place.rs 47.0 KB
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//! Computations on places -- field projections, going from mir::Place, and writing
//! into a place.
//! All high-level functions to write to memory work on places as destinations.

use std::convert::TryFrom;
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use std::hash::Hash;
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use rustc::mir;
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use rustc::mir::interpret::truncate;
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use rustc::ty::layout::{
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    self, Align, HasDataLayout, LayoutOf, PrimitiveExt, Size, TyLayout, VariantIdx,
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};
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use rustc::ty::{self, Ty};
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use rustc_macros::HashStable;
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use super::{
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    AllocId, AllocMap, Allocation, AllocationExtra, ImmTy, Immediate, InterpCx, InterpResult,
    LocalValue, Machine, MemoryKind, OpTy, Operand, Pointer, PointerArithmetic, RawConst, Scalar,
    ScalarMaybeUndef,
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};

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#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq, HashStable)]
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/// Information required for the sound usage of a `MemPlace`.
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pub enum MemPlaceMeta<Tag = (), Id = AllocId> {
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    /// The unsized payload (e.g. length for slices or vtable pointer for trait objects).
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    Meta(Scalar<Tag, Id>),
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    /// `Sized` types or unsized `extern type`
    None,
    /// The address of this place may not be taken. This protects the `MemPlace` from coming from
    /// a ZST Operand with a backing allocation and being converted to an integer address. This
    /// should be impossible, because you can't take the address of an operand, but this is a second
    /// protection layer ensuring that we don't mess up.
    Poison,
}

impl<Tag, Id> MemPlaceMeta<Tag, Id> {
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    pub fn unwrap_meta(self) -> Scalar<Tag, Id> {
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        match self {
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            Self::Meta(s) => s,
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            Self::None | Self::Poison => {
                bug!("expected wide pointer extra data (e.g. slice length or trait object vtable)")
            }
        }
    }
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    fn has_meta(self) -> bool {
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        match self {
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            Self::Meta(_) => true,
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            Self::None | Self::Poison => false,
        }
    }
}

impl<Tag> MemPlaceMeta<Tag> {
    pub fn erase_tag(self) -> MemPlaceMeta<()> {
        match self {
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            Self::Meta(s) => MemPlaceMeta::Meta(s.erase_tag()),
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            Self::None => MemPlaceMeta::None,
            Self::Poison => MemPlaceMeta::Poison,
        }
    }
}

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#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq, HashStable)]
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pub struct MemPlace<Tag = (), Id = AllocId> {
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    /// A place may have an integral pointer for ZSTs, and since it might
    /// be turned back into a reference before ever being dereferenced.
    /// However, it may never be undef.
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    pub ptr: Scalar<Tag, Id>,
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    pub align: Align,
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    /// Metadata for unsized places. Interpretation is up to the type.
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    /// Must not be present for sized types, but can be missing for unsized types
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    /// (e.g., `extern type`).
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    pub meta: MemPlaceMeta<Tag, Id>,
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}
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#[derive(Copy, Clone, Debug, Hash, PartialEq, Eq, HashStable)]
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pub enum Place<Tag = (), Id = AllocId> {
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    /// A place referring to a value allocated in the `Memory` system.
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    Ptr(MemPlace<Tag, Id>),
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    /// To support alloc-free locals, we are able to write directly to a local.
    /// (Without that optimization, we'd just always be a `MemPlace`.)
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    Local { frame: usize, local: mir::Local },
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}

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#[derive(Copy, Clone, Debug)]
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pub struct PlaceTy<'tcx, Tag = ()> {
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    place: Place<Tag>, // Keep this private; it helps enforce invariants.
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    pub layout: TyLayout<'tcx>,
}

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impl<'tcx, Tag> ::std::ops::Deref for PlaceTy<'tcx, Tag> {
    type Target = Place<Tag>;
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    #[inline(always)]
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    fn deref(&self) -> &Place<Tag> {
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        &self.place
    }
}

/// A MemPlace with its layout. Constructing it is only possible in this module.
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#[derive(Copy, Clone, Debug, Hash, Eq, PartialEq)]
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pub struct MPlaceTy<'tcx, Tag = ()> {
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    mplace: MemPlace<Tag>,
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    pub layout: TyLayout<'tcx>,
}

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impl<'tcx, Tag> ::std::ops::Deref for MPlaceTy<'tcx, Tag> {
    type Target = MemPlace<Tag>;
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    #[inline(always)]
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    fn deref(&self) -> &MemPlace<Tag> {
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        &self.mplace
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    }
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}

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impl<'tcx, Tag> From<MPlaceTy<'tcx, Tag>> for PlaceTy<'tcx, Tag> {
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    #[inline(always)]
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    fn from(mplace: MPlaceTy<'tcx, Tag>) -> Self {
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        PlaceTy { place: Place::Ptr(mplace.mplace), layout: mplace.layout }
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    }
}
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impl<Tag> MemPlace<Tag> {
    /// Replace ptr tag, maintain vtable tag (if any)
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    #[inline]
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    pub fn replace_tag(self, new_tag: Tag) -> Self {
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        MemPlace { ptr: self.ptr.erase_tag().with_tag(new_tag), align: self.align, meta: self.meta }
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    }

    #[inline]
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    pub fn erase_tag(self) -> MemPlace {
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        MemPlace { ptr: self.ptr.erase_tag(), align: self.align, meta: self.meta.erase_tag() }
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    }

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    #[inline(always)]
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    fn from_scalar_ptr(ptr: Scalar<Tag>, align: Align) -> Self {
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        MemPlace { ptr, align, meta: MemPlaceMeta::None }
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    }

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    /// Produces a Place that will error if attempted to be read from or written to
    #[inline(always)]
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    fn null(cx: &impl HasDataLayout) -> Self {
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        Self::from_scalar_ptr(Scalar::ptr_null(cx), Align::from_bytes(1).unwrap())
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    }

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    #[inline(always)]
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    pub fn from_ptr(ptr: Pointer<Tag>, align: Align) -> Self {
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        Self::from_scalar_ptr(ptr.into(), align)
    }

