Allow calculating the layout behind a pointer
Let align/size_of_of_val intrinsics work on ptrs
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@ -140,6 +140,42 @@ pub fn for_value<T: ?Sized>(t: &T) -> Self {
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unsafe { Layout::from_size_align_unchecked(size, align) }
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}
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/// Produces layout describing a record that could be used to
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/// allocate backing structure for `T` (which could be a trait
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/// or other unsized type like a slice).
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///
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/// # Safety
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///
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/// This function is only safe to call if the following conditions hold:
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///
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/// - If `T` is `Sized`, this function is always safe to call.
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/// - If the unsized tail of `T` is:
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/// - a [slice], then the length of the slice tail must be an intialized
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/// integer, and the size of the *entire value*
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/// (dynamic tail length + statically sized prefix) must fit in `isize`.
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/// - a [trait object], then the vtable part of the pointer must point
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/// to a valid vtable acquired by an unsizing coersion, and the size
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/// of the *entire value* (dynamic tail length + statically sized prefix)
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/// must fit in `isize`.
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/// - an (unstable) [extern type], then this function is always safe to
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/// call, but may panic or otherwise return the wrong value, as the
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/// extern type's layout is not known. This is the same behavior as
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/// [`Layout::for_value`] on a reference to an extern type tail.
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/// - otherwise, it is conservatively not allowed to call this function.
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///
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/// [slice]: ../../std/primitive.slice.html
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/// [trait object]: ../../book/ch17-02-trait-objects.html
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/// [extern type]: ../../unstable-book/language-features/extern-types.html
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#[inline]
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#[cfg(not(bootstrap))]
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#[unstable(feature = "layout_for_ptr", issue = "69835")]
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pub unsafe fn for_value_raw<T: ?Sized>(t: *const T) -> Self {
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let (size, align) = (mem::size_of_val_raw(t), mem::align_of_val_raw(t));
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// See rationale in `new` for why this is using an unsafe variant below
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debug_assert!(Layout::from_size_align(size, align).is_ok());
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Layout::from_size_align_unchecked(size, align)
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}
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/// Creates a `NonNull` that is dangling, but well-aligned for this Layout.
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///
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/// Note that the pointer value may potentially represent a valid pointer,
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@ -980,13 +980,24 @@
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///
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/// The stabilized version of this intrinsic is
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/// [`std::mem::size_of_val`](../../std/mem/fn.size_of_val.html).
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#[cfg(bootstrap)]
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pub fn size_of_val<T: ?Sized>(_: &T) -> usize;
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/// The minimum alignment of the type of the value that `val` points to.
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///
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/// The stabilized version of this intrinsic is
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/// [`std::mem::min_align_of_val`](../../std/mem/fn.min_align_of_val.html).
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#[cfg(bootstrap)]
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pub fn min_align_of_val<T: ?Sized>(_: &T) -> usize;
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/// The size of the referenced value in bytes.
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///
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/// The stabilized version of this intrinsic is
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/// [`std::mem::size_of_val`](../../std/mem/fn.size_of_val.html).
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#[cfg(not(bootstrap))]
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pub fn size_of_val<T: ?Sized>(_: *const T) -> usize;
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#[cfg(not(bootstrap))]
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pub fn min_align_of_val<T: ?Sized>(_: *const T) -> usize;
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/// Gets a static string slice containing the name of a type.
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///
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/// The stabilized version of this intrinsic is
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@ -303,6 +303,54 @@ pub fn size_of_val<T: ?Sized>(val: &T) -> usize {
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intrinsics::size_of_val(val)
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}
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/// Returns the size of the pointed-to value in bytes.
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///
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/// This is usually the same as `size_of::<T>()`. However, when `T` *has* no
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/// statically-known size, e.g., a slice [`[T]`][slice] or a [trait object],
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/// then `size_of_val_raw` can be used to get the dynamically-known size.
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///
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/// # Safety
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///
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/// This function is only safe to call if the following conditions hold:
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///
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/// - If `T` is `Sized`, this function is always safe to call.
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/// - If the unsized tail of `T` is:
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/// - a [slice], then the length of the slice tail must be an intialized
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/// integer, and the size of the *entire value*
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/// (dynamic tail length + statically sized prefix) must fit in `isize`.
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/// - a [trait object], then the vtable part of the pointer must point
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/// to a valid vtable acquired by an unsizing coersion, and the size
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/// of the *entire value* (dynamic tail length + statically sized prefix)
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/// must fit in `isize`.
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/// - an (unstable) [extern type], then this function is always safe to
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/// call, but may panic or otherwise return the wrong value, as the
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/// extern type's layout is not known. This is the same behavior as
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/// [`size_of_val`] on a reference to an extern type tail.
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/// - otherwise, it is conservatively not allowed to call this function.
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///
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/// [slice]: ../../std/primitive.slice.html
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/// [trait object]: ../../book/ch17-02-trait-objects.html
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/// [extern type]: ../../unstable-book/language-features/extern-types.html
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///
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/// # Examples
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///
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/// ```
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/// #![feature(layout_for_ptr)]
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/// use std::mem;
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///
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/// assert_eq!(4, mem::size_of_val(&5i32));
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///
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/// let x: [u8; 13] = [0; 13];
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/// let y: &[u8] = &x;
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/// assert_eq!(13, unsafe { mem::size_of_val_raw(y) });
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/// ```
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#[inline]
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#[cfg(not(bootstrap))]
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#[unstable(feature = "layout_for_ptr", issue = "69835")]
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pub unsafe fn size_of_val_raw<T: ?Sized>(val: *const T) -> usize {
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intrinsics::size_of_val(val)
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}
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/// Returns the [ABI]-required minimum alignment of a type.
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///
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/// Every reference to a value of the type `T` must be a multiple of this number.
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@ -390,6 +438,50 @@ pub fn align_of_val<T: ?Sized>(val: &T) -> usize {
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min_align_of_val(val)
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}
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/// Returns the [ABI]-required minimum alignment of the type of the value that `val` points to.
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///
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/// Every reference to a value of the type `T` must be a multiple of this number.
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///
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/// [ABI]: https://en.wikipedia.org/wiki/Application_binary_interface
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///
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/// # Safety
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///
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/// This function is only safe to call if the following conditions hold:
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///
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/// - If `T` is `Sized`, this function is always safe to call.
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/// - If the unsized tail of `T` is:
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/// - a [slice], then the length of the slice tail must be an intialized
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/// integer, and the size of the *entire value*
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/// (dynamic tail length + statically sized prefix) must fit in `isize`.
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/// - a [trait object], then the vtable part of the pointer must point
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/// to a valid vtable acquired by an unsizing coersion, and the size
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/// of the *entire value* (dynamic tail length + statically sized prefix)
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/// must fit in `isize`.
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/// - an (unstable) [extern type], then this function is always safe to
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/// call, but may panic or otherwise return the wrong value, as the
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/// extern type's layout is not known. This is the same behavior as
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/// [`align_of_val`] on a reference to an extern type tail.
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/// - otherwise, it is conservatively not allowed to call this function.
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///
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/// [slice]: ../../std/primitive.slice.html
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/// [trait object]: ../../book/ch17-02-trait-objects.html
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/// [extern type]: ../../unstable-book/language-features/extern-types.html
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///
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/// # Examples
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///
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/// ```
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/// #![feature(layout_for_ptr)]
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/// use std::mem;
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///
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/// assert_eq!(4, unsafe { mem::align_of_val_raw(&5i32) });
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/// ```
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#[inline]
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#[cfg(not(bootstrap))]
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#[unstable(feature = "layout_for_ptr", issue = "69835")]
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pub unsafe fn align_of_val_raw<T: ?Sized>(val: *const T) -> usize {
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intrinsics::min_align_of_val(val)
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}
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/// Returns `true` if dropping values of type `T` matters.
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///
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/// This is purely an optimization hint, and may be implemented conservatively:
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@ -137,14 +137,9 @@ pub fn check_intrinsic_type(tcx: TyCtxt<'_>, it: &hir::ForeignItem<'_>) {
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let (n_tps, inputs, output) = match &name[..] {
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"breakpoint" => (0, Vec::new(), tcx.mk_unit()),
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"size_of" | "pref_align_of" | "min_align_of" => (1, Vec::new(), tcx.types.usize),
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"size_of_val" | "min_align_of_val" => (
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1,
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vec![tcx.mk_imm_ref(
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tcx.mk_region(ty::ReLateBound(ty::INNERMOST, ty::BrAnon(0))),
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param(0),
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)],
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tcx.types.usize,
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),
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"size_of_val" | "min_align_of_val" => {
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(1, vec![tcx.mk_imm_ptr(param(0))], tcx.types.usize)
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}
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"rustc_peek" => (1, vec![param(0)], param(0)),
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"caller_location" => (0, vec![], tcx.caller_location_ty()),
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"panic_if_uninhabited" => (1, Vec::new(), tcx.mk_unit()),
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