Function bitvec::slice::from_raw_parts
source · pub unsafe fn from_raw_parts<'a, T, O>(
data: BitPtr<Const, T, O>,
len: usize,
) -> Result<&'a BitSlice<T, O>, BitSpanError<T>>
Expand description
§Raw Bit-Slice Construction
This produces an &BitSlice<T, O>
reference handle from a BitPtr<Const, T, O>
bit-pointer and a length.
§Parameters
data
: a bit-pointer to the starting bit of the produced bit-slice. This should generally have been produced byBitSlice::as_ptr
, but you are able to construct these pointers directly if you wish.len
: the number of bits, beginning atdata
, that the produced bit-slice includes. This value cannot depart an allocation area, or exceedBitSlice
’s encoding limitations.
§Returns
This returns a Result
, because it can detect and gracefully fail if len
is too large, or if data
is ill-formed. This fails if it has an error while
encoding the &BitSlice
, and succeeds if it is able to produce a correctly
encoded value.
Note that this is not able to detect semantic violations of the memory model. You are responsible for upholding memory safety.
§Original
§API Differences
This takes a BitPtr<Const, T, O>
instead of a hypothetical *const Bit
,
because bitvec
is not able to express raw Rust pointers to individual bits.
Additionally, it returns a Result
rather than a direct bit-slice, because the
given len
argument may be invalid to encode into a &BitSlice
reference.
§Safety
This has the same memory safety requirements as the standard-library function:
data
must be valid for reads and writes of at leastlen
bits,- The bits that the produced bit-slice refers to must be wholly unreachable by
any other part of the program for the duration of the lifetime
'a
,
and additionally imposes some of its own:
len
cannot exceedBitSlice::MAX_BITS
.
§Examples
use bitvec::{
prelude::*,
index::BitIdx,
ptr::Const,
slice as bv_slice,
};
let elem = 6u16;
let addr = (&elem).into();
let head = BitIdx::new(1).unwrap();
let data: BitPtr<Const, u16> = BitPtr::new(addr, head).unwrap();
let bits = unsafe { bv_slice::from_raw_parts(data, 3) };
assert_eq!(bits.unwrap(), bits![1, 1, 0]);