Struct zerovec::VarZeroSlice
source · pub struct VarZeroSlice<T: ?Sized, F = Index16> { /* private fields */ }
Expand description
A zero-copy “slice”, that works for unsized types, i.e. the zero-copy version of [T]
where T
is not Sized
.
This behaves similarly to VarZeroVec<T>
, however VarZeroVec<T>
is allowed to contain
owned data and as such is ideal for deserialization since most human readable
serialization formats cannot unconditionally deserialize zero-copy.
This type can be used inside VarZeroVec<T>
and ZeroMap
:
This essentially allows for the construction of zero-copy types isomorphic to Vec<Vec<T>>
by instead
using VarZeroVec<ZeroSlice<T>>
.
The F
type parameter is a VarZeroVecFormat
(see its docs for more details), which can be used to select the
precise format of the backing buffer with various size and performance tradeoffs. It defaults to Index16
.
This type can be nested within itself to allow for multi-level nested Vec
s.
§Examples
§Nested Slices
The following code constructs the conceptual zero-copy equivalent of Vec<Vec<Vec<str>>>
use zerovec::{VarZeroSlice, VarZeroVec};
let strings_1: Vec<&str> = vec!["foo", "bar", "baz"];
let strings_2: Vec<&str> = vec!["twelve", "seventeen", "forty two"];
let strings_3: Vec<&str> = vec!["我", "喜歡", "烏龍茶"];
let strings_4: Vec<&str> = vec!["w", "ω", "文", "𑄃"];
let strings_12 = vec![&*strings_1, &*strings_2];
let strings_34 = vec![&*strings_3, &*strings_4];
let all_strings = vec![strings_12, strings_34];
let vzv_1: VarZeroVec<str> = VarZeroVec::from(&strings_1);
let vzv_2: VarZeroVec<str> = VarZeroVec::from(&strings_2);
let vzv_3: VarZeroVec<str> = VarZeroVec::from(&strings_3);
let vzv_4: VarZeroVec<str> = VarZeroVec::from(&strings_4);
let vzv_12 = VarZeroVec::from(&[vzv_1.as_slice(), vzv_2.as_slice()]);
let vzv_34 = VarZeroVec::from(&[vzv_3.as_slice(), vzv_4.as_slice()]);
let vzv_all = VarZeroVec::from(&[vzv_12.as_slice(), vzv_34.as_slice()]);
let reconstructed: Vec<Vec<Vec<String>>> = vzv_all
.iter()
.map(|v: &VarZeroSlice<VarZeroSlice<str>>| {
v.iter()
.map(|x: &VarZeroSlice<_>| {
x.as_varzerovec()
.iter()
.map(|s| s.to_owned())
.collect::<Vec<String>>()
})
.collect::<Vec<_>>()
})
.collect::<Vec<_>>();
assert_eq!(reconstructed, all_strings);
let bytes = vzv_all.as_bytes();
let vzv_from_bytes: VarZeroVec<VarZeroSlice<VarZeroSlice<str>>> =
VarZeroVec::parse_byte_slice(bytes).unwrap();
assert_eq!(vzv_from_bytes, vzv_all);
§Iterate over Windows
Although VarZeroSlice
does not itself have a .windows
iterator like
core::slice::Windows, this behavior can be easily modeled using an iterator:
use zerovec::VarZeroVec;
let vzv = VarZeroVec::<str>::from(&["a", "b", "c", "d"]);
let mut it = vzv.iter().peekable();
while let (Some(x), Some(y)) = (it.next(), it.peek()) {
// Evaluate (x, y) here.
}
Implementations§
source§impl<T: VarULE + ?Sized, F: VarZeroVecFormat> VarZeroSlice<T, F>
impl<T: VarULE + ?Sized, F: VarZeroVecFormat> VarZeroSlice<T, F>
sourcepub const fn new_empty() -> &'static Self
pub const fn new_empty() -> &'static Self
Construct a new empty VarZeroSlice
sourcepub const unsafe fn from_bytes_unchecked(bytes: &[u8]) -> &Self
pub const unsafe fn from_bytes_unchecked(bytes: &[u8]) -> &Self
Uses a &[u8]
buffer as a VarZeroSlice<T>
without any verification.
§Safety
bytes
need to be an output from VarZeroSlice::as_bytes()
.
sourcepub fn len(&self) -> usize
pub fn len(&self) -> usize
Get the number of elements in this slice
§Example
let strings = vec!["foo", "bar", "baz", "quux"];
let vec = VarZeroVec::<str>::from(&strings);
assert_eq!(vec.len(), 4);
sourcepub fn is_empty(&self) -> bool
pub fn is_empty(&self) -> bool
Returns true
if the slice contains no elements.
