcx.type_of(did).instantiate(tcx, &[region.into()]);
(Ty::new_ref(tcx, env_region, va_list_ty, mutbl), va_list_ty)
})
};
let (n_tps, n_lts, n_cts, inputs, output, safety) = if name_str.starts_with("atomic_") {
let split: Vec<&str> = name_str.split('_').collect();
assert!(split.len() >= 2, "Atomic intrinsic in an incorrect format");
let (n_tps, inputs, output) = match split[1] {
"cxchg" | "cxchgweak" => (
1,
vec![Ty::new_mut_ptr(tcx, param(0)), param(0), param(0)],
Ty::new_tup(tcx, &[param(0), tcx.types.bool]),
),
"load" => (1, vec![Ty::new_imm_ptr(tcx, param(0))], param(0)),
"store" => (1, vec![Ty::new_mut_ptr(tcx, param(0)), param(0)], tcx.types.unit),
"xchg" | "xadd" | "xsub" | "and" | "nand" | "or" | "xor" | "max" | "min" | "umax"
| "umin" => (1, vec![Ty::new_mut_ptr(tcx, param(0)), param(0)], param(0)),
"fence" | "singlethreadfence" => (0, Vec::new(), tcx.types.unit),
op => {
tcx.dcx().emit_err(UnrecognizedAtomicOperation { span, op });
return;
}
};
(n_tps, 0, 0, inputs, output, hir::Safety::Unsafe)
} else {
let safety = intrinsic_operation_unsafety(tcx, intrinsic_id);
let (n_tps, n_cts, inputs, output) = match intrinsic_name {
sym::abort => (0, 0, vec![], tcx.types.never),
sym::unreachable => (0, 0, vec![], tcx.types.never),
sym::breakpoint => (0, 0, vec![], tcx.types.unit),
sym::size_of | sym::pref_align_of | sym::min_align_of | sym::variant_count => {
(1, 0, vec![], tcx.types.usize)
}
sym::size_of_val | sym::min_align_of_val => {
(1, 0, vec![Ty::new_imm_ptr(tcx, param(0))], tcx.types.usize)
}
sym::rustc_peek => (1, 0, vec![param(0)], param(0)),
sym::caller_location => (0, 0, vec![], tcx.caller_location_ty()),
sym::assert_inhabited
| sym::assert_zero_valid
| sym::assert_mem_uninitialized_valid => (1, 0, vec![], tcx.types.unit),
sym::forget => (1, 0, vec![param(0)], tcx.types.unit),
sym::transmute | sym::transmute_unchecked => (2, 0, vec![param(0)], param(1)),
sym::prefetch_read_data
| sym::prefetch_write_data
| sym::prefetch_read_instruction
| sym::prefetch_write_instruction => {
(1, 0, vec![Ty::new_imm_ptr(tcx, param(0)), tcx.types.i32], tcx.types.unit)
}
sym::needs_drop => (1, 0, vec![], tcx.types.bool),
sym::type_name => (1, 0, vec![], Ty::new_static_str(tcx)),
sym::type_id => (1, 0, vec![], tcx.types.u128),
sym::offset => (2, 0, vec![param(0), param(1)], param(0)),
sym::arith_offset => (
1,
0,
vec![Ty::new_imm_ptr(tcx, param(0)), tcx.types.isize],
Ty::new_imm_ptr(tcx, param(0)),
),
sym::ptr_mask => (
1,
0,
vec![Ty::new_imm_ptr(tcx, param(0)), tcx.types.usize],
Ty::new_imm_ptr(tcx, param(0)),
),
sym::copy | sym::copy_nonoverlapping => (
1,
0,
vec![
Ty::new_imm_ptr(tcx, param(0)),
Ty::new_mut_ptr(tcx, param(0)),
tcx.types.usize,
],
tcx.types.unit,
),
sym::volatile_copy_memory | sym::volatile_copy_nonoverlapping_memory => (
1,
0,
vec![
Ty::new_mut_ptr(tcx, param(0)),
Ty::new_imm_ptr(tcx, param(0)),
tcx.types.usize,
],
tcx.types.unit,
),
sym::compare_bytes => {
let byte_ptr = Ty::new_imm_ptr(tcx, tcx.types.u8);
(0, 0, vec![byte_ptr, byte_ptr, tcx.types.usize], tcx.types.i32)
}
sym::write_bytes | sym::volatile_set_memory => (
1,
0,
vec![Ty::new_mut_ptr(tcx, param(0)), tcx.types.u8, tcx.types.usize],
tcx.types.unit,
),
sym::sqrtf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::sqrtf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::sqrtf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::sqrtf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::powif16 => (0, 0, vec![tcx.types.f16, tcx.types.i32], tcx.types.f16),
sym::powif32 => (0, 0, vec![tcx.types.f32, tcx.types.i32], tcx.types.f32),
sym::powif64 => (0, 0, vec![tcx.types.f64, tcx.types.i32], tcx.types.f64),
sym::powif128 => (0, 0, vec![tcx.types.f128, tcx.types.i32], tcx.types.f128),
sym::sinf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::sinf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::sinf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::sinf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::cosf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::cosf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::cosf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::cosf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::powf16 => (0, 0, vec![tcx.types.f16, tcx.types.f16], tcx.types.f16),
