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|
use rustc_hir as hir;
use rustc_hir::def_id::DefId;
use rustc_hir::lang_items::LangItem;
use rustc_middle::mir::*;
use rustc_middle::ty::query::Providers;
use rustc_middle::ty::InternalSubsts;
use rustc_middle::ty::{self, EarlyBinder, GeneratorSubsts, Ty, TyCtxt};
use rustc_target::abi::VariantIdx;
use rustc_index::vec::{Idx, IndexVec};
use rustc_span::Span;
use rustc_target::spec::abi::Abi;
use std::fmt;
use std::iter;
use crate::util::expand_aggregate;
use crate::{
abort_unwinding_calls, add_call_guards, add_moves_for_packed_drops, deref_separator,
pass_manager as pm, remove_noop_landing_pads, simplify,
};
use rustc_middle::mir::patch::MirPatch;
use rustc_mir_dataflow::elaborate_drops::{self, DropElaborator, DropFlagMode, DropStyle};
pub fn provide(providers: &mut Providers) {
providers.mir_shims = make_shim;
}
fn make_shim<'tcx>(tcx: TyCtxt<'tcx>, instance: ty::InstanceDef<'tcx>) -> Body<'tcx> {
debug!("make_shim({:?})", instance);
let mut result = match instance {
ty::InstanceDef::Item(..) => bug!("item {:?} passed to make_shim", instance),
ty::InstanceDef::VTableShim(def_id) => {
build_call_shim(tcx, instance, Some(Adjustment::Deref), CallKind::Direct(def_id))
}
ty::InstanceDef::FnPtrShim(def_id, ty) => {
let trait_ = tcx.trait_of_item(def_id).unwrap();
let adjustment = match tcx.fn_trait_kind_from_def_id(trait_) {
Some(ty::ClosureKind::FnOnce) => Adjustment::Identity,
Some(ty::ClosureKind::FnMut | ty::ClosureKind::Fn) => Adjustment::Deref,
None => bug!("fn pointer {:?} is not an fn", ty),
};
build_call_shim(tcx, instance, Some(adjustment), CallKind::Indirect(ty))
}
// We are generating a call back to our def-id, which the
// codegen backend knows to turn to an actual call, be it
// a virtual call, or a direct call to a function for which
// indirect calls must be codegen'd differently than direct ones
// (such as `#[track_caller]`).
ty::InstanceDef::ReifyShim(def_id) => {
build_call_shim(tcx, instance, None, CallKind::Direct(def_id))
}
ty::InstanceDef::ClosureOnceShim { call_once: _, track_caller: _ } => {
let fn_mut = tcx.require_lang_item(LangItem::FnMut, None);
let call_mut = tcx
.associated_items(fn_mut)
.in_definition_order()
.find(|it| it.kind == ty::AssocKind::Fn)
.unwrap()
.def_id;
build_call_shim(tcx, instance, Some(Adjustment::RefMut), CallKind::Direct(call_mut))
}
ty::InstanceDef::DropGlue(def_id, ty) => {
// FIXME(#91576): Drop shims for generators aren't subject to the MIR passes at the end
// of this function. Is this intentional?
if let Some(ty::Generator(gen_def_id, substs, _)) = ty.map(Ty::kind) {
let body = tcx.optimized_mir(*gen_def_id).generator_drop().unwrap();
let body = EarlyBinder(body.clone()).subst(tcx, substs);
debug!("make_shim({:?}) = {:?}", instance, body);
return body;
}
build_drop_shim(tcx, def_id, ty)
}
ty::InstanceDef::CloneShim(def_id, ty) => build_clone_shim(tcx, def_id, ty),
ty::InstanceDef::Virtual(..) => {
bug!("InstanceDef::Virtual ({:?}) is for direct calls only", instance)
}
ty::InstanceDef::Intrinsic(_) => {
bug!("creating shims from intrinsics ({:?}) is unsupported", instance)
}
};
debug!("make_shim({:?}) = untransformed {:?}", instance, result);
pm::run_passes(
tcx,
&mut result,
&[
&add_moves_for_packed_drops::AddMovesForPackedDrops,
&deref_separator::Derefer,
&remove_noop_landing_pads::RemoveNoopLandingPads,
&simplify::SimplifyCfg::new("make_shim"),
&add_call_guards::CriticalCallEdges,
&abort_unwinding_calls::AbortUnwindingCalls,
],
Some(MirPhase::Runtime(RuntimePhase::Optimized)),
);
debug!("make_shim({:?}) = {:?}", instance, result);
result
}
#[derive(Copy, Clone, Debug, PartialEq)]
enum Adjustment {
/// Pass the receiver as-is.