§Examples
let strings: Vec<String> = vec![];
let vec = VarZeroVec::<str>::from(&strings);
assert!(vec.is_empty());
sourcepub fn iter<'b>(&'b self) -> impl Iterator<Item = &'b T>
pub fn iter<'b>(&'b self) -> impl Iterator<Item = &'b T>
Obtain an iterator over this slice’s elements
§Example
let strings = vec!["foo", "bar", "baz", "quux"];
let vec = VarZeroVec::<str>::from(&strings);
let mut iter_results: Vec<&str> = vec.iter().collect();
assert_eq!(iter_results[0], "foo");
assert_eq!(iter_results[1], "bar");
assert_eq!(iter_results[2], "baz");
assert_eq!(iter_results[3], "quux");
sourcepub fn get(&self, idx: usize) -> Option<&T>
pub fn get(&self, idx: usize) -> Option<&T>
Get one of this slice’s elements, returning None
if the index is out of bounds
§Example
let strings = vec!["foo", "bar", "baz", "quux"];
let vec = VarZeroVec::<str>::from(&strings);
let mut iter_results: Vec<&str> = vec.iter().collect();
assert_eq!(vec.get(0), Some("foo"));
assert_eq!(vec.get(1), Some("bar"));
assert_eq!(vec.get(2), Some("baz"));
assert_eq!(vec.get(3), Some("quux"));
assert_eq!(vec.get(4), None);
sourcepub unsafe fn get_unchecked(&self, idx: usize) -> &T
pub unsafe fn get_unchecked(&self, idx: usize) -> &T
Get one of this slice’s elements
§Safety
index
must be in range
§Example
let strings = vec!["foo", "bar", "baz", "quux"];
let vec = VarZeroVec::<str>::from(&strings);
let mut iter_results: Vec<&str> = vec.iter().collect();
unsafe {
assert_eq!(vec.get_unchecked(0), "foo");
assert_eq!(vec.get_unchecked(1), "bar");
assert_eq!(vec.get_unchecked(2), "baz");
assert_eq!(vec.get_unchecked(3), "quux");
}
sourcepub const fn as_bytes(&self) -> &[u8]
pub const fn as_bytes(&self) -> &[u8]
Get a reference to the entire encoded backing buffer of this slice
The bytes can be passed back to Self::parse_byte_slice()
.
To take the bytes as a vector, see VarZeroVec::into_bytes()
.
§Example
let strings = vec!["foo", "bar", "baz"];
let vzv = VarZeroVec::<str>::from(&strings);
assert_eq!(vzv, VarZeroVec::parse_byte_slice(vzv.as_bytes()).unwrap());
sourcepub const fn as_varzerovec<'a>(&'a self) -> VarZeroVec<'a, T, F>
pub const fn as_varzerovec<'a>(&'a self) -> VarZeroVec<'a, T, F>
Get this VarZeroSlice
as a borrowed VarZeroVec
If you wish to repeatedly call methods on this VarZeroSlice
,
it is more efficient to perform this conversion first
sourcepub fn parse_byte_slice<'a>(slice: &'a [u8]) -> Result<&'a Self, ZeroVecError>
pub fn parse_byte_slice<'a>(slice: &'a [u8]) -> Result<&'a Self, ZeroVecError>
Parse a VarZeroSlice from a slice of the appropriate format
Slices of the right format can be obtained via VarZeroSlice::as_bytes()
source§impl<T, F> VarZeroSlice<T, F>
impl<T, F> VarZeroSlice<T, F>
sourcepub fn binary_search(&self, x: &T) -> Result<usize, usize>
pub fn binary_search(&self, x: &T) -> Result<usize, usize>
Binary searches a sorted VarZeroVec<T>
for the given element. For more information, see
the standard library function binary_search
.
§Example
let strings = vec!["a", "b", "f", "g"];
let vec = VarZeroVec::<str>::from(&strings);
assert_eq!(vec.binary_search("f"), Ok(2));
assert_eq!(vec.binary_search("e"), Err(2));
sourcepub fn binary_search_in_range(
&self,
x: &T,
range: Range<usize>,
) -> Option<Result<usize, usize>>
pub fn binary_search_in_range( &self, x: &T, range: Range<usize>, ) -> Option<Result<usize, usize>>
Binary searches a VarZeroVec<T>
for the given element within a certain sorted range.
If the range is out of bounds, returns None
. Otherwise, returns a Result
according
to the behavior of the standard library function binary_search
.
The index is returned relative to the start of the range.
§Example
let strings = vec!["a", "b", "f", "g", "m", "n", "q"];
let vec = VarZeroVec::<str>::from(&strings);
// Same behavior as binary_search when the range covers the whole slice:
assert_eq!(vec.binary_search_in_range("g", 0..7), Some(Ok(3)));
assert_eq!(vec.binary_search_in_range("h", 0..7), Some(Err(4)));
// Will not look outside of the range:
assert_eq!(vec.binary_search_in_range("g", 0..1), Some(Err(1)));
assert_eq!(vec.binary_search_in_range("g", 6..7), Some(Err(0)));
// Will return indices relative to the start of the range:
assert_eq!(vec.binary_search_in_range("g", 1..6), Some(Ok(2)));
assert_eq!(vec.binary_search_in_range("h", 1..6), Some(Err(3)));
// Will return `None` if the range is out of bounds:
assert_eq!(vec.binary_search_in_range("x", 100..200), None);
assert_eq!(vec.binary_search_in_range("x", 0..200), None);
source§impl<T, F> VarZeroSlice<T, F>
impl<T, F> VarZeroSlice<T, F>
sourcepub fn binary_search_by(
&self,
predicate: impl FnMut(&T) -> Ordering,
) -> Result<usize, usize>
pub fn binary_search_by( &self, predicate: impl FnMut(&T) -> Ordering, ) -> Result<usize, usize>
Binary searches a sorted VarZeroVec<T>
for the given predicate. For more information, see
the standard library function binary_search_by
.
§Example
let strings = vec!["a", "b", "f", "g"];
let vec = VarZeroVec::<str>::from(&strings);
assert_eq!(vec.binary_search_by(|probe| probe.cmp("f")), Ok(2));
assert_eq!(vec.binary_search_by(|probe| probe.cmp("e")), