rust/src/value_and_place.rs

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use crate::prelude::*;
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fn codegen_field<'tcx>(
fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
base: Value,
extra: Option<Value>,
layout: TyLayout<'tcx>,
field: mir::Field,
) -> (Value, TyLayout<'tcx>) {
let field_offset = layout.fields.offset(field.index());
let field_layout = layout.field(&*fx, field.index());
let simple = |fx: &mut FunctionCx<_>| {
if field_offset.bytes() > 0 {
(
fx.bcx.ins().iadd_imm(base, field_offset.bytes() as i64),
field_layout,
)
} else {
(base, field_layout)
}
};
if let Some(extra) = extra {
if !field_layout.is_unsized() {
return simple(fx);
}
match field_layout.ty.kind {
ty::Slice(..) | ty::Str | ty::Foreign(..) => return simple(fx),
ty::Adt(def, _) if def.repr.packed() => {
assert_eq!(layout.align.abi.bytes(), 1);
return simple(fx);
}
_ => {
// We have to align the offset for DST's
let unaligned_offset = field_offset.bytes();
let (_, unsized_align) = crate::unsize::size_and_align_of_dst(fx, field_layout.ty, extra);
let one = fx.bcx.ins().iconst(pointer_ty(fx.tcx), 1);
let align_sub_1 = fx.bcx.ins().isub(unsized_align, one);
let and_lhs = fx.bcx.ins().iadd_imm(align_sub_1, unaligned_offset as i64);
let zero = fx.bcx.ins().iconst(pointer_ty(fx.tcx), 0);
let and_rhs = fx.bcx.ins().isub(zero, unsized_align);
let offset = fx.bcx.ins().band(and_lhs, and_rhs);
(
fx.bcx.ins().iadd(base, offset),
field_layout,
)
}
}
} else {
simple(fx)
}
}
fn scalar_pair_calculate_b_offset(tcx: TyCtxt<'_>, a_scalar: &Scalar, b_scalar: &Scalar) -> i32 {
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let b_offset = a_scalar
.value
.size(&tcx)
.align_to(b_scalar.value.align(&tcx).abi);
b_offset.bytes().try_into().unwrap()
}
/// A read-only value
#[derive(Debug, Copy, Clone)]
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pub struct CValue<'tcx>(CValueInner, TyLayout<'tcx>);
#[derive(Debug, Copy, Clone)]
enum CValueInner {
ByRef(Value),
ByVal(Value),
ByValPair(Value, Value),
}
impl<'tcx> CValue<'tcx> {
pub fn by_ref(value: Value, layout: TyLayout<'tcx>) -> CValue<'tcx> {
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CValue(CValueInner::ByRef(value), layout)
}
pub fn by_val(value: Value, layout: TyLayout<'tcx>) -> CValue<'tcx> {
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CValue(CValueInner::ByVal(value), layout)
}
pub fn by_val_pair(value: Value, extra: Value, layout: TyLayout<'tcx>) -> CValue<'tcx> {
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CValue(CValueInner::ByValPair(value, extra), layout)
}
pub fn layout(&self) -> TyLayout<'tcx> {
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self.1
}
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pub fn force_stack<'a>(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>) -> Value {
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let layout = self.1;
match self.0 {
CValueInner::ByRef(value) => value,
CValueInner::ByVal(_) | CValueInner::ByValPair(_, _) => {
let cplace = CPlace::new_stack_slot(fx, layout.ty);
cplace.write_cvalue(fx, self);
cplace.to_addr(fx)
}
}
}
pub fn try_to_addr(self) -> Option<Value> {
match self.0 {
CValueInner::ByRef(addr) => Some(addr),
CValueInner::ByVal(_) | CValueInner::ByValPair(_, _) => None,
}
}
/// Load a value with layout.abi of scalar
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pub fn load_scalar<'a>(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>) -> Value {
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let layout = self.1;
match self.0 {
CValueInner::ByRef(addr) => {
let scalar = match layout.abi {
layout::Abi::Scalar(ref scalar) => scalar.clone(),
_ => unreachable!(),
};
let clif_ty = scalar_to_clif_type(fx.tcx, scalar);
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fx.bcx.ins().load(clif_ty, MemFlags::new(), addr, 0)
}
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CValueInner::ByVal(value) => value,
CValueInner::ByValPair(_, _) => bug!("Please use load_scalar_pair for ByValPair"),
}
}
/// Load a value pair with layout.abi of scalar pair
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pub fn load_scalar_pair<'a>(
self,
fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
) -> (Value, Value) {
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let layout = self.1;