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    /// Turn a mplace into a (thin or wide) pointer, as a reference, pointing to the same space.
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    /// This is the inverse of `ref_to_mplace`.
    #[inline(always)]
    pub fn to_ref(self) -> Immediate<Tag> {
        match self.meta {
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            MemPlaceMeta::None => Immediate::Scalar(self.ptr.into()),
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            MemPlaceMeta::Meta(meta) => Immediate::ScalarPair(self.ptr.into(), meta.into()),
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            MemPlaceMeta::Poison => bug!(
                "MPlaceTy::dangling may never be used to produce a \
                place that will have the address of its pointee taken"
            ),
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        }
    }
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    pub fn offset(
        self,
        offset: Size,
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        meta: MemPlaceMeta<Tag>,
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        cx: &impl HasDataLayout,
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    ) -> InterpResult<'tcx, Self> {
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        Ok(MemPlace {
            ptr: self.ptr.ptr_offset(offset, cx)?,
            align: self.align.restrict_for_offset(offset),
            meta,
        })
    }
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}

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impl<'tcx, Tag> MPlaceTy<'tcx, Tag> {
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    /// Produces a MemPlace that works for ZST but nothing else
    #[inline]
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    pub fn dangling(layout: TyLayout<'tcx>, cx: &impl HasDataLayout) -> Self {
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        let align = layout.align.abi;
        let ptr = Scalar::from_uint(align.bytes(), cx.pointer_size());
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        // `Poison` this to make sure that the pointer value `ptr` is never observable by the program.
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        MPlaceTy { mplace: MemPlace { ptr, align, meta: MemPlaceMeta::Poison }, layout }
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    }

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    /// Replace ptr tag, maintain vtable tag (if any)
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    #[inline]
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    pub fn replace_tag(self, new_tag: Tag) -> Self {
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        MPlaceTy { mplace: self.mplace.replace_tag(new_tag), layout: self.layout }
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    }

    #[inline]
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    pub fn offset(
        self,
        offset: Size,
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        meta: MemPlaceMeta<Tag>,
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        layout: TyLayout<'tcx>,
        cx: &impl HasDataLayout,
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    ) -> InterpResult<'tcx, Self> {
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        Ok(MPlaceTy { mplace: self.mplace.offset(offset, meta, cx)?, layout })
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    }

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    #[inline]
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    fn from_aligned_ptr(ptr: Pointer<Tag>, layout: TyLayout<'tcx>) -> Self {
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        MPlaceTy { mplace: MemPlace::from_ptr(ptr, layout.align.abi), layout }
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    }

    #[inline]
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    pub(super) fn len(self, cx: &impl HasDataLayout) -> InterpResult<'tcx, u64> {
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        if self.layout.is_unsized() {
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            // We need to consult `meta` metadata
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            match self.layout.ty.kind {
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                ty::Slice(..) | ty::Str => {
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                    return self.mplace.meta.unwrap_meta().to_machine_usize(cx);
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                }
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                _ => bug!("len not supported on unsized type {:?}", self.layout.ty),
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            }
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        } else {
            // Go through the layout.  There are lots of types that support a length,
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            // e.g., SIMD types.
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            match self.layout.fields {
                layout::FieldPlacement::Array { count, .. } => Ok(count),
                _ => bug!("len not supported on sized type {:?}", self.layout.ty),
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            }
        }
    }

    #[inline]
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    pub(super) fn vtable(self) -> Scalar<Tag> {
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        match self.layout.ty.kind {
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            ty::Dynamic(..) => self.mplace.meta.unwrap_meta(),
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            _ => bug!("vtable not supported on type {:?}", self.layout.ty),
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        }
    }
}

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// These are defined here because they produce a place.
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impl<'tcx, Tag: ::std::fmt::Debug + Copy> OpTy<'tcx, Tag> {
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    #[inline(always)]
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    /// Note: do not call `as_ref` on the resulting place. This function should only be used to
    /// read from the resulting mplace, not to get its address back.
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    pub fn try_as_mplace(
        self,
        cx: &impl HasDataLayout,
    ) -> Result<MPlaceTy<'tcx, Tag>, ImmTy<'tcx, Tag>> {
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        match *self {
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            Operand::Indirect(mplace) => Ok(MPlaceTy { mplace, layout: self.layout }),
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            Operand::Immediate(_) if self.layout.is_zst() => {
                Ok(MPlaceTy::dangling(self.layout, cx))
            }
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            Operand::Immediate(imm) => Err(ImmTy { imm, layout: self.layout }),
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        }
    }

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    #[inline(always)]
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    /// Note: do not call `as_ref` on the resulting place. This function should only be used to
    /// read from the resulting mplace, not to get its address back.
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    pub fn assert_mem_place(self, cx: &impl HasDataLayout) -> MPlaceTy<'tcx, Tag> {
        self.try_as_mplace(cx).unwrap()
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    }
}

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impl<Tag: ::std::fmt::Debug> Place<Tag> {
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    /// Produces a Place that will error if attempted to be read from or written to
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    #[inline(always)]
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    fn null(cx: &impl HasDataLayout) -> Self {
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        Place::Ptr(MemPlace::null(cx))
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    }

    #[inline]
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    pub fn assert_mem_place(self) -> MemPlace<Tag> {
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        match self {
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            Place::Ptr(mplace) => mplace,
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            _ => bug!("assert_mem_place: expected Place::Ptr, got {:?}", self),
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        }
    }
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}
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impl<'tcx, Tag: ::std::fmt::Debug> PlaceTy<'tcx, Tag> {
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    #[inline]
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    pub fn assert_mem_place(self) -> MPlaceTy<'tcx, Tag> {
        MPlaceTy { mplace: self.place.assert_mem_place(), layout: self.layout }
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    }
}