Identity,
/// We get passed `&[mut] self` and call the target with `*self`.
///
/// This either copies `self` (if `Self: Copy`, eg. for function items), or moves out of it
/// (for `VTableShim`, which effectively is passed `&own Self`).
Deref,
/// We get passed `self: Self` and call the target with `&mut self`.
///
/// In this case we need to ensure that the `Self` is dropped after the call, as the callee
/// won't do it for us.
RefMut,
}
#[derive(Copy, Clone, Debug, PartialEq)]
enum CallKind<'tcx> {
/// Call the `FnPtr` that was passed as the receiver.
Indirect(Ty<'tcx>),
/// Call a known `FnDef`.
Direct(DefId),
}
fn local_decls_for_sig<'tcx>(
sig: &ty::FnSig<'tcx>,
span: Span,
) -> IndexVec<Local, LocalDecl<'tcx>> {
iter::once(LocalDecl::new(sig.output(), span))
.chain(sig.inputs().iter().map(|ity| LocalDecl::new(*ity, span).immutable()))
.collect()
}
fn build_drop_shim<'tcx>(tcx: TyCtxt<'tcx>, def_id: DefId, ty: Option<Ty<'tcx>>) -> Body<'tcx> {
debug!("build_drop_shim(def_id={:?}, ty={:?})", def_id, ty);
assert!(!matches!(ty, Some(ty) if ty.is_generator()));
let substs = if let Some(ty) = ty {
tcx.intern_substs(&[ty.into()])
} else {
InternalSubsts::identity_for_item(tcx, def_id)
};
let sig = tcx.bound_fn_sig(def_id).subst(tcx, substs);
let sig = tcx.erase_late_bound_regions(sig);
let span = tcx.def_span(def_id);
let source_info = SourceInfo::outermost(span);
let return_block = BasicBlock::new(1);
let mut blocks = IndexVec::with_capacity(2);
let block = |blocks: &mut IndexVec<_, _>, kind| {
blocks.push(BasicBlockData {
statements: vec![],
terminator: Some(Terminator { source_info, kind }),
is_cleanup: false,
})
};
block(&mut blocks, TerminatorKind::Goto { target: return_block });
block(&mut blocks, TerminatorKind::Return);
let source = MirSource::from_instance(ty::InstanceDef::DropGlue(def_id, ty));
let mut body =
new_body(source, blocks, local_decls_for_sig(&sig, span), sig.inputs().len(), span);
if ty.is_some() {
// The first argument (index 0), but add 1 for the return value.
let dropee_ptr = Place::from(Local::new(1 + 0));
let patch = {
let param_env = tcx.param_env_reveal_all_normalized(def_id);
let mut elaborator =
DropShimElaborator { body: &body, patch: MirPatch::new(&body), tcx, param_env };
let dropee = tcx.mk_place_deref(dropee_ptr);
let resume_block = elaborator.patch.resume_block();
elaborate_drops::elaborate_drop(
&mut elaborator,
source_info,
dropee,
(),
return_block,
elaborate_drops::Unwind::To(resume_block),
START_BLOCK,
);
elaborator.patch
};
patch.apply(&mut body);
}
body
}
fn new_body<'tcx>(
source: MirSource<'tcx>,
basic_blocks: IndexVec<BasicBlock, BasicBlockData<'tcx>>,
local_decls: IndexVec<Local, LocalDecl<'tcx>>,
arg_count: usize,
span: Span,
) -> Body<'tcx> {
Body::new(
source,
basic_blocks,
IndexVec::from_elem_n(
SourceScopeData {
span,
parent_scope: None,
inlined: None,
inlined_parent_scope: None,
local_data: ClearCrossCrate::Clear,
},
1,
),
local_decls,
IndexVec::new(),
arg_count,
vec![],
span,
None,
// FIXME(compiler-errors): is this correct?