match self.0 {
CValueInner::ByRef(addr) => {
let (a_scalar, b_scalar) = match &layout.abi {
layout::Abi::ScalarPair(a, b) => (a, b),
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_ => unreachable!("load_scalar_pair({:?})", self),
};
let b_offset = scalar_pair_calculate_b_offset(fx.tcx, a_scalar, b_scalar);
let clif_ty1 = scalar_to_clif_type(fx.tcx, a_scalar.clone());
let clif_ty2 = scalar_to_clif_type(fx.tcx, b_scalar.clone());
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let val1 = fx.bcx.ins().load(clif_ty1, MemFlags::new(), addr, 0);
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let val2 = fx.bcx.ins().load(clif_ty2, MemFlags::new(), addr, b_offset);
(val1, val2)
}
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CValueInner::ByVal(_) => bug!("Please use load_scalar for ByVal"),
CValueInner::ByValPair(val1, val2) => (val1, val2),
}
}
pub fn value_field<'a>(
self,
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
field: mir::Field,
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) -> CValue<'tcx> {
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let layout = self.1;
let base = match self.0 {
CValueInner::ByRef(addr) => addr,
_ => bug!("place_field for {:?}", self),
};
let (field_ptr, field_layout) = codegen_field(fx, base, None, layout, field);
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CValue::by_ref(field_ptr, field_layout)
}
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pub fn unsize_value<'a>(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>, dest: CPlace<'tcx>) {
crate::unsize::coerce_unsized_into(fx, self, dest);
}
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/// If `ty` is signed, `const_val` must already be sign extended.
pub fn const_val<'a>(
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
ty: Ty<'tcx>,
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const_val: u128,
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) -> CValue<'tcx> {
let clif_ty = fx.clif_type(ty).unwrap();
let layout = fx.layout_of(ty);
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let val = match ty.kind {
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ty::TyKind::Uint(UintTy::U128) | ty::TyKind::Int(IntTy::I128) => {
let lsb = fx.bcx.ins().iconst(types::I64, const_val as u64 as i64);
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let msb = fx
.bcx
.ins()
.iconst(types::I64, (const_val >> 64) as u64 as i64);
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fx.bcx.ins().iconcat(lsb, msb)
}
ty::TyKind::Bool => {
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assert!(
const_val == 0 || const_val == 1,
"Invalid bool 0x{:032X}",
const_val
);
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fx.bcx.ins().iconst(types::I8, const_val as i64)
}
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ty::TyKind::Uint(_) | ty::TyKind::Ref(..) | ty::TyKind::RawPtr(..) => fx
.bcx
.ins()
.iconst(clif_ty, u64::try_from(const_val).expect("uint") as i64),
ty::TyKind::Int(_) => fx.bcx.ins().iconst(clif_ty, const_val as i128 as i64),
_ => panic!(
"CValue::const_val for non bool/integer/pointer type {:?} is not allowed",
ty
),
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};
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CValue::by_val(val, layout)
}
pub fn unchecked_cast_to(self, layout: TyLayout<'tcx>) -> Self {
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CValue(self.0, layout)
}
}
/// A place where you can write a value to or read a value from
#[derive(Debug, Copy, Clone)]
pub struct CPlace<'tcx> {
inner: CPlaceInner,
layout: TyLayout<'tcx>,
}
#[derive(Debug, Copy, Clone)]
pub enum CPlaceInner {
Var(Local),
Addr(Value, Option<Value>),
Stack(StackSlot),
NoPlace,
}
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impl<'tcx> CPlace<'tcx> {
pub fn layout(&self) -> TyLayout<'tcx> {
self.layout
}
pub fn inner(&self) -> &CPlaceInner {
&self.inner
}
pub fn no_place(layout: TyLayout<'tcx>) -> CPlace<'tcx> {
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CPlace {
inner: CPlaceInner::NoPlace,
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layout,
}
}
pub fn new_stack_slot(
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
ty: Ty<'tcx>,
) -> CPlace<'tcx> {
let layout = fx.layout_of(ty);
assert!(!layout.is_unsized());
if layout.size.bytes() == 0 {
return CPlace {
inner: CPlaceInner::NoPlace,