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// separating the pointer tag for `impl Trait`, see https://github.com/rust-lang/rust/issues/54385
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impl<'mir, 'tcx, Tag, M> InterpCx<'mir, 'tcx, M>
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where
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    // FIXME: Working around https://github.com/rust-lang/rust/issues/54385
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    Tag: ::std::fmt::Debug + Copy + Eq + Hash + 'static,
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    M: Machine<'mir, 'tcx, PointerTag = Tag>,
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    // FIXME: Working around https://github.com/rust-lang/rust/issues/24159
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    M::MemoryMap: AllocMap<AllocId, (MemoryKind<M::MemoryKinds>, Allocation<Tag, M::AllocExtra>)>,
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    M::AllocExtra: AllocationExtra<Tag>,
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{
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    /// Take a value, which represents a (thin or wide) reference, and make it a place.
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    /// Alignment is just based on the type.  This is the inverse of `MemPlace::to_ref()`.
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    ///
    /// Only call this if you are sure the place is "valid" (aligned and inbounds), or do not
    /// want to ever use the place for memory access!
    /// Generally prefer `deref_operand`.
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    pub fn ref_to_mplace(
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        &self,
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        val: ImmTy<'tcx, M::PointerTag>,
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    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        let pointee_type =
            val.layout.ty.builtin_deref(true).expect("`ref_to_mplace` called on non-ptr type").ty;
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        let layout = self.layout_of(pointee_type)?;
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        let (ptr, meta) = match *val {
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            Immediate::Scalar(ptr) => (ptr.not_undef()?, MemPlaceMeta::None),
            Immediate::ScalarPair(ptr, meta) => {
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                (ptr.not_undef()?, MemPlaceMeta::Meta(meta.not_undef()?))
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            }
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        };
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        let mplace = MemPlace {
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            ptr,
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            // We could use the run-time alignment here. For now, we do not, because
            // the point of tracking the alignment here is to make sure that the *static*
            // alignment information emitted with the loads is correct. The run-time
            // alignment can only be more restrictive.
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            align: layout.align.abi,
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            meta,
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        };
        Ok(MPlaceTy { mplace, layout })
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    }

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    /// Take an operand, representing a pointer, and dereference it to a place -- that
    /// will always be a MemPlace.  Lives in `place.rs` because it creates a place.
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    pub fn deref_operand(
        &self,
        src: OpTy<'tcx, M::PointerTag>,
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    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        let val = self.read_immediate(src)?;
        trace!("deref to {} on {:?}", val.layout.ty, *val);
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        let place = self.ref_to_mplace(val)?;
        self.mplace_access_checked(place)
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    }

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    /// Check if the given place is good for memory access with the given
    /// size, falling back to the layout's size if `None` (in the latter case,
    /// this must be a statically sized type).
    ///
    /// On success, returns `None` for zero-sized accesses (where nothing else is
    /// left to do) and a `Pointer` to use for the actual access otherwise.
    #[inline]
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    pub(super) fn check_mplace_access(
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        &self,
        place: MPlaceTy<'tcx, M::PointerTag>,
        size: Option<Size>,
    ) -> InterpResult<'tcx, Option<Pointer<M::PointerTag>>> {
        let size = size.unwrap_or_else(|| {
            assert!(!place.layout.is_unsized());
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            assert!(!place.meta.has_meta());
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            place.layout.size
        });
        self.memory.check_ptr_access(place.ptr, size, place.align)
    }

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    /// Return the "access-checked" version of this `MPlace`, where for non-ZST
    /// this is definitely a `Pointer`.
    pub fn mplace_access_checked(
        &self,
        mut place: MPlaceTy<'tcx, M::PointerTag>,
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        let (size, align) = self
            .size_and_align_of_mplace(place)?
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            .unwrap_or((place.layout.size, place.layout.align.abi));
        assert!(place.mplace.align <= align, "dynamic alignment less strict than static one?");
        place.mplace.align = align; // maximally strict checking
        // When dereferencing a pointer, it must be non-NULL, aligned, and live.
        if let Some(ptr) = self.check_mplace_access(place, Some(size))? {
            place.mplace.ptr = ptr.into();
        }
        Ok(place)
    }

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    /// Force `place.ptr` to a `Pointer`.
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    /// Can be helpful to avoid lots of `force_ptr` calls later, if this place is used a lot.
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    pub(super) fn force_mplace_ptr(
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        &self,
        mut place: MPlaceTy<'tcx, M::PointerTag>,
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        place.mplace.ptr = self.force_ptr(place.mplace.ptr)?.into();
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        Ok(place)
    }

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    /// Offset a pointer to project to a field. Unlike `place_field`, this is always
    /// possible without allocating, so it can take `&self`. Also return the field's layout.
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    /// This supports both struct and array fields.
    #[inline(always)]
    pub fn mplace_field(
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        &self,
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        base: MPlaceTy<'tcx, M::PointerTag>,
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        field: u64,
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    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        // Not using the layout method because we want to compute on u64
        let offset = match base.layout.fields {
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            layout::FieldPlacement::Arbitrary { ref offsets, .. } => {
                offsets[usize::try_from(field).unwrap()]
            }
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            layout::FieldPlacement::Array { stride, .. } => {
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                let len = base.len(self)?;
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                if field >= len {
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                    // This can only be reached in ConstProp and non-rustc-MIR.
                    throw_ub!(BoundsCheckFailed { len, index: field });
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                }
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                stride * field
            }
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            layout::FieldPlacement::Union(count) => {
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                // This is a narrow bug-fix for rust-lang/rust#69191: if we are
                // trying to access absent field of uninhabited variant, then
                // signal UB (but don't ICE the compiler).
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                // FIXME temporary hack to work around incoherence between
                // layout computation and MIR building
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                if field >= count as u64 && base.layout.abi == layout::Abi::Uninhabited {
                    throw_ub!(Unreachable);
                }
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                assert!(
                    field < count as u64,
                    "Tried to access field {} of union {:#?} with {} fields",
                    field,
                    base.layout,
                    count
                );
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                // Offset is always 0
                Size::from_bytes(0)
            }
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        };
        // the only way conversion can fail if is this is an array (otherwise we already panicked
        // above). In that case, all fields are equal.
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        let field_layout = base.layout.field(self, usize::try_from(field).unwrap_or(0))?;
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        // Offset may need adjustment for unsized fields.
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        let (meta, offset) = if field_layout.is_unsized() {
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            // Re-use parent metadata to determine dynamic field layout.
            // With custom DSTS, this *will* execute user-defined code, but the same
            // happens at run-time so that's okay.
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            let align = match self.size_and_align_of(base.meta, field_layout)? {
                Some((_, align)) => align,
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                None if offset == Size::ZERO => {
                    // An extern type at offset 0, we fall back to its static alignment.
                    // FIXME: Once we have made decisions for how to handle size and alignment
                    // of `extern type`, this should be adapted.  It is just a temporary hack
                    // to get some code to work that probably ought to work.
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                    field_layout.align.abi
                }
                None => bug!("Cannot compute offset for extern type field at non-0 offset"),
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            };
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            (base.meta, offset.align_to(align))
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        } else {
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            // base.meta could be present; we might be accessing a sized field of an unsized
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            // struct.
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            (MemPlaceMeta::None, offset)
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        };

459 460 461
        // We do not look at `base.layout.align` nor `field_layout.align`, unlike
        // codegen -- mostly to see if we can get away with that
        base.offset(offset, meta, field_layout, self)
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    }

464 465
    // Iterates over all fields of an array. Much more efficient than doing the
    // same by repeatedly calling `mplace_array`.
466
    pub(super) fn mplace_array_fields(
467
        &self,
468
        base: MPlaceTy<'tcx, Tag>,
469
    ) -> InterpResult<'tcx, impl Iterator<Item = InterpResult<'tcx, MPlaceTy<'tcx, Tag>>> + 'tcx>
470
    {
471
        let len = base.len(self)?; // also asserts that we have a type where this makes sense
472 473 474 475 476 477
        let stride = match base.layout.fields {
            layout::FieldPlacement::Array { stride, .. } => stride,
            _ => bug!("mplace_array_fields: expected an array layout"),
        };
        let layout = base.layout.field(self, 0)?;
        let dl = &self.tcx.data_layout;
478
        Ok((0..len).map(move |i| base.offset(i * stride, MemPlaceMeta::None, layout, dl)))
479 480
    }

481
    fn mplace_subslice(
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        &self,
483
        base: MPlaceTy<'tcx, M::PointerTag>,
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        from: u64,
        to: u64,
486
        from_end: bool,
487
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
488
        let len = base.len(self)?; // also asserts that we have a type where this makes sense
489
        let actual_to = if from_end {
490 491 492 493
            if from + to > len {
                // This can only be reached in ConstProp and non-rustc-MIR.
                throw_ub!(BoundsCheckFailed { len: len as u64, index: from as u64 + to as u64 });
            }
494 495 496 497
            len - to
        } else {
            to
        };
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        // Not using layout method because that works with usize, and does not work with slices
        // (that have count 0 in their layout).
        let from_offset = match base.layout.fields {
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            layout::FieldPlacement::Array { stride, .. } => stride * from,
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            _ => bug!("Unexpected layout of index access: {:#?}", base.layout),
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        };
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        // Compute meta and new layout
507
        let inner_len = actual_to - from;
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        let (meta, ty) = match base.layout.ty.kind {
R
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            // It is not nice to match on the type, but that seems to be the only way to
            // implement this.
511
            ty::Array(inner, _) => (MemPlaceMeta::None, self.tcx.mk_array(inner, inner_len)),
512
            ty::Slice(..) => {
513
                let len = Scalar::from_uint(inner_len, self.pointer_size());
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                (MemPlaceMeta::Meta(len), base.layout.ty)
515
            }
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            _ => bug!("cannot subslice non-array type: `{:?}`", base.layout.ty),
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        };
        let layout = self.layout_of(ty)?;
519
        base.offset(from_offset, meta, layout, self)
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    }

522
    pub(super) fn mplace_downcast(
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        &self,
524
        base: MPlaceTy<'tcx, M::PointerTag>,
525
        variant: VariantIdx,
526
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
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        // Downcasts only change the layout
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        assert!(!base.meta.has_meta());
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        Ok(MPlaceTy { layout: base.layout.for_variant(self, variant), ..base })
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    }

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    /// Project into an mplace
533
    pub(super) fn mplace_projection(
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        &self,
535
        base: MPlaceTy<'tcx, M::PointerTag>,
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        proj_elem: &mir::PlaceElem<'tcx>,
537
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
538
        use rustc::mir::ProjectionElem::*;
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        Ok(match *proj_elem {
            Field(field, _) => self.mplace_field(base, field.index() as u64)?,
            Downcast(_, variant) => self.mplace_downcast(base, variant)?,
            Deref => self.deref_operand(base.into())?,

            Index(local) => {
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                let layout = self.layout_of(self.tcx.types.usize)?;
546 547
                let n = self.access_local(self.frame(), local, Some(layout))?;
                let n = self.read_scalar(n)?;
548
                let n = self.force_bits(n.not_undef()?, self.tcx.data_layout.pointer_size)?;
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                self.mplace_field(base, u64::try_from(n).unwrap())?
            }

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            ConstantIndex { offset, min_length, from_end } => {
553
                let n = base.len(self)?;
554 555 556 557
                if n < min_length as u64 {
                    // This can only be reached in ConstProp and non-rustc-MIR.
                    throw_ub!(BoundsCheckFailed { len: min_length as u64, index: n as u64 });
                }
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                let index = if from_end {
560
                    assert!(0 < offset && offset - 1 < min_length);
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                    n - u64::from(offset)
                } else {
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                    assert!(offset < min_length);
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                    u64::from(offset)
                };

                self.mplace_field(base, index)?
            }

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            Subslice { from, to, from_end } => {
                self.mplace_subslice(base, u64::from(from), u64::from(to), from_end)?
            }
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        })
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    }

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    /// Gets the place of a field inside the place, and also the field's type.
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    /// Just a convenience function, but used quite a bit.
578 579
    /// This is the only projection that might have a side-effect: We cannot project
    /// into the field of a local `ScalarPair`, we have to first allocate it.
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    pub fn place_field(
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        &mut self,
582
        base: PlaceTy<'tcx, M::PointerTag>,
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        field: u64,
584
    ) -> InterpResult<'tcx, PlaceTy<'tcx, M::PointerTag>> {
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        // FIXME: We could try to be smarter and avoid allocation for fields that span the
        // entire place.
        let mplace = self.force_allocation(base)?;
        Ok(self.mplace_field(mplace, field)?.into())
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    }

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    pub fn place_downcast(
592
        &self,
593
        base: PlaceTy<'tcx, M::PointerTag>,
594
        variant: VariantIdx,
595
    ) -> InterpResult<'tcx, PlaceTy<'tcx, M::PointerTag>> {
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        // Downcast just changes the layout
        Ok(match base.place {
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            Place::Ptr(mplace) => {
                self.mplace_downcast(MPlaceTy { mplace, layout: base.layout }, variant)?.into()
            }
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            Place::Local { .. } => {
602
                let layout = base.layout.for_variant(self, variant);
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                PlaceTy { layout, ..base }
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            }
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        })
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    }

