Struct Regression1
#[repr(C)]pub struct Regression1 {
pub f1: u8,
pub f2: u32,
pub f3: u8,
pub f4: u16,
pub f5: u64,
pub f6: u8,
}
Fields§
§f1: u8
§f2: u32
§f3: u8
§f4: u16
§f5: u64
§f6: u8
Trait Implementations§
§impl Clone for Regression1
impl Clone for Regression1
§fn clone(&self) -> Regression1
fn clone(&self) -> Regression1
Returns a copy of the value. Read more
1.0.0 · Source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
Performs copy-assignment from
source
. Read more§impl Debug for Regression1
impl Debug for Regression1
§impl<D> Decode<Regression1, D> for Regression1where
D: ResourceDialect,
impl<D> Decode<Regression1, D> for Regression1where
D: ResourceDialect,
§fn new_empty() -> Regression1
fn new_empty() -> Regression1
Creates a valid instance of
Self
. The specific value does not matter,
since it will be overwritten by decode
.§impl<D> Encode<Regression1, D> for &Regression1where
D: ResourceDialect,
impl<D> Encode<Regression1, D> for &Regression1where
D: ResourceDialect,
§impl Hash for Regression1
impl Hash for Regression1
§impl Ord for Regression1
impl Ord for Regression1
§impl PartialEq for Regression1
impl PartialEq for Regression1
§impl PartialOrd for Regression1
impl PartialOrd for Regression1
§impl TypeMarker for Regression1
impl TypeMarker for Regression1
§type Owned = Regression1
type Owned = Regression1
The owned Rust type which this FIDL type decodes into.
§fn inline_align(_context: Context) -> usize
fn inline_align(_context: Context) -> usize
Returns the minimum required alignment of the inline portion of the
encoded object. It must be a (nonzero) power of two.
§fn inline_size(_context: Context) -> usize
fn inline_size(_context: Context) -> usize
Returns the size of the inline portion of the encoded object, including
padding for alignment. Must be a multiple of
inline_align
.Source§fn encode_is_copy() -> bool
fn encode_is_copy() -> bool
Returns true if the memory layout of
Self::Owned
matches the FIDL wire
format and encoding requires no validation. When true, we can optimize
encoding arrays and vectors of Self::Owned
to a single memcpy. Read moreSource§fn decode_is_copy() -> bool
fn decode_is_copy() -> bool
Returns true if the memory layout of
Self::Owned
matches the FIDL wire
format and decoding requires no validation. When true, we can optimize
decoding arrays and vectors of Self::Owned
to a single memcpy.§impl ValueTypeMarker for Regression1
impl ValueTypeMarker for Regression1
§type Borrowed<'a> = &'a Regression1
type Borrowed<'a> = &'a Regression1
The Rust type to use for encoding. This is a particular
Encode<Self>
type cheaply obtainable from &Self::Owned
. There are three cases: Read more§fn borrow(
value: &<Regression1 as TypeMarker>::Owned,
) -> <Regression1 as ValueTypeMarker>::Borrowed<'_>
fn borrow( value: &<Regression1 as TypeMarker>::Owned, ) -> <Regression1 as ValueTypeMarker>::Borrowed<'_>
Cheaply converts from
&Self::Owned
to Self::Borrowed
.impl Copy for Regression1
impl Eq for Regression1
impl Persistable for Regression1
impl StructuralPartialEq for Regression1
Auto Trait Implementations§
impl Freeze for Regression1
impl RefUnwindSafe for Regression1
impl Send for Regression1
impl Sync for Regression1
impl Unpin for Regression1
impl UnwindSafe for Regression1
Blanket Implementations§
Source§impl<T> Body for Twhere
T: Persistable,
impl<T> Body for Twhere
T: Persistable,
Source§type MarkerAtTopLevel = T
type MarkerAtTopLevel = T
The marker type to use when the body is at the top-level.
Source§type MarkerInResultUnion = T
type MarkerInResultUnion = T
The marker type to use when the body is nested in a result union.
Source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
Source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more