None,
)
}
pub struct DropShimElaborator<'a, 'tcx> {
pub body: &'a Body<'tcx>,
pub patch: MirPatch<'tcx>,
pub tcx: TyCtxt<'tcx>,
pub param_env: ty::ParamEnv<'tcx>,
}
impl fmt::Debug for DropShimElaborator<'_, '_> {
fn fmt(&self, _f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
Ok(())
}
}
impl<'a, 'tcx> DropElaborator<'a, 'tcx> for DropShimElaborator<'a, 'tcx> {
type Path = ();
fn patch(&mut self) -> &mut MirPatch<'tcx> {
&mut self.patch
}
fn body(&self) -> &'a Body<'tcx> {
self.body
}
fn tcx(&self) -> TyCtxt<'tcx> {
self.tcx
}
fn param_env(&self) -> ty::ParamEnv<'tcx> {
self.param_env
}
fn drop_style(&self, _path: Self::Path, mode: DropFlagMode) -> DropStyle {
match mode {
DropFlagMode::Shallow => {
// Drops for the contained fields are "shallow" and "static" - they will simply call
// the field's own drop glue.
DropStyle::Static
}
DropFlagMode::Deep => {
// The top-level drop is "deep" and "open" - it will be elaborated to a drop ladder
// dropping each field contained in the value.
DropStyle::Open
}
}
}
fn get_drop_flag(&mut self, _path: Self::Path) -> Option<Operand<'tcx>> {
None
}
fn clear_drop_flag(&mut self, _location: Location, _path: Self::Path, _mode: DropFlagMode) {}
fn field_subpath(&self, _path: Self::Path, _field: Field) -> Option<Self::Path> {
None
}
fn deref_subpath(&self, _path: Self::Path) -> Option<Self::Path> {
None
}
fn downcast_subpath(&self, _path: Self::Path, _variant: VariantIdx) -> Option<Self::Path> {
Some(())
}
fn array_subpath(&self, _path: Self::Path, _index: u64, _size: u64) -> Option<Self::Path> {
None
}
}
/// Builds a `Clone::clone` shim for `self_ty`. Here, `def_id` is `Clone::clone`.
fn build_clone_shim<'tcx>(tcx: TyCtxt<'tcx>, def_id: DefId, self_ty: Ty<'tcx>) -> Body<'tcx> {
debug!("build_clone_shim(def_id={:?})", def_id);
let param_env = tcx.param_env(def_id);
let mut builder = CloneShimBuilder::new(tcx, def_id, self_ty);
let is_copy = self_ty.is_copy_modulo_regions(tcx, param_env);
let dest = Place::return_place();
let src = tcx.mk_place_deref(Place::from(Local::new(1 + 0)));
match self_ty.kind() {
_ if is_copy => builder.copy_shim(),
ty::Closure(_, substs) => {
builder.tuple_like_shim(dest, src, substs.as_closure().upvar_tys())
}
ty::Tuple(..) => builder.tuple_like_shim(dest, src, self_ty.tuple_fields()),
ty::Generator(gen_def_id, substs, hir::Movability::Movable) => {
builder.generator_shim(dest, src, *gen_def_id, substs.as_generator())
}
_ => bug!("clone shim for `{:?}` which is not `Copy` and is not an aggregate", self_ty),
};
builder.into_mir()
}
struct CloneShimBuilder<'tcx> {
tcx: TyCtxt<'tcx>,
def_id: DefId,
local_decls: IndexVec<Local, LocalDecl<'tcx>>,
blocks: IndexVec<BasicBlock, BasicBlockData<'tcx>>,
span: Span,
sig: ty::FnSig<'tcx>,
}
impl<'tcx> CloneShimBuilder<'tcx> {
fn new(tcx: TyCtxt<'tcx>, def_id: DefId, self_ty: Ty<'tcx>) -> Self {
// we must subst the self_ty because it's
// otherwise going to be TySelf and we can't index
// or access fields of a Place of type TySelf.
let substs = tcx.mk_substs_trait(self_ty, []);
let sig = tcx.bound_fn_sig(def_id).subst(tcx, substs);
let sig = tcx.erase_late_bound_regions(sig);
let span = tcx.def_span(def_id);
CloneShimBuilder {
tcx,
def_id,
local_decls: local_decls_for_sig(&sig, span),
blocks: IndexVec::new(),
span,
sig,
}
}
fn into_mir(self) -> Body<'tcx> {
let source = MirSource::from_instance(ty::InstanceDef::CloneShim(
self.def_id,
self.sig.inputs_and_output[0],
));
new_body(source, self.blocks, self.local_decls, self.sig.inputs().len(), self.span)
}
fn source_info(&self) -> SourceInfo {
SourceInfo::outermost(self.span)
}
fn block(
&mut self,
statements: Vec<Statement<'tcx>>,
kind: TerminatorKind<'tcx>,
is_cleanup: bool,
) -> BasicBlock {
let source_info = self.source_info();
self.blocks.push(BasicBlockData {
statements,
terminator: Some(Terminator { source_info, kind }),
is_cleanup,
})
}
/// Gives the index of an upcoming BasicBlock, with an offset.
/// offset=0 will give you the index of the next BasicBlock,
/// offset=1 will give the index of the next-to-next block,
/// offset=-1 will give you the index of the last-created block
fn block_index_offset(&self, offset: usize) -> BasicBlock {
BasicBlock::new(self.blocks.len() + offset)
}
fn make_statement(&self, kind: StatementKind<'tcx>) -> Statement<'tcx> {
Statement { source_info: self.source_info(), kind }
}
fn copy_shim(&mut self) {
let rcvr = self.tcx.mk_place_deref(Place::from(Local::new(1 + 0)));
let ret_statement = self.make_statement(StatementKind::Assign(Box::new((
Place::return_place(),
Rvalue::Use(Operand::Copy(rcvr)),
))));
self.block(vec![ret_statement], TerminatorKind::Return, false);
}
fn make_place(&mut self, mutability: Mutability, ty: Ty<'tcx>) -> Place<'tcx> {
let span = self.span;
let mut local = LocalDecl::new(ty, span);
if mutability == Mutability::Not {
local = local.immutable();
}
Place::from(self.local_decls.push(local))
}
fn make_clone_call(
&mut self,
dest: Place<'tcx>,
src: Place<'tcx>,
ty: Ty<'tcx>,
next: BasicBlock,
cleanup: BasicBlock,
) {
let tcx = self.tcx;
let substs = tcx.mk_substs_trait(ty, []);
// `func == Clone::clone(&ty) -> ty`
let func_ty = tcx.mk_fn_def(self.def_id, substs);
let func = Operand::Constant(Box::new(Constant {
span: self.span,
user_ty: None,
literal: ConstantKind::zero_sized(func_ty),
}));
let ref_loc = self.make_place(
Mutability::Not,
tcx.mk_ref(tcx.lifetimes.re_erased, ty::TypeAndMut { ty, mutbl: hir::Mutability::Not }),
);
// `let ref_loc: &ty = &src;`
let statement = self.make_statement(StatementKind::Assign(Box::new((
ref_loc,
Rvalue::Ref(tcx.lifetimes.re_erased, BorrowKind::Shared, src),
))));
// `let loc = Clone::clone(ref_loc);`
self.block(
vec![statement],
TerminatorKind::Call {
func,
args: vec![Operand::Move(ref_loc)],
destination: dest,
target: Some(next),
cleanup: Some(cleanup),
from_hir_call: true,
fn_span: self.span,
},
false,
);
}
fn clone_fields<I>(
&mut self,
dest: Place<'tcx>,
src: Place<'tcx>,
target: BasicBlock,
mut unwind: BasicBlock,
tys: I,
) -> BasicBlock
where
I: IntoIterator<Item = Ty<'tcx>>,
{
// For an iterator of length n, create 2*n + 1 blocks.
for (i, ity) in tys.into_iter().enumerate() {
// Each iteration creates two blocks, referred to here as block 2*i and block 2*i + 1.
//
// Block 2*i attempts to clone the field. If successful it branches to 2*i + 2 (the
// next clone block). If unsuccessful it branches to the previous unwind block, which
// is initially the `unwind` argument passed to this function.