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    /// Projects into a place.
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    pub fn place_projection(
        &mut self,
611
        base: PlaceTy<'tcx, M::PointerTag>,
612
        proj_elem: &mir::ProjectionElem<mir::Local, Ty<'tcx>>,
613
    ) -> InterpResult<'tcx, PlaceTy<'tcx, M::PointerTag>> {
R
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        use rustc::mir::ProjectionElem::*;
        Ok(match *proj_elem {
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            Field(field, _) => self.place_field(base, field.index() as u64)?,
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            Downcast(_, variant) => self.place_downcast(base, variant)?,
            Deref => self.deref_operand(self.place_to_op(base)?)?.into(),
            // For the other variants, we have to force an allocation.
            // This matches `operand_projection`.
            Subslice { .. } | ConstantIndex { .. } | Index(_) => {
                let mplace = self.force_allocation(base)?;
                self.mplace_projection(mplace, proj_elem)?.into()
            }
        })
    }

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    /// Computes a place. You should only use this if you intend to write into this
629
    /// place; for reading, a more efficient alternative is `eval_place_for_read`.
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    pub fn eval_place(
        &mut self,
632
        place: &mir::Place<'tcx>,
633
    ) -> InterpResult<'tcx, PlaceTy<'tcx, M::PointerTag>> {
634 635
        let mut place_ty = match place.local {
            mir::RETURN_PLACE => {
636 637 638 639 640 641
                // `return_place` has the *caller* layout, but we want to use our
                // `layout to verify our assumption. The caller will validate
                // their layout on return.
                PlaceTy {
                    place: match self.frame().return_place {
                        Some(p) => *p,
R
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                        // Even if we don't have a return place, we sometimes need to
                        // create this place, but any attempt to read from / write to it
                        // (even a ZST read/write) needs to error, so let us make this
                        // a NULL place.
                        //
                        // FIXME: Ideally we'd make sure that the place projections also
                        // bail out.
649 650
                        None => Place::null(&*self),
                    },
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                    layout: self.layout_of(self.subst_from_frame_and_normalize_erasing_regions(
                        self.frame().body.return_ty(),
                    ))?,
654
                }
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            }
656
            local => PlaceTy {
657
                // This works even for dead/uninitialized locals; we check further when writing
658
                place: Place::Local { frame: self.cur_frame(), local },
659
                layout: self.layout_of_local(self.frame(), local, None)?,
660 661
            },
        };
662

663 664 665
        for elem in place.projection.iter() {
            place_ty = self.place_projection(place_ty, elem)?
        }
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667 668
        self.dump_place(place_ty.place);
        Ok(place_ty)
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    }

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    /// Write a scalar to a place
672
    #[inline(always)]
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    pub fn write_scalar(
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        &mut self,
675 676
        val: impl Into<ScalarMaybeUndef<M::PointerTag>>,
        dest: PlaceTy<'tcx, M::PointerTag>,
677
    ) -> InterpResult<'tcx> {
678
        self.write_immediate(Immediate::Scalar(val.into()), dest)
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    }
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680

681
    /// Write an immediate to a place
682
    #[inline(always)]
683
    pub fn write_immediate(
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684
        &mut self,
685
        src: Immediate<M::PointerTag>,
686
        dest: PlaceTy<'tcx, M::PointerTag>,
687
    ) -> InterpResult<'tcx> {
688
        self.write_immediate_no_validate(src, dest)?;
689

R
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690
        if M::enforce_validity(self) {
691
            // Data got changed, better make sure it matches the type!
692
            self.validate_operand(self.place_to_op(dest)?)?;
693 694
        }

695 696 697
        Ok(())
    }

W
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    /// Write an `Immediate` to memory.
    #[inline(always)]
    pub fn write_immediate_to_mplace(
        &mut self,
        src: Immediate<M::PointerTag>,
        dest: MPlaceTy<'tcx, M::PointerTag>,
R
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704
    ) -> InterpResult<'tcx> {
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        self.write_immediate_to_mplace_no_validate(src, dest)?;

        if M::enforce_validity(self) {
            // Data got changed, better make sure it matches the type!
709
            self.validate_operand(dest.into())?;
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        }

        Ok(())
    }

715
    /// Write an immediate to a place.
716 717
    /// If you use this you are responsible for validating that things got copied at the
    /// right type.
718
    fn write_immediate_no_validate(
719
        &mut self,
720
        src: Immediate<M::PointerTag>,
721
        dest: PlaceTy<'tcx, M::PointerTag>,
722
    ) -> InterpResult<'tcx> {
723 724 725
        if cfg!(debug_assertions) {
            // This is a very common path, avoid some checks in release mode
            assert!(!dest.layout.is_unsized(), "Cannot write unsized data");
726
            match src {
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                Immediate::Scalar(ScalarMaybeUndef::Scalar(Scalar::Ptr(_))) => assert_eq!(
                    self.pointer_size(),
                    dest.layout.size,
                    "Size mismatch when writing pointer"
                ),
                Immediate::Scalar(ScalarMaybeUndef::Scalar(Scalar::Raw { size, .. })) => {
                    assert_eq!(
                        Size::from_bytes(size.into()),
                        dest.layout.size,
                        "Size mismatch when writing bits"
                    )
                }
                Immediate::Scalar(ScalarMaybeUndef::Undef) => {} // undef can have any size
740
                Immediate::ScalarPair(_, _) => {
741 742 743 744
                    // FIXME: Can we check anything here?
                }
            }
        }
745
        trace!("write_immediate: {:?} <- {:?}: {}", *dest, src, dest.layout.ty);
746

747
        // See if we can avoid an allocation. This is the counterpart to `try_read_immediate`,
R
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748
        // but not factored as a separate function.
R
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749
        let mplace = match dest.place {
O
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750
            Place::Local { frame, local } => {
751 752 753 754
                match self.stack[frame].locals[local].access_mut()? {
                    Ok(local) => {
                        // Local can be updated in-place.
                        *local = LocalValue::Live(Operand::Immediate(src));
R
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755
                        return Ok(());
756 757 758 759 760
                    }
                    Err(mplace) => {
                        // The local is in memory, go on below.
                        mplace
                    }
O
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                }
M
Mark Rousskov 已提交
762
            }
763
            Place::Ptr(mplace) => mplace, // already referring to memory
O
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764
        };
765
        let dest = MPlaceTy { mplace, layout: dest.layout };
O
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766