sym::powf32 => (0, 0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32),
sym::powf64 => (0, 0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64),
sym::powf128 => (0, 0, vec![tcx.types.f128, tcx.types.f128], tcx.types.f128),
sym::expf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::expf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::expf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::expf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::exp2f16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::exp2f32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::exp2f64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::exp2f128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::logf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::logf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::logf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::logf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::log10f16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::log10f32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::log10f64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::log10f128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::log2f16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::log2f32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::log2f64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::log2f128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::fmaf16 => (0, 0, vec![tcx.types.f16, tcx.types.f16, tcx.types.f16], tcx.types.f16),
sym::fmaf32 => (0, 0, vec![tcx.types.f32, tcx.types.f32, tcx.types.f32], tcx.types.f32),
sym::fmaf64 => (0, 0, vec![tcx.types.f64, tcx.types.f64, tcx.types.f64], tcx.types.f64),
sym::fmaf128 => {
(0, 0, vec![tcx.types.f128, tcx.types.f128, tcx.types.f128], tcx.types.f128)
}
sym::fabsf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::fabsf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::fabsf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::fabsf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::minnumf16 => (0, 0, vec![tcx.types.f16, tcx.types.f16], tcx.types.f16),
sym::minnumf32 => (0, 0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32),
sym::minnumf64 => (0, 0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64),
sym::minnumf128 => (0, 0, vec![tcx.types.f128, tcx.types.f128], tcx.types.f128),
sym::maxnumf16 => (0, 0, vec![tcx.types.f16, tcx.types.f16], tcx.types.f16),
sym::maxnumf32 => (0, 0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32),
sym::maxnumf64 => (0, 0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64),
sym::maxnumf128 => (0, 0, vec![tcx.types.f128, tcx.types.f128], tcx.types.f128),
sym::copysignf16 => (0, 0, vec![tcx.types.f16, tcx.types.f16], tcx.types.f16),
sym::copysignf32 => (0, 0, vec![tcx.types.f32, tcx.types.f32], tcx.types.f32),
sym::copysignf64 => (0, 0, vec![tcx.types.f64, tcx.types.f64], tcx.types.f64),
sym::copysignf128 => (0, 0, vec![tcx.types.f128, tcx.types.f128], tcx.types.f128),
sym::floorf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::floorf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::floorf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::floorf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::ceilf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::ceilf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::ceilf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::ceilf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::truncf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::truncf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::truncf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::truncf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::rintf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::rintf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::rintf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::rintf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::nearbyintf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::nearbyintf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::nearbyintf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::nearbyintf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::roundf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::roundf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::roundf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::roundf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::roundevenf16 => (0, 0, vec![tcx.types.f16], tcx.types.f16),
sym::roundevenf32 => (0, 0, vec![tcx.types.f32], tcx.types.f32),
sym::roundevenf64 => (0, 0, vec![tcx.types.f64], tcx.types.f64),
sym::roundevenf128 => (0, 0, vec![tcx.types.f128], tcx.types.f128),
sym::volatile_load | sym::unaligned_volatile_load => {
(1, 0, vec![Ty::new_imm_ptr(tcx, param(0))], param(0))
}
sym::volatile_store | sym::unaligned_volatile_store => {
(1, 0, vec![Ty::new_mut_ptr(tcx, param(0)), param(0)], tcx.types.unit)
}
sym::ctpop | sym::ctlz | sym::ctlz_nonzero | sym::cttz | sym::cttz_nonzero => {
(1, 0, vec![param(0)], tcx.types.u32)
}
sym::bswap | sym::bitreverse => (1, 0, vec![param(0)], param(0)),
sym::three_way_compare => {
(1, 0, vec![param(0), param(0)], tcx.ty_ordering_enum(Some(span)))
}
sym::add_with_overflow | sym::sub_with_overflow | sym::mul_with_overflow => {
(1, 0, vec![param(0), param(0)], Ty::new_tup(tcx, &[param(0), tcx.types.bool]))
}
sym::ptr_guaranteed_cmp => (
1,
0,
vec![Ty::new_imm_ptr(tcx, param(0)), Ty::new_imm_ptr(tcx, param(0))],
tcx.types.u8,
),
sym::const_allocate => {
(0, 0, vec![tcx.types.usize, tcx.types.usize], Ty::new_mut_ptr(tcx, tcx.types.u8))
}
sym::const_deallocate => (
0,
0,
vec![Ty::new_mut_ptr(tcx, tcx.types.u8), tcx.types.usize, tcx.types.usize],
tcx.types.unit,
),
sym::ptr_offset_from => (
1,
0,
vec![Ty::new_imm_ptr(tcx, param(0)), Ty::new_imm_ptr(tcx, param(0))],
tcx.types.isize,
),
sym::ptr_offset_from_unsigned => (
1,
0,
vec![Ty::new_imm_ptr(tcx, param(0)), Ty::new_imm_ptr(tcx, param(0))],
tcx.types.usize,
),
sym::unchecked_div | sym::unchecked_rem | sym::exact_div => {
(1, 0, vec![param(0), param(0)], param(0))
}
sym::unchecked_shl | sym::unchecked_shr => (2, 0, vec![param(0), param(1)], param(0)),
sym::rotate_left | sym::rotate_right => (1, 0, vec![param(0), tcx.types.u32], param(0)),
sym::unchecked_add | sym::unchecked_sub | sym::unchecked_mul => {
(1, 0, vec![param(0), param(0)], param(0))
}
sym::wrapping_add | sym::wrapping_sub | sym::wrapping_mul => {
(1, 0, vec![param(0), param(0)], param(0))
}
sym::saturating_add | sym::saturating_sub => (1, 0, vec![param(0), param(0)], param(0)),
sym::fadd_fast | sym::fsub_fast | sym::fmul_fast | sym::fdiv_fast | sym::frem_fast => {
(1, 0, vec![param(0), param(0)], param(0))
}
sym::fadd_algebraic
| sym::fsub_algebraic
| sym::fmul_algebraic
| sym::fdiv_algebraic
| sym::frem_algebraic => (1, 0, vec![param(0), param(0)], param(0)),
sym::float_to_int_unchecked => (2, 0, vec![param(0)], param(1)),
sym::assume => (0, 0, vec![tcx.types.bool], tcx.types.unit),
sym::likely => (0, 0, vec![tcx.types.bool], tcx.types.bool),
sym::unlikely => (0, 0, vec![tcx.types.bool], tcx.types.bool),
sym::read_via_copy => (1, 0, vec![Ty::new_imm_ptr(tcx, param(0))], param(0)),
sym::write_via_move => {
(1, 0, vec![Ty::new_mut_ptr(tcx, param(0)), param(0)], tcx.types.unit)
}
sym::typed_swap => (1, 0, vec![Ty::new_mut_ptr(tcx, param(0)); 2], tcx.types.unit),
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::ZERO, kind: ty::BrAnon };
(
1,
0,
vec![Ty::new_imm_ref(
tcx,
ty::Region::new_bound(tcx, ty::INNERMOST, br),
param(0),
)],
Ty::new_projection_from_args(
tcx,
discriminant_def_id,
tcx.mk_args(&[param(0).into()]),
),
)
}
sym::catch_unwind => {
let mut_u8 = Ty::new_mut_ptr(tcx, tcx.types.u8);
let try_fn_ty = ty::Binder::dummy(tcx.mk_fn_sig(
[mut_u8],
tcx.types.unit,
false,
hir::Safety::Safe,
Abi::Rust,
));
let catch_fn_ty = ty::Binder::dummy(tcx.mk_fn_sig(
[mut_u8, mut_u8],
tcx.types.unit,
false,
hir::Safety::Safe,
Abi::Rust,
));
(
0,
0,
vec![Ty::new_fn_ptr(tcx, try_fn_ty), mut_u8, Ty::new_fn_ptr(tcx, 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, 0, vec![va_list_ref_ty], tcx.types.unit),
None => bug!("`va_list` lang 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 = Ty::new_mut_ptr(tcx, va_list_ty);
(0, 0, vec![va_list_ptr_ty, va_list_ref_ty], tcx.types.unit)
}
None => bug!("`va_list` lang item needed for C-variadic intrinsics"),
},
sym::va_arg => match mk_va_list_ty(hir::Mutability::Mut) {
Some((va_list_ref_ty, _)) => (1, 0, vec![va_list_ref_ty], param(0)),
None => bug!("`va_list` lang item needed for C-variadic intrinsics"),
},
sym::nontemporal_store => {
(1, 0, vec![Ty::new_mut_ptr(tcx, param(0)), param(0)], tcx.types.unit)
}
sym::raw_eq => {
let br = ty::BoundRegion { var: ty::BoundVar::ZERO, kind: ty::BrAnon };
let param_ty_lhs =
Ty::new_imm_ref(tcx, ty::Region::new_bound(tcx, ty::INNERMOST, br), param(0));
let br = ty::BoundRegion { var: ty::BoundVar::from_u32(1), kind: ty::BrAnon };
let param_ty_rhs =
Ty::new_imm_ref(tcx, ty::Region::new_bound(tcx, ty::INNERMOST, br), param(0));
(1, 0, vec![param_ty_lhs, param_ty_rhs], tcx.types.bool)
}
sym::black_box => (1, 0, vec![param(0)], param(0)),
sym::is_val_statically_known => (1, 0, vec![param(0)], tcx.types.bool),
sym::const_eval_select => (4, 0, vec![param(0), param(1), param(2)], param(3)),
sym::vtable_size | sym::vtable_align => {
(0, 0, vec![Ty::new_imm_ptr(tcx, tcx.types.unit)], tcx.types.usize)
}
sym::aggregate_raw_ptr => (3, 0, vec![param(1), param(2)], param(0)),
sym::ptr_metadata => (2, 0, vec![Ty::new_imm_ptr(tcx, param(0))], param(1)),
sym::ub_checks => (0, 0, Vec::new(), tcx.types.bool),
sym::simd_eq
| sym::simd_ne
| sym::simd_lt
| sym::simd_le
| sym::simd_gt
| sym::simd_ge => (2, 0, 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, 0, vec![param(0), param(0)], param(0)),
sym::simd_arith_offset => (2, 0, vec![param(0), param(1)], param(0)),
sym::simd_neg
| sym::simd_bswap
| sym::simd_bitreverse
| sym::simd_ctlz
| sym::simd_cttz
| sym::simd_ctpop
| 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, 0, vec![param(0)], param(0)),
sym::simd_fpowi => (1, 0, vec![param(0), tcx.types.i32], param(0)),
sym::simd_fma => (1, 0, vec![param(0), param(0), param(0)], param(0)),
sym::simd_gather => (3, 0, vec![param(0), param(1), param(2)], param(0)),
sym::simd_masked_load => (3, 0, vec![param(0), param(1), param(2)], param(2)),
sym::simd_masked_store => (3, 0, vec![param(0), param(1), param(2)], tcx.types.unit),
sym::simd_scatter => (3, 0, vec![param(0), param(1), param(2)], tcx.types.unit),
sym::simd_insert => (2, 0, vec![param(0), tcx.types.u32, param(1)], param(0)),
sym::simd_extract => (2, 0, vec![param(0), tcx.types.u32], param(1)),
sym::simd_cast
| sym::simd_as
| sym::simd_cast_ptr
| sym::simd_expose_provenance
| sym::simd_with_exposed_provenance => (2, 0, vec![param(0)], param(1)),
sym::simd_bitmask => (2, 0, vec![param(0)], param(1)),
sym::simd_select | sym::simd_select_bitmask => {
(2, 0, vec![param(0), param(1), param(1)], param(1))
}
sym::simd_reduce_all | sym::simd_reduce_any => (1, 0, vec![param(0)], tcx.types.bool),
sym::simd_reduce_add_ordered | sym::simd_reduce_mul_ordered => {
(2, 0, 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 => (2, 0, vec![param(0)], param(1)),
sym::simd_shuffle => (3, 0, vec![param(0), param(0), param(1)], param(2)),
sym::simd_shuffle_generic => (2, 1, vec![param(0), param(0)], param(1)),
other => {
tcx.dcx().emit_err(UnrecognizedIntrinsicFunction { span, name: other });
return;
}
};
(n_tps, 0, n_cts, inputs, output, safety)
};
let sig = tcx.mk_fn_sig(inputs, output, false, safety, abi);
let sig = ty::Binder::bind_with_vars(sig, bound_vars);
equate_intrinsic_type(tcx, span, intrinsic_id, n_tps, n_lts, n_cts, sig)
}