rustc_target::abi

Struct LayoutData

pub struct LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx, VariantIdx: Idx,
{ pub fields: FieldsShape<FieldIdx>, pub variants: Variants<FieldIdx, VariantIdx>, pub backend_repr: BackendRepr, pub largest_niche: Option<Niche>, pub align: AbiAndPrefAlign, pub size: Size, pub max_repr_align: Option<Align>, pub unadjusted_abi_align: Align, }

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§fields: FieldsShape<FieldIdx>

Says where the fields are located within the layout.

§variants: Variants<FieldIdx, VariantIdx>

Encodes information about multi-variant layouts. Even with Multiple variants, a layout still has its own fields! Those are then shared between all variants. One of them will be the discriminant, but e.g. coroutines can have more.

To access all fields of this layout, both fields and the fields of the active variant must be taken into account.

§backend_repr: BackendRepr

The backend_repr defines how this data will be represented to the codegen backend, and encodes value restrictions via valid_range.

Note that this is entirely orthogonal to the recursive structure defined by variants and fields; for example, ManuallyDrop<Result<isize, isize>> has IrForm::ScalarPair! So, even with non-Memory backend_repr, fields and variants have to be taken into account to find all fields of this layout.

§largest_niche: Option<Niche>

The leaf scalar with the largest number of invalid values (i.e. outside of its valid_range), if it exists.

§align: AbiAndPrefAlign§size: Size§max_repr_align: Option<Align>

The largest alignment explicitly requested with repr(align) on this type or any field. Only used on i686-windows, where the argument passing ABI is different when alignment is requested, even if the requested alignment is equal to the natural alignment.

§unadjusted_abi_align: Align

The alignment the type would have, ignoring any repr(align) but including repr(packed). Only used on aarch64-linux, where the argument passing ABI ignores the requested alignment in some cases.

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impl<FieldIdx, VariantIdx> LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx, VariantIdx: Idx,

pub fn is_aggregate(&self) -> bool

Returns true if this is an aggregate type (including a ScalarPair!)

pub fn is_uninhabited(&self) -> bool

Returns true if this is an uninhabited type

pub fn scalar<C>(cx: &C, scalar: Scalar) -> LayoutData<FieldIdx, VariantIdx>
where C: HasDataLayout,

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impl<FieldIdx, VariantIdx> LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx, VariantIdx: Idx,

pub fn is_unsized(&self) -> bool

Returns true if the layout corresponds to an unsized type.

pub fn is_sized(&self) -> bool

pub fn is_1zst(&self) -> bool

Returns true if the type is sized and a 1-ZST (meaning it has size 0 and alignment 1).

pub fn is_zst(&self) -> bool

Returns true if the type is a ZST and not unsized.

Note that this does not imply that the type is irrelevant for layout! It can still have non-trivial alignment constraints. You probably want to use is_1zst instead.

pub fn eq_abi(&self, other: &LayoutData<FieldIdx, VariantIdx>) -> bool

Checks if these two Layout are equal enough to be considered “the same for all function call ABIs”. Note however that real ABIs depend on more details that are not reflected in the Layout; the PassMode need to be compared as well. Also note that we assume aggregates are passed via PassMode::Indirect or PassMode::Cast; more strict checks would otherwise be required.

Trait Implementations§

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impl<FieldIdx, VariantIdx> Clone for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Clone + Idx, VariantIdx: Clone + Idx,

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fn clone(&self) -> LayoutData<FieldIdx, VariantIdx>

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<FieldIdx, VariantIdx> Debug for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx, VariantIdx: Idx, FieldsShape<FieldIdx>: Debug, Variants<FieldIdx, VariantIdx>: Debug,

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fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter. Read more
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impl<FieldIdx, VariantIdx> Hash for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Hash + Idx, VariantIdx: Hash + Idx,

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fn hash<__H>(&self, state: &mut __H)
where __H: Hasher,

Feeds this value into the given Hasher. Read more
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fn hash_slice<H>(data: &[Self], state: &mut H)
where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
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impl<FieldIdx, VariantIdx, __CTX> HashStable<__CTX> for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx + HashStable<__CTX>, VariantIdx: Idx + HashStable<__CTX>, __CTX: HashStableContext,

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fn hash_stable( &self, __hcx: &mut __CTX, __hasher: &mut StableHasher<SipHasher128>, )