layout,
};
}
let stack_slot = fx.bcx.create_stack_slot(StackSlotData {
kind: StackSlotKind::ExplicitSlot,
size: layout.size.bytes() as u32,
offset: None,
});
CPlace {
inner: CPlaceInner::Stack(stack_slot),
layout,
}
}
pub fn new_var(
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
local: Local,
layout: TyLayout<'tcx>,
) -> CPlace<'tcx> {
fx.bcx
.declare_var(mir_var(local), fx.clif_type(layout.ty).unwrap());
CPlace {
inner: CPlaceInner::Var(local),
layout,
}
}
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pub fn for_addr(addr: Value, layout: TyLayout<'tcx>) -> CPlace<'tcx> {
CPlace {
inner: CPlaceInner::Addr(addr, None),
layout,
}
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}
pub fn for_addr_with_extra(addr: Value, extra: Value, layout: TyLayout<'tcx>) -> CPlace<'tcx> {
CPlace {
inner: CPlaceInner::Addr(addr, Some(extra)),
layout,
}
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}
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pub fn to_cvalue(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>) -> CValue<'tcx> {
let layout = self.layout();
match self.inner {
CPlaceInner::Var(var) => CValue::by_val(fx.bcx.use_var(mir_var(var)), layout),
CPlaceInner::Addr(addr, extra) => {
assert!(extra.is_none(), "unsized values are not yet supported");
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CValue::by_ref(addr, layout)
}
CPlaceInner::Stack(stack_slot) => CValue::by_ref(
fx.bcx.ins().stack_addr(fx.pointer_type, stack_slot, 0),
layout,
),
CPlaceInner::NoPlace => CValue::by_ref(
fx.bcx
.ins()
.iconst(fx.pointer_type, fx.pointer_type.bytes() as i64),
layout,
),
}
}
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pub fn to_addr(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>) -> Value {
match self.to_addr_maybe_unsized(fx) {
(addr, None) => addr,
(_, Some(_)) => bug!("Expected sized cplace, found {:?}", self),
}
}
pub fn to_addr_maybe_unsized(
self,
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
) -> (Value, Option<Value>) {
match self.inner {
CPlaceInner::Addr(addr, extra) => (addr, extra),
CPlaceInner::Stack(stack_slot) => (
fx.bcx.ins().stack_addr(fx.pointer_type, stack_slot, 0),
None,
),
CPlaceInner::NoPlace => {
(
fx.bcx.ins().iconst(
fx.pointer_type,
i64::try_from(self.layout.align.pref.bytes()).unwrap(),
),
None
)
}
CPlaceInner::Var(_) => bug!("Expected CPlace::Addr, found CPlace::Var"),
}
}
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pub fn write_cvalue(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>, from: CValue<'tcx>) {
use rustc::hir::Mutability::*;
let from_ty = from.layout().ty;
let to_ty = self.layout().ty;
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fn assert_assignable<'tcx>(
fx: &FunctionCx<'_, 'tcx, impl Backend>,
from_ty: Ty<'tcx>,
to_ty: Ty<'tcx>,
) {
match (&from_ty.kind, &to_ty.kind) {
(ty::Ref(_, t, Immutable), ty::Ref(_, u, Immutable))
| (ty::Ref(_, t, Mutable), ty::Ref(_, u, Immutable))
| (ty::Ref(_, t, Mutable), ty::Ref(_, u, Mutable)) => {
assert_assignable(fx, t, u);
// &mut T -> &T is allowed
// &'a T -> &'b T is allowed
}
(ty::Ref(_, _, Immutable), ty::Ref(_, _, Mutable)) => panic!(
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"Cant assign value of type {} to place of type {}",
from_ty, to_ty
),
(ty::FnPtr(_), ty::FnPtr(_)) => {
let from_sig = fx.tcx.normalize_erasing_late_bound_regions(
ParamEnv::reveal_all(),
&from_ty.fn_sig(fx.tcx),
);
let to_sig = fx.tcx.normalize_erasing_late_bound_regions(
ParamEnv::reveal_all(),
&to_ty.fn_sig(fx.tcx),
);
assert_eq!(
from_sig, to_sig,
"Can't write fn ptr with incompatible sig {:?} to place with sig {:?}\n\n{:#?}",
from_sig, to_sig, fx,
);
// fn(&T) -> for<'l> fn(&'l T) is allowed
}
(ty::Dynamic(from_traits, _), ty::Dynamic(to_traits, _)) => {
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let from_traits = fx
.tcx
.normalize_erasing_late_bound_regions(ParamEnv::reveal_all(), from_traits);
let to_traits = fx
.tcx
.normalize_erasing_late_bound_regions(ParamEnv::reveal_all(), to_traits);
assert_eq!(
from_traits, to_traits,
"Can't write trait object of incompatible traits {:?} to place with traits {:?}\n\n{:#?}",
from_traits, to_traits, fx,
);
// dyn for<'r> Trait<'r> -> dyn Trait<'_> is allowed
}
_ => {
assert_eq!(
from_ty,
to_ty,
"Can't write value with incompatible type {:?} to place with type {:?}\n\n{:#?}",
from_ty,
to_ty,
fx,