R
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767
        // This is already in memory, write there.
768
        self.write_immediate_to_mplace_no_validate(src, dest)
O
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769 770
    }

771
    /// Write an immediate to memory.
772
    /// If you use this you are responsible for validating that things got copied at the
773
    /// right type.
774
    fn write_immediate_to_mplace_no_validate(
R
Ralf Jung 已提交
775
        &mut self,
776
        value: Immediate<M::PointerTag>,
777
        dest: MPlaceTy<'tcx, M::PointerTag>,
778
    ) -> InterpResult<'tcx> {
B
Bernardo Meurer 已提交
779 780 781 782
        // Note that it is really important that the type here is the right one, and matches the
        // type things are read at. In case `src_val` is a `ScalarPair`, we don't do any magic here
        // to handle padding properly, which is only correct if we never look at this data with the
        // wrong type.
783

784
        // Invalid places are a thing: the return place of a diverging function
M
Mark Rousskov 已提交
785
        let ptr = match self.check_mplace_access(dest, None)? {
786 787 788
            Some(ptr) => ptr,
            None => return Ok(()), // zero-sized access
        };
789

790
        let tcx = &*self.tcx;
791 792 793
        // FIXME: We should check that there are dest.layout.size many bytes available in
        // memory.  The code below is not sufficient, with enough padding it might not
        // cover all the bytes!
R
Ralf Jung 已提交
794
        match value {
795
            Immediate::Scalar(scalar) => {
796
                match dest.layout.abi {
M
Mark Rousskov 已提交
797 798 799 800
                    layout::Abi::Scalar(_) => {} // fine
                    _ => {
                        bug!("write_immediate_to_mplace: invalid Scalar layout: {:#?}", dest.layout)
                    }
801
                }
802
                self.memory.get_raw_mut(ptr.alloc_id)?.write_scalar(
M
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803 804 805 806
                    tcx,
                    ptr,
                    scalar,
                    dest.layout.size,
R
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807
                )
O
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808
            }
809
            Immediate::ScalarPair(a_val, b_val) => {
810 811 812
                // We checked `ptr_align` above, so all fields will have the alignment they need.
                // We would anyway check against `ptr_align.restrict_for_offset(b_offset)`,
                // which `ptr.offset(b_offset)` cannot possibly fail to satisfy.
R
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813 814
                let (a, b) = match dest.layout.abi {
                    layout::Abi::ScalarPair(ref a, ref b) => (&a.value, &b.value),
M
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815 816 817 818
                    _ => bug!(
                        "write_immediate_to_mplace: invalid ScalarPair layout: {:#?}",
                        dest.layout
                    ),
R
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819
                };
820
                let (a_size, b_size) = (a.size(self), b.size(self));
821
                let b_offset = a_size.align_to(b.align(self).abi);
822
                let b_ptr = ptr.offset(b_offset, self)?;
823

824 825 826 827
                // It is tempting to verify `b_offset` against `layout.fields.offset(1)`,
                // but that does not work: We could be a newtype around a pair, then the
                // fields do not match the `ScalarPair` components.

M
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828 829
                self.memory.get_raw_mut(ptr.alloc_id)?.write_scalar(tcx, ptr, a_val, a_size)?;
                self.memory.get_raw_mut(b_ptr.alloc_id)?.write_scalar(tcx, b_ptr, b_val, b_size)
O
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            }
R
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831
        }
O
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832 833
    }

A
Alexander Regueiro 已提交
834
    /// Copies the data from an operand to a place. This does not support transmuting!
835 836
    /// Use `copy_op_transmute` if the layouts could disagree.
    #[inline(always)]
R
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837
    pub fn copy_op(
O
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838
        &mut self,
839 840
        src: OpTy<'tcx, M::PointerTag>,
        dest: PlaceTy<'tcx, M::PointerTag>,
841
    ) -> InterpResult<'tcx> {
842 843
        self.copy_op_no_validate(src, dest)?;

R
Ralf Jung 已提交
844
        if M::enforce_validity(self) {
845
            // Data got changed, better make sure it matches the type!
846
            self.validate_operand(self.place_to_op(dest)?)?;
847 848 849 850 851
        }

        Ok(())
    }

A
Alexander Regueiro 已提交
852
    /// Copies the data from an operand to a place. This does not support transmuting!
853
    /// Use `copy_op_transmute` if the layouts could disagree.
854
    /// Also, if you use this you are responsible for validating that things get copied at the
855 856 857 858 859
    /// right type.
    fn copy_op_no_validate(
        &mut self,
        src: OpTy<'tcx, M::PointerTag>,
        dest: PlaceTy<'tcx, M::PointerTag>,
860
    ) -> InterpResult<'tcx> {
861 862
        // We do NOT compare the types for equality, because well-typed code can
        // actually "transmute" `&mut T` to `&T` in an assignment without a cast.
M
Mark Rousskov 已提交
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        assert!(
            src.layout.details == dest.layout.details,
            "Layout mismatch when copying!\nsrc: {:#?}\ndest: {:#?}",
            src,
            dest
        );
R
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        // Let us see if the layout is simple so we take a shortcut, avoid force_allocation.
871
        let src = match self.try_read_immediate(src)? {
872
            Ok(src_val) => {
873
                assert!(!src.layout.is_unsized(), "cannot have unsized immediates");
874
                // Yay, we got a value that we can write directly.
875 876
                // FIXME: Add a check to make sure that if `src` is indirect,
                // it does not overlap with `dest`.
877
                return self.write_immediate_no_validate(*src_val, dest);
878 879
            }
            Err(mplace) => mplace,
R
Ralf Jung 已提交
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        };
        // Slow path, this does not fit into an immediate. Just memcpy.
882 883
        trace!("copy_op: {:?} <- {:?}: {}", *dest, src, dest.layout.ty);

