Struct BitSafeUsize
pub struct BitSafeUsize { /* private fields */ }
Expand description
§Read-Only Shared-Mutable Handle
This type marks a handle to a shared-mutable type that may be modified through
other handles, but cannot be modified through this one. It is used when a
BitSlice
region has partial ownership of an element and wishes to expose the
entire underlying raw element to the user without granting them write
permissions.
Under the feature = "atomic"
build setting, this uses radium
’s best-effort
atomic alias; when this feature is disabled, it reverts to Cell
.
Trait Implementations§
§impl BitSafe for BitSafeUsize
impl BitSafe for BitSafeUsize
§const ZERO: BitSafeUsize = _
const ZERO: BitSafeUsize = _
§type Rad = AtomicUsize
type Rad = AtomicUsize
§fn load(&self) -> <BitSafeUsize as BitSafe>::Mem
fn load(&self) -> <BitSafeUsize as BitSafe>::Mem
§impl BitStore for BitSafeUsize
impl BitStore for BitSafeUsize
§const ZERO: BitSafeUsize = <Self as BitSafe>::ZERO
const ZERO: BitSafeUsize = <Self as BitSafe>::ZERO
§const ALIGNED_TO_SIZE: [(); 1] = _
const ALIGNED_TO_SIZE: [(); 1] = _
§const ALIAS_WIDTH: [(); 1] = _
const ALIAS_WIDTH: [(); 1] = _
Self
and Self::Alias
be equal
in representation. This is true by fiat for all types except the
unsigned integers. Read more§type Mem = usize
type Mem = usize
BitSlice
. It
is always one of the unsigned integer fundamentals.§type Access = <BitSafeUsize as BitSafe>::Rad
type Access = <BitSafeUsize as BitSafe>::Rad
Self::Mem
value between the processor and the memory system. Read more§type Alias = BitSafeUsize
type Alias = BitSafeUsize
BitStore
implementor that is known to be alias-safe. It is
used when a BitSlice
introduces multiple handles that view the same
memory location, and at least one of them has write capabilities to it.
It must have the same underlying memory type, and can only change access
patterns or public-facing usage.§type Unalias = usize
type Unalias = usize
::Alias
. It is used when a BitSlice
removes the
conditions that required a T -> T::Alias
transition.§fn new(value: <BitSafeUsize as BitStore>::Mem) -> BitSafeUsize
fn new(value: <BitSafeUsize as BitStore>::Mem) -> BitSafeUsize
BitStore
type.§fn load_value(&self) -> <BitSafeUsize as BitStore>::Mem
fn load_value(&self) -> <BitSafeUsize as BitStore>::Mem
::Access
rules. This may be called when the value is aliased by a write-capable
reference.§fn store_value(&mut self, value: <BitSafeUsize as BitStore>::Mem)
fn store_value(&mut self, value: <BitSafeUsize as BitStore>::Mem)
::Access
constraints.Auto Trait Implementations§
impl !Freeze for BitSafeUsize
impl RefUnwindSafe for BitSafeUsize
impl Send for BitSafeUsize
impl Sync for BitSafeUsize
impl Unpin for BitSafeUsize
impl UnwindSafe for BitSafeUsize
Blanket Implementations§
§impl<T> BitView for Twhere
T: BitStore,
impl<T> BitView for Twhere
T: BitStore,
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O: BitOrder,
fn view_bits<O>(&self) -> &BitSlice<T, O> ⓘwhere
O: BitOrder,
§fn try_view_bits<O>(&self) -> Result<&BitSlice<T, O>, BitSpanError<T>>where
O: BitOrder,
fn try_view_bits<O>(&self) -> Result<&BitSlice<T, O>, BitSpanError<T>>where
O: BitOrder,
§fn view_bits_mut<O>(&mut self) -> &mut BitSlice<T, O> ⓘwhere
O: BitOrder,
fn view_bits_mut<O>(&mut self) -> &mut BitSlice<T, O> ⓘwhere
O: BitOrder,
§fn try_view_bits_mut<O>(
&mut self,
) -> Result<&mut BitSlice<T, O>, BitSpanError<T>>where
O: BitOrder,
fn try_view_bits_mut<O>(
&mut self,
) -> Result<&mut BitSlice<T, O>, BitSpanError<T>>where
O: BitOrder,
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T: BitStore,
impl<T> BitViewSized for Twhere
T: BitStore,
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fn as_raw_slice(&self) -> &[<T as BitView>::Store]
§fn as_raw_mut_slice(&mut self) -> &mut [<T as BitView>::Store]
fn as_raw_mut_slice(&mut self) -> &mut [<T as BitView>::Store]
§fn into_bitarray<O>(self) -> BitArray<Self, O>where
O: BitOrder,
fn into_bitarray<O>(self) -> BitArray<Self, O>where
O: BitOrder,
self
in a BitArray
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Layout§
Note: Most layout information is completely unstable and may even differ between compilations. The only exception is types with certain repr(...)
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Size: 8 bytes