//
// Block 2*i + 1 is the unwind block for this iteration. It drops the cloned value
// created by block 2*i. We store this block in `unwind` so that the next clone block
// will unwind to it if cloning fails.
let field = Field::new(i);
let src_field = self.tcx.mk_place_field(src, field, ity);
let dest_field = self.tcx.mk_place_field(dest, field, ity);
let next_unwind = self.block_index_offset(1);
let next_block = self.block_index_offset(2);
self.make_clone_call(dest_field, src_field, ity, next_block, unwind);
self.block(
vec![],
TerminatorKind::Drop { place: dest_field, target: unwind, unwind: None },
true,
);
unwind = next_unwind;
}
// If all clones succeed then we end up here.
self.block(vec![], TerminatorKind::Goto { target }, false);
unwind
}
fn tuple_like_shim<I>(&mut self, dest: Place<'tcx>, src: Place<'tcx>, tys: I)
where
I: IntoIterator<Item = Ty<'tcx>>,
{
self.block(vec![], TerminatorKind::Goto { target: self.block_index_offset(3) }, false);
let unwind = self.block(vec![], TerminatorKind::Resume, true);
let target = self.block(vec![], TerminatorKind::Return, false);
let _final_cleanup_block = self.clone_fields(dest, src, target, unwind, tys);
}
fn generator_shim(
&mut self,
dest: Place<'tcx>,
src: Place<'tcx>,
gen_def_id: DefId,
substs: GeneratorSubsts<'tcx>,
) {
self.block(vec![], TerminatorKind::Goto { target: self.block_index_offset(3) }, false);
let unwind = self.block(vec![], TerminatorKind::Resume, true);
// This will get overwritten with a switch once we know the target blocks
let switch = self.block(vec![], TerminatorKind::Unreachable, false);
let unwind = self.clone_fields(dest, src, switch, unwind, substs.upvar_tys());
let target = self.block(vec![], TerminatorKind::Return, false);
let unreachable = self.block(vec![], TerminatorKind::Unreachable, false);
let mut cases = Vec::with_capacity(substs.state_tys(gen_def_id, self.tcx).count());
for (index, state_tys) in substs.state_tys(gen_def_id, self.tcx).enumerate() {
let variant_index = VariantIdx::new(index);
let dest = self.tcx.mk_place_downcast_unnamed(dest, variant_index);
let src = self.tcx.mk_place_downcast_unnamed(src, variant_index);
let clone_block = self.block_index_offset(1);
let start_block = self.block(
vec![self.make_statement(StatementKind::SetDiscriminant {
place: Box::new(Place::return_place()),
variant_index,
})],
TerminatorKind::Goto { target: clone_block },
false,
);
cases.push((index as u128, start_block));
let _final_cleanup_block = self.clone_fields(dest, src, target, unwind, state_tys);
}
let discr_ty = substs.discr_ty(self.tcx);
let temp = self.make_place(Mutability::Mut, discr_ty);
let rvalue = Rvalue::Discriminant(src);
let statement = self.make_statement(StatementKind::Assign(Box::new((temp, rvalue))));
match &mut self.blocks[switch] {
BasicBlockData { statements, terminator: Some(Terminator { kind, .. }), .. } => {
statements.push(statement);
*kind = TerminatorKind::SwitchInt {
discr: Operand::Move(temp),
switch_ty: discr_ty,
targets: SwitchTargets::new(cases.into_iter(), unreachable),
};
}
BasicBlockData { terminator: None, .. } => unreachable!(),
}
}
}
/// Builds a "call" shim for `instance`. The shim calls the function specified by `call_kind`,
/// first adjusting its first argument according to `rcvr_adjustment`.
#[instrument(level = "debug", skip(tcx), ret)]
fn build_call_shim<'tcx>(
tcx: TyCtxt<'tcx>,
instance: ty::InstanceDef<'tcx>,
rcvr_adjustment: Option<Adjustment>,
call_kind: CallKind<'tcx>,
) -> Body<'tcx> {
// `FnPtrShim` contains the fn pointer type that a call shim is being built for - this is used
// to substitute into the signature of the shim. It is not necessary for users of this
// MIR body to perform further substitutions (see `InstanceDef::has_polymorphic_mir_body`).
let (sig_substs, untuple_args) = if let ty::InstanceDef::FnPtrShim(_, ty) = instance {
let sig = tcx.erase_late_bound_regions(ty.fn_sig(tcx));
let untuple_args = sig.inputs();
// Create substitutions for the `Self` and `Args` generic parameters of the shim body.
let arg_tup = tcx.mk_tup(untuple_args.iter());
let sig_substs = tcx.mk_substs_trait(ty, [ty::subst::GenericArg::from(arg_tup)]);
(Some(sig_substs), Some(untuple_args))
} else {
(None, None)
};
let def_id = instance.def_id();
let sig = tcx.bound_fn_sig(def_id);
let sig = sig.map_bound(|sig| tcx.erase_late_bound_regions(sig));
assert_eq!(sig_substs.is_some(), !instance.has_polymorphic_mir_body());
let mut sig =
if let Some(sig_substs) = sig_substs { sig.subst(tcx, sig_substs) } else { sig.0 };
if let CallKind::Indirect(fnty) = call_kind {
// `sig` determines our local decls, and thus the callee type in the `Call` terminator. This
// can only be an `FnDef` or `FnPtr`, but currently will be `Self` since the types come from
// the implemented `FnX` trait.
// Apply the opposite adjustment to the MIR input.
let mut inputs_and_output = sig.inputs_and_output.to_vec();
// Initial signature is `fn(&? Self, Args) -> Self::Output` where `Args` is a tuple of the
// fn arguments. `Self` may be passed via (im)mutable reference or by-value.
assert_eq!(inputs_and_output.len(), 3);
// `Self` is always the original fn type `ty`. The MIR call terminator is only defined for
// `FnDef` and `FnPtr` callees, not the `Self` type param.
let self_arg = &mut inputs_and_output[0];
*self_arg = match rcvr_adjustment.unwrap() {
Adjustment::Identity => fnty,
Adjustment::Deref => tcx.mk_imm_ptr(fnty),
Adjustment::RefMut => tcx.mk_mut_ptr(fnty),
};
sig.inputs_and_output = tcx.intern_type_list(&inputs_and_output);
}
// FIXME(eddyb) avoid having this snippet both here and in
// `Instance::fn_sig` (introduce `InstanceDef::fn_sig`?).
if let ty::InstanceDef::VTableShim(..) = instance {
// Modify fn(self, ...) to fn(self: *mut Self, ...)
let mut inputs_and_output = sig.inputs_and_output.to_vec();
let self_arg = &mut inputs_and_output[0];
debug_assert!(tcx.generics_of(def_id).has_self && *self_arg == tcx.types.self_param);
*self_arg = tcx.mk_mut_ptr(*self_arg);
sig.inputs_and_output = tcx.intern_type_list(&inputs_and_output);
}
let span = tcx.def_span(def_id);
debug!(?sig);
let mut local_decls = local_decls_for_sig(&sig, span);
let source_info = SourceInfo::outermost(span);
let rcvr_place = || {
assert!(rcvr_adjustment.is_some());
Place::from(Local::new(1 + 0))
};
let mut statements = vec![];
let rcvr = rcvr_adjustment.map(|rcvr_adjustment| match rcvr_adjustment {
Adjustment::Identity => Operand::Move(rcvr_place()),
Adjustment::Deref => Operand::Move(tcx.mk_place_deref(rcvr_place())),
Adjustment::RefMut => {
// let rcvr = &mut rcvr;
let ref_rcvr = local_decls.push(
LocalDecl::new(
tcx.mk_ref(
tcx.lifetimes.re_erased,
ty::TypeAndMut { ty: sig.inputs()[0], mutbl: hir::Mutability::Mut },
),
span,
)
.immutable(),
);
let borrow_kind = BorrowKind::Mut { allow_two_phase_borrow: false };
statements.push(Statement {
source_info,
kind: StatementKind::Assign(Box::new((
Place::from(ref_rcvr),
Rvalue::Ref(tcx.lifetimes.re_erased, borrow_kind, rcvr_place()),
))),
});
Operand::Move(Place::from(ref_rcvr))
}
});
let (callee, mut args) = match call_kind {
// `FnPtr` call has no receiver. Args are untupled below.
CallKind::Indirect(_) => (rcvr.unwrap(), vec![]),
// `FnDef` call with optional receiver.
CallKind::Direct(def_id) => {
let ty = tcx.type_of(def_id);
(
Operand::Constant(Box::new(Constant {
span,
user_ty: None,
literal: ConstantKind::zero_sized(ty),
})),
rcvr.into_iter().collect::<Vec<_>>(),
)
}
};
let mut arg_range = 0..sig.inputs().len();
// Take the `self` ("receiver") argument out of the range (it's adjusted above).
if rcvr_adjustment.is_some() {
arg_range.start += 1;
}
// Take the last argument, if we need to untuple it (handled below).
if untuple_args.is_some() {
arg_range.end -= 1;
}
// Pass all of the non-special arguments directly.
args.extend(arg_range.map(|i| Operand::Move(Place::from(Local::new(1 + i)))));
// Untuple the last argument, if we have to.
if let Some(untuple_args) = untuple_args {
let tuple_arg = Local::new(1 + (sig.inputs().len() - 1));
args.extend(untuple_args.iter().enumerate().map(|(i, ity)| {
Operand::Move(tcx.mk_place_field(Place::from(tuple_arg), Field::new(i), *ity))
}));
}
let n_blocks = if let Some(Adjustment::RefMut) = rcvr_adjustment { 5 } else { 2 };
let mut blocks = IndexVec::with_capacity(n_blocks);
let block = |blocks: &mut IndexVec<_, _>, statements, kind, is_cleanup| {
blocks.push(BasicBlockData {
statements,
terminator: Some(Terminator { source_info, kind }),
is_cleanup,
})
};
// BB #0
block(
&mut blocks,
statements,
TerminatorKind::Call {
func: callee,
args,
destination: Place::return_place(),
target: Some(BasicBlock::new(1)),
cleanup: if let Some(Adjustment::RefMut) = rcvr_adjustment {
Some(BasicBlock::new(3))
} else {
None
},
from_hir_call: true,
fn_span: span,
},
false,
);
if let Some(Adjustment::RefMut) = rcvr_adjustment {
// BB #1 - drop for Self
block(
&mut blocks,
vec![],
TerminatorKind::Drop { place: rcvr_place(), target: BasicBlock::new(2), unwind: None },
false,
);
}
// BB #1/#2 - return
block(&mut blocks, vec![], TerminatorKind::Return, false);
if let Some(Adjustment::RefMut) = rcvr_adjustment {
// BB #3 - drop if closure panics
block(
&mut blocks,
vec![],
TerminatorKind::Drop { place: rcvr_place(), target: BasicBlock::new(4), unwind: None },
true,
);
// BB #4 - resume
block(&mut blocks, vec![], TerminatorKind::Resume, true);
}
let mut body =
new_body(MirSource::from_instance(instance), blocks, local_decls, sig.inputs().len(), span);
if let Abi::RustCall = sig.abi {
body.spread_arg = Some(Local::new(sig.inputs().len()));
}
body
}
pub fn build_adt_ctor(tcx: TyCtxt<'_>, ctor_id: DefId) -> Body<'_> {
debug_assert!(tcx.is_constructor(ctor_id));
let param_env = tcx.param_env(ctor_id);
// Normalize the sig.
let sig = tcx.fn_sig(ctor_id).no_bound_vars().expect("LBR in ADT constructor signature");
let sig = tcx.normalize_erasing_regions(param_env, sig);
let ty::Adt(adt_def, substs) = sig.output().kind() else {
bug!("unexpected type for ADT ctor {:?}", sig.output());
};
debug!("build_ctor: ctor_id={:?} sig={:?}", ctor_id, sig);
let span = tcx.def_span(ctor_id);
let local_decls = local_decls_for_sig(&sig, span);
let source_info = SourceInfo::outermost(span);
let variant_index = if adt_def.is_enum() {
adt_def.variant_index_with_ctor_id(ctor_id)
} else {
VariantIdx::new(0)
};
// Generate the following MIR:
//
// (return as Variant).field0 = arg0;
// (return as Variant).field1 = arg1;
//
// return;
debug!("build_ctor: variant_index={:?}", variant_index);
let statements = expand_aggregate(
Place::return_place(),
adt_def.variant(variant_index).fields.iter().enumerate().map(|(idx, field_def)| {
(Operand::Move(Place::from(Local::new(idx + 1))), field_def.ty(tcx, substs))
}),
AggregateKind::Adt(adt_def.did(), variant_index, substs, None, None),
source_info,
tcx,
)
.collect();
let start_block = BasicBlockData {
statements,
terminator: Some(Terminator { source_info, kind: TerminatorKind::Return }),
is_cleanup: false,
};
let source = MirSource::item(ctor_id);
let body = new_body(
source,
IndexVec::from_elem_n(start_block, 1),
local_decls,
sig.inputs().len(),
span,
);
crate::pass_manager::dump_mir_for_phase_change(tcx, &body);
body
}
|