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impl<FieldIdx, VariantIdx> PartialEq for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: PartialEq + Idx, VariantIdx: PartialEq + Idx,

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fn eq(&self, other: &LayoutData<FieldIdx, VariantIdx>) -> bool

Tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

Tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl<FieldIdx, VariantIdx> Eq for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Eq + Idx, VariantIdx: Eq + Idx,

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impl<FieldIdx, VariantIdx> StructuralPartialEq for LayoutData<FieldIdx, VariantIdx>
where FieldIdx: Idx, VariantIdx: Idx,

Auto Trait Implementations§

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impl<FieldIdx, VariantIdx> DynSend for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: DynSend,

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impl<FieldIdx, VariantIdx> DynSync for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: DynSync,

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impl<FieldIdx, VariantIdx> Freeze for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: Freeze,

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impl<FieldIdx, VariantIdx> RefUnwindSafe for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: RefUnwindSafe,

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impl<FieldIdx, VariantIdx> Send for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: Send,

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impl<FieldIdx, VariantIdx> Sync for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: Sync,

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impl<FieldIdx, VariantIdx> Unpin for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: Unpin,

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impl<FieldIdx, VariantIdx> UnwindSafe for LayoutData<FieldIdx, VariantIdx>
where VariantIdx: UnwindSafe,

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impl<T> Aligned for T

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const ALIGN: Alignment = _

Alignment of Self.
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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<T> CloneToUninit for T
where T: Clone,

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unsafe fn clone_to_uninit(&self, dst: *mut T)

🔬This is a nightly-only experimental API. (clone_to_uninit)
Performs copy-assignment from self to dst. Read more
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impl<Q, K> Equivalent<K> for Q
where Q: Eq + ?Sized, K: Borrow<Q> + ?Sized,

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fn equivalent(&self, key: &K) -> bool

Checks if this value is equivalent to the given key. Read more
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impl<Q, K> Equivalent<K> for Q
where Q: Eq + ?Sized, K: Borrow<Q> + ?Sized,

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fn equivalent(&self, key: &K) -> bool

Checks if this value is equivalent to the given key. Read more
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impl<Q, K> Equivalent<K> for Q
where Q: Eq + ?Sized, K: Borrow<Q> + ?Sized,

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fn equivalent(&self, key: &K) -> bool

Compare self to key and return true if they are equal.
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T> Instrument for T

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fn instrument(self, span: Span) -> Instrumented<Self>

Instruments this type with the provided Span, returning an Instrumented wrapper. Read more
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fn in_current_span(self) -> Instrumented<Self>

Instruments this type with the current Span, returning an Instrumented wrapper. Read more
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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> IntoEither for T

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fn into_either(self, into_left: bool) -> Either<Self, Self>

Converts self into a Left variant of Either<Self, Self> if into_left is true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
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fn into_either_with<F>(self, into_left: F) -> Either<Self, Self>
where F: FnOnce(&Self) -> bool,

Converts self into a Left variant of Either<Self, Self> if into_left(&self) returns true. Converts self into a Right variant of Either<Self, Self> otherwise. Read more
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impl<T> Pointable for T

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const ALIGN: usize = _

The alignment of pointer.
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type Init = T

The type for initializers.
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unsafe fn init(init: <T as Pointable>::Init) -> usize

Initializes a with the given initializer. Read more
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unsafe fn deref<'a>(ptr: usize) -> &'a T

Dereferences the given pointer. Read more
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unsafe fn deref_mut<'a>(ptr: usize) -> &'a mut T

Mutably dereferences the given pointer. Read more
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unsafe fn drop(ptr: usize)

Drops the object pointed to by the given pointer. Read more
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impl<T> Same for T

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type Output = T

Should always be Self
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impl<T> ToOwned for T
where T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<V, T> VZip<V> for T
where V: MultiLane<T>,

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fn vzip(self) -> V

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impl<T> WithSubscriber for T

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fn with_subscriber<S>(self, subscriber: S) -> WithDispatch<Self>
where S: Into<Dispatch>,

Attaches the provided Subscriber to this type, returning a WithDispatch wrapper. Read more
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fn with_current_subscriber(self) -> WithDispatch<Self>

Attaches the current default Subscriber to this type, returning a WithDispatch wrapper. Read more
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impl<'a, T> Captures<'a> for T
where T: ?Sized,

Layout§

Note: Unable to compute type layout, possibly due to this type having generic parameters. Layout can only be computed for concrete, fully-instantiated types.