);
}
}
}
assert_assignable(fx, from_ty, to_ty);
let dst_layout = self.layout();
let addr = match self.inner {
CPlaceInner::Var(var) => {
let data = from.load_scalar(fx);
fx.bcx.def_var(mir_var(var), data);
return;
}
CPlaceInner::Addr(addr, None) => addr,
CPlaceInner::Stack(stack_slot) => {
fx.bcx.ins().stack_addr(fx.pointer_type, stack_slot, 0)
}
CPlaceInner::NoPlace => {
if dst_layout.abi != Abi::Uninhabited {
assert_eq!(dst_layout.size.bytes(), 0, "{:?}", dst_layout);
}
return;
}
CPlaceInner::Addr(_, Some(_)) => bug!("Can't write value to unsized place {:?}", self),
};
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match from.0 {
CValueInner::ByVal(val) => {
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fx.bcx.ins().store(MemFlags::new(), val, addr, 0);
}
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CValueInner::ByValPair(value, extra) => match dst_layout.abi {
Abi::ScalarPair(ref a_scalar, ref b_scalar) => {
let b_offset = scalar_pair_calculate_b_offset(fx.tcx, a_scalar, b_scalar);
fx.bcx.ins().store(MemFlags::new(), value, addr, 0);
fx.bcx.ins().store(MemFlags::new(), extra, addr, b_offset);
}
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_ => bug!(
"Non ScalarPair abi {:?} for ByValPair CValue",
dst_layout.abi
),
},
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CValueInner::ByRef(from_addr) => {
let src_layout = from.1;
let size = dst_layout.size.bytes();
let src_align = src_layout.align.abi.bytes() as u8;
let dst_align = dst_layout.align.abi.bytes() as u8;
fx.bcx.emit_small_memcpy(
fx.module.target_config(),
addr,
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from_addr,
size,
dst_align,
src_align,
);
}
}
}
pub fn place_field(
self,
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
field: mir::Field,
) -> CPlace<'tcx> {
let layout = self.layout();
let (base, extra) = self.to_addr_maybe_unsized(fx);
let (field_ptr, field_layout) = codegen_field(fx, base, extra, layout, field);
if field_layout.is_unsized() {
CPlace::for_addr_with_extra(field_ptr, extra.unwrap(), field_layout)
} else {
CPlace::for_addr(field_ptr, field_layout)
}
}
pub fn place_index(
self,
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fx: &mut FunctionCx<'_, 'tcx, impl Backend>,
index: Value,
) -> CPlace<'tcx> {
let (elem_layout, addr) = match self.layout().ty.kind {
ty::Array(elem_ty, _) => (fx.layout_of(elem_ty), self.to_addr(fx)),
ty::Slice(elem_ty) => (fx.layout_of(elem_ty), self.to_addr_maybe_unsized(fx).0),
_ => bug!("place_index({:?})", self.layout().ty),
};
let offset = fx
.bcx
.ins()
.imul_imm(index, elem_layout.size.bytes() as i64);
CPlace::for_addr(fx.bcx.ins().iadd(addr, offset), elem_layout)
}
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pub fn place_deref(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>) -> CPlace<'tcx> {
let inner_layout = fx.layout_of(self.layout().ty.builtin_deref(true).unwrap().ty);
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if has_ptr_meta(fx.tcx, inner_layout.ty) {
let (addr, extra) = self.to_cvalue(fx).load_scalar_pair(fx);
CPlace::for_addr_with_extra(addr, extra, inner_layout)
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} else {
CPlace::for_addr(self.to_cvalue(fx).load_scalar(fx), inner_layout)
}
}
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pub fn write_place_ref(self, fx: &mut FunctionCx<'_, 'tcx, impl Backend>, dest: CPlace<'tcx>) {
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if has_ptr_meta(fx.tcx, self.layout().ty) {
let (value, extra) = self.to_addr_maybe_unsized(fx);
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let ptr = CValue::by_val_pair(
value,
extra.expect("unsized type without metadata"),
dest.layout(),
);
dest.write_cvalue(fx, ptr);
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} else {
let ptr = CValue::by_val(self.to_addr(fx), dest.layout());
dest.write_cvalue(fx, ptr);
}
}
pub fn unchecked_cast_to(self, layout: TyLayout<'tcx>) -> Self {
assert!(!self.layout().is_unsized());
match self.inner {
CPlaceInner::NoPlace => {
assert!(layout.size.bytes() == 0);
}
_ => {}
}
CPlace {
inner: self.inner,
layout,
}
}
pub fn downcast_variant(
self,
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fx: &FunctionCx<'_, 'tcx, impl Backend>,
variant: VariantIdx,
) -> Self {
let layout = self.layout().for_variant(fx, variant);
self.unchecked_cast_to(layout)
}
}