884 885 886 887
        // This interprets `src.meta` with the `dest` local's layout, if an unsized local
        // is being initialized!
        let (dest, size) = self.force_allocation_maybe_sized(dest, src.meta)?;
        let size = size.unwrap_or_else(|| {
M
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            assert!(
                !dest.layout.is_unsized(),
                "Cannot copy into already initialized unsized place"
            );
892 893 894
            dest.layout.size
        });
        assert_eq!(src.meta, dest.meta, "Can only copy between equally-sized instances");
895

M
Mark Rousskov 已提交
896 897
        let src = self
            .check_mplace_access(src, Some(size))
898
            .expect("places should be checked on creation");
M
Mark Rousskov 已提交
899 900
        let dest = self
            .check_mplace_access(dest, Some(size))
901
            .expect("places should be checked on creation");
902 903 904 905 906 907
        let (src_ptr, dest_ptr) = match (src, dest) {
            (Some(src_ptr), Some(dest_ptr)) => (src_ptr, dest_ptr),
            (None, None) => return Ok(()), // zero-sized copy
            _ => bug!("The pointers should both be Some or both None"),
        };

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        self.memory.copy(src_ptr, dest_ptr, size, /*nonoverlapping*/ true)
909 910
    }

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    /// Copies the data from an operand to a place. The layouts may disagree, but they must
912 913 914 915 916
    /// have the same size.
    pub fn copy_op_transmute(
        &mut self,
        src: OpTy<'tcx, M::PointerTag>,
        dest: PlaceTy<'tcx, M::PointerTag>,
917
    ) -> InterpResult<'tcx> {
918 919 920 921
        if src.layout.details == dest.layout.details {
            // Fast path: Just use normal `copy_op`
            return self.copy_op(src, dest);
        }
922
        // We still require the sizes to match.
923
        if src.layout.size != dest.layout.size {
924 925 926 927
            // FIXME: This should be an assert instead of an error, but if we transmute within an
            // array length computation, `typeck` may not have yet been run and errored out. In fact
            // most likey we *are* running `typeck` right now. Investigate whether we can bail out
            // on `typeck_tables().has_errors` at all const eval entry points.
928
            debug!("Size mismatch when transmuting!\nsrc: {:#?}\ndest: {:#?}", src, dest);
929
            throw_inval!(TransmuteSizeDiff(src.layout.ty, dest.layout.ty));
930
        }
931 932
        // Unsized copies rely on interpreting `src.meta` with `dest.layout`, we want
        // to avoid that here.
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        assert!(
            !src.layout.is_unsized() && !dest.layout.is_unsized(),
            "Cannot transmute unsized data"
        );
937 938 939 940 941 942 943 944 945 946 947 948 949 950 951

        // The hard case is `ScalarPair`.  `src` is already read from memory in this case,
        // using `src.layout` to figure out which bytes to use for the 1st and 2nd field.
        // We have to write them to `dest` at the offsets they were *read at*, which is
        // not necessarily the same as the offsets in `dest.layout`!
        // Hence we do the copy with the source layout on both sides.  We also make sure to write
        // into memory, because if `dest` is a local we would not even have a way to write
        // at the `src` offsets; the fact that we came from a different layout would
        // just be lost.
        let dest = self.force_allocation(dest)?;
        self.copy_op_no_validate(
            src,
            PlaceTy::from(MPlaceTy { mplace: *dest, layout: src.layout }),
        )?;

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        if M::enforce_validity(self) {
953
            // Data got changed, better make sure it matches the type!
954
            self.validate_operand(dest.into())?;
955
        }
956

957
        Ok(())
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    }

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    /// Ensures that a place is in memory, and returns where it is.
961 962
    /// If the place currently refers to a local that doesn't yet have a matching allocation,
    /// create such an allocation.
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    /// This is essentially `force_to_memplace`.
964
    ///
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    /// This supports unsized types and returns the computed size to avoid some
966 967 968
    /// redundant computation when copying; use `force_allocation` for a simpler, sized-only
    /// version.
    pub fn force_allocation_maybe_sized(
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        &mut self,
970
        place: PlaceTy<'tcx, M::PointerTag>,
971
        meta: MemPlaceMeta<M::PointerTag>,
972
    ) -> InterpResult<'tcx, (MPlaceTy<'tcx, M::PointerTag>, Option<Size>)> {
973
        let (mplace, size) = match place.place {
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            Place::Local { frame, local } => {
975
                match self.stack[frame].locals[local].access_mut()? {
976
                    Ok(&mut local_val) => {
977
                        // We need to make an allocation.
978

979
                        // We need the layout of the local.  We can NOT use the layout we got,
980
                        // that might e.g., be an inner field of a struct with `Scalar` layout,
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                        // that has different alignment than the outer field.
982
                        let local_layout = self.layout_of_local(&self.stack[frame], local, None)?;
983
                        // We also need to support unsized types, and hence cannot use `allocate`.
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                        let (size, align) = self
                            .size_and_align_of(meta, local_layout)?
986 987 988
                            .expect("Cannot allocate for non-dyn-sized type");
                        let ptr = self.memory.allocate(size, align, MemoryKind::Stack);
                        let mplace = MemPlace { ptr: ptr.into(), align, meta };
989
                        if let LocalValue::Live(Operand::Immediate(value)) = local_val {
990 991 992
                            // Preserve old value.
                            // We don't have to validate as we can assume the local
                            // was already valid for its type.
993 994
                            let mplace = MPlaceTy { mplace, layout: local_layout };
                            self.write_immediate_to_mplace_no_validate(value, mplace)?;
995 996 997 998 999
                        }
                        // Now we can call `access_mut` again, asserting it goes well,
                        // and actually overwrite things.
                        *self.stack[frame].locals[local].access_mut().unwrap().unwrap() =
                            LocalValue::Live(Operand::Indirect(mplace));
1000
                        (mplace, Some(size))
1001
                    }
1002
                    Err(mplace) => (mplace, None), // this already was an indirect local
1003
                }
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            }
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            Place::Ptr(mplace) => (mplace, None),
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        };
        // Return with the original layout, so that the caller can go on
1008 1009 1010 1011 1012 1013 1014
        Ok((MPlaceTy { mplace, layout: place.layout }, size))
    }

    #[inline(always)]
    pub fn force_allocation(
        &mut self,
        place: PlaceTy<'tcx, M::PointerTag>,
1015
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
1016
        Ok(self.force_allocation_maybe_sized(place, MemPlaceMeta::None)?.0)
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    }

