Struct bitvec::ptr::BitPtrRange
source · #[repr(C)]pub struct BitPtrRange<M = Const, T = usize, O = Lsb0>where
M: Mutability,
T: BitStore,
O: BitOrder,{
pub start: BitPtr<M, T, O>,
pub end: BitPtr<M, T, O>,
}
Expand description
Bit-Pointer Range
This type is equivalent in purpose, but superior in functionality, to
Range<BitPtr<M, T, O>>
. If the standard library stabilizes Step
, the trait
used to drive Range
operations, then this type will likely be destroyed in
favor of an impl Step for BitPtr
block and use of standard ranges.
Like Range
, this is a half-open set where the low bit-pointer selects the
first live bit in a span and the high bit-pointer selects the first dead bit
after the span.
This type is not capable of inspecting provenance, and has no requirement of its
own that both bit-pointers be derived from the same provenance region. It is
safe to construct and use with any pair of bit-pointers; however, the
bit-pointers it produces are, necessarily, unsafe
to use.
Original
Memory Representation
BitPtr
is required to be repr(packed)
in order to satisfy the BitRef
size optimizations. In order to stay minimally sized itself, this type has no
alignment requirement, and reading either bit-pointer may incur a misalignment
penalty. Reads are always safe and valid; they may merely be slow.
Type Parameters
This takes the same type parameters as BitPtr
, as it is simply a pair of
bit-pointers with range semantics.
Fields§
§start: BitPtr<M, T, O>
The lower, inclusive, bound of the range. The bit to which this points is considered live.
end: BitPtr<M, T, O>
The higher, exclusive, bound of the range. The bit to which this points is considered dead, and the pointer may be one bit beyond the bounds of an allocation region.
Because Rust and LLVM both define the address of base + (len * width)
as being within the provenance of base
, even though that address may
itself be the base address of another region in a different provenance,
and bit-pointers are always composed of an ordinary memory address and a
bit-counter, the ending bit-pointer is always valid.
Implementations§
source§impl<M, T, O> BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
sourcepub const EMPTY: Self = _
pub const EMPTY: Self = _
The canonical empty range. All ranges with zero length (equal .start
and .end
) are equally empty.
sourcepub fn from_range(_: Range<BitPtr<M, T, O>>) -> Self
pub fn from_range(_: Range<BitPtr<M, T, O>>) -> Self
Explicitly converts a Range<BitPtr>
into a BitPtrRange
.
sourcepub fn into_range(self) -> Range<BitPtr<M, T, O>>
pub fn into_range(self) -> Range<BitPtr<M, T, O>>
Explicitly converts a BitPtrRange
into a Range<BitPtr>
.
sourcepub fn is_empty(&self) -> bool
pub fn is_empty(&self) -> bool
Tests if the range is empty (the distance between bit-pointers is 0
).
Original
Examples
use bitvec::prelude::*;
use bitvec::ptr::BitPtrRange;
let data = 0u8;
let bp = BitPtr::<_, _, Lsb0>::from_ref(&data);
let mut range = BitPtrRange::from_range(bp .. bp.wrapping_add(1));
assert!(!range.is_empty());
assert_ne!(range.start, range.end);
range.next();
assert!(range.is_empty());
assert_eq!(range.start, range.end);
sourcepub fn contains<M2, T2>(&self, pointer: &BitPtr<M2, T2, O>) -> boolwhere
M2: Mutability,
T2: BitStore,
pub fn contains<M2, T2>(&self, pointer: &BitPtr<M2, T2, O>) -> boolwhere M2: Mutability, T2: BitStore,
Tests if a given bit-pointer is contained within the range.
Bit-pointer ordering is defined when the types have the same exact
BitOrder
type parameter and the same BitStore::Mem
associated type
(but are free to differ in alias condition!). Inclusion in a range
occurs when the bit-pointer is not strictly less than the range start,
and is strictly less than the range end.
Original
Examples
use bitvec::prelude::*;
use bitvec::ptr::BitPtrRange;
use core::cell::Cell;
let data = 0u16;
let bp = BitPtr::<_, _, Lsb0>::from_ref(&data);
let mut range = BitPtrRange::from_range(bp .. bp.wrapping_add(16));
range.nth(2);
range.nth_back(2);
assert!(bp < range.start);
assert!(!range.contains(&bp));
let mid = bp.wrapping_add(8);
let same_mem = mid.cast::<Cell<u16>>();
assert!(range.contains(&mid));
Casting to a different BitStore
type whose Mem
parameter differs
from the range always results in a false
response, even if the pointer
being tested is numerically within the range.
Trait Implementations§
source§impl<M, T, O> Clone for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> Clone for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> Debug for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> Debug for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> Default for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> Default for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> DoubleEndedIterator for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> DoubleEndedIterator for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§fn next_back(&mut self) -> Option<Self::Item>
fn next_back(&mut self) -> Option<Self::Item>
source§fn nth_back(&mut self, n: usize) -> Option<Self::Item>
fn nth_back(&mut self, n: usize) -> Option<Self::Item>
n
th element from the end of the iterator. Read moresource§fn advance_back_by(&mut self, n: usize) -> Result<(), NonZeroUsize>
fn advance_back_by(&mut self, n: usize) -> Result<(), NonZeroUsize>
iter_advance_by
)n
elements. Read more1.27.0 · source§fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> Rwhere
Self: Sized,
F: FnMut(B, Self::Item) -> R,
R: Try<Output = B>,
fn try_rfold<B, F, R>(&mut self, init: B, f: F) -> Rwhere Self: Sized, F: FnMut(B, Self::Item) -> R, R: Try<Output = B>,
Iterator::try_fold()
: it takes
elements starting from the back of the iterator. Read moresource§impl<M, T, O> ExactSizeIterator for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> ExactSizeIterator for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> From<BitPtrRange<M, T, O>> for Range<BitPtr<M, T, O>>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> From<BitPtrRange<M, T, O>> for Range<BitPtr<M, T, O>>where M: Mutability, T: BitStore, O: BitOrder,
source§fn from(range: BitPtrRange<M, T, O>) -> Self
fn from(range: BitPtrRange<M, T, O>) -> Self
source§impl<M, T, O> From<Range<BitPtr<M, T, O>>> for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> From<Range<BitPtr<M, T, O>>> for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> Hash for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> Hash for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§impl<M, T, O> Iterator for BitPtrRange<M, T, O>where
M: Mutability,
T: BitStore,
O: BitOrder,
impl<M, T, O> Iterator for BitPtrRange<M, T, O>where M: Mutability, T: BitStore, O: BitOrder,
source§fn size_hint(&self) -> (usize, Option<usize>)
fn size_hint(&self) -> (usize, Option<usize>)
source§fn count(self) -> usize
fn count(self) -> usize
source§fn last(self) -> Option<Self::Item>
fn last(self) -> Option<Self::Item>
source§fn next(&mut self) -> Option<Self::Item>
fn next(&mut self) -> Option<Self::Item>
source§fn nth(&mut self, n: usize) -> Option<Self::Item>
fn nth(&mut self, n: usize) -> Option<Self::Item>
n
th element of the iterator. Read moresource§fn next_chunk<const N: usize>(
&mut self
) -> Result<[Self::Item; N], IntoIter<Self::Item, N>>where
Self: Sized,
fn next_chunk<const N: usize>( &mut self ) -> Result<[Self::Item; N], IntoIter<Self::Item, N>>where Self: Sized,
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)n
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