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    pub fn allocate(
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        &mut self,
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        layout: TyLayout<'tcx>,
        kind: MemoryKind<M::MemoryKinds>,
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    ) -> MPlaceTy<'tcx, M::PointerTag> {
1024 1025
        let ptr = self.memory.allocate(layout.size, layout.align.abi, kind);
        MPlaceTy::from_aligned_ptr(ptr, layout)
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    }
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    /// Returns a wide MPlace.
1029 1030 1031 1032 1033 1034 1035
    pub fn allocate_str(
        &mut self,
        str: &str,
        kind: MemoryKind<M::MemoryKinds>,
    ) -> MPlaceTy<'tcx, M::PointerTag> {
        let ptr = self.memory.allocate_static_bytes(str.as_bytes(), kind);
        let meta = Scalar::from_uint(str.len() as u128, self.pointer_size());
1036 1037 1038
        let mplace = MemPlace {
            ptr: ptr.into(),
            align: Align::from_bytes(1).unwrap(),
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            meta: MemPlaceMeta::Meta(meta),
1040
        };
1041 1042 1043 1044 1045

        let layout = self.layout_of(self.tcx.mk_static_str()).unwrap();
        MPlaceTy { mplace, layout }
    }

1046
    pub fn write_discriminant_index(
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        &mut self,
1048
        variant_index: VariantIdx,
1049
        dest: PlaceTy<'tcx, M::PointerTag>,
1050
    ) -> InterpResult<'tcx> {
1051 1052 1053 1054 1055
        // Layout computation excludes uninhabited variants from consideration
        // therefore there's no way to represent those variants in the given layout.
        if dest.layout.for_variant(self, variant_index).abi.is_uninhabited() {
            throw_ub!(Unreachable);
        }
1056

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        match dest.layout.variants {
            layout::Variants::Single { index } => {
1059
                assert_eq!(index, variant_index);
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            }
1061 1062
            layout::Variants::Multiple {
                discr_kind: layout::DiscriminantKind::Tag,
1063
                discr: ref discr_layout,
1064
                discr_index,
1065 1066
                ..
            } => {
1067 1068 1069
                // No need to validate that the discriminant here because the
                // `TyLayout::for_variant()` call earlier already checks the variant is valid.

1070 1071
                let discr_val =
                    dest.layout.ty.discriminant_for_variant(*self.tcx, variant_index).unwrap().val;
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                // raw discriminants for enums are isize or bigger during
                // their computation, but the in-memory tag is the smallest possible
                // representation
1076
                let size = discr_layout.value.size(self);
1077
                let discr_val = truncate(discr_val, size);
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1079
                let discr_dest = self.place_field(dest, discr_index as u64)?;
1080
                self.write_scalar(Scalar::from_uint(discr_val, size), discr_dest)?;
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            }
1082
            layout::Variants::Multiple {
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                discr_kind:
                    layout::DiscriminantKind::Niche { dataful_variant, ref niche_variants, niche_start },
1085
                discr: ref discr_layout,
1086
                discr_index,
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                ..
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            } => {
1089 1090 1091
                // No need to validate that the discriminant here because the
                // `TyLayout::for_variant()` call earlier already checks the variant is valid.

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1092
                if variant_index != dataful_variant {
1093
                    let variants_start = niche_variants.start().as_u32();
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                    let variant_index_relative = variant_index
                        .as_u32()
1096 1097
                        .checked_sub(variants_start)
                        .expect("overflow computing relative variant idx");
1098 1099
                    // We need to use machine arithmetic when taking into account `niche_start`:
                    // discr_val = variant_index_relative + niche_start_val
1100
                    let discr_layout = self.layout_of(discr_layout.value.to_int_ty(*self.tcx))?;
1101
                    let niche_start_val = ImmTy::from_uint(niche_start, discr_layout);
1102 1103
                    let variant_index_relative_val =
                        ImmTy::from_uint(variant_index_relative, discr_layout);
1104
                    let discr_val = self.binary_op(
1105
                        mir::BinOp::Add,
1106
                        variant_index_relative_val,
1107
                        niche_start_val,
1108
                    )?;
1109 1110
                    // Write result.
                    let niche_dest = self.place_field(dest, discr_index as u64)?;
1111
                    self.write_immediate(*discr_val, niche_dest)?;
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                }
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1113
            }
1114
        }
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1115 1116

        Ok(())
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1117 1118
    }

1119 1120 1121
    pub fn raw_const_to_mplace(
        &self,
        raw: RawConst<'tcx>,
1122
    ) -> InterpResult<'tcx, MPlaceTy<'tcx, M::PointerTag>> {
1123 1124
        // This must be an allocation in `tcx`
        assert!(self.tcx.alloc_map.lock().get(raw.alloc_id).is_some());
1125
        let ptr = self.tag_static_base_pointer(Pointer::from(raw.alloc_id));
1126
        let layout = self.layout_of(raw.ty)?;
1127
        Ok(MPlaceTy::from_aligned_ptr(ptr, layout))
1128 1129
    }

1130 1131
    /// Turn a place with a `dyn Trait` type into a place with the actual dynamic type.
    /// Also return some more information so drop doesn't have to run the same code twice.
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    pub(super) fn unpack_dyn_trait(
        &self,
        mplace: MPlaceTy<'tcx, M::PointerTag>,
    ) -> InterpResult<'tcx, (ty::Instance<'tcx>, MPlaceTy<'tcx, M::PointerTag>)> {
1136
        let vtable = mplace.vtable(); // also sanity checks the type
1137 1138 1139 1140
        let (instance, ty) = self.read_drop_type_from_vtable(vtable)?;
        let layout = self.layout_of(ty)?;

        // More sanity checks
1141 1142 1143
        if cfg!(debug_assertions) {
            let (size, align) = self.read_size_and_align_from_vtable(vtable)?;
            assert_eq!(size, layout.size);
1144
            // only ABI alignment is preserved
1145
            assert_eq!(align, layout.align.abi);
1146
        }
1147

1148
        let mplace = MPlaceTy { mplace: MemPlace { meta: MemPlaceMeta::None, ..*mplace }, layout };
1149
        Ok((instance, mplace))
1150
    }
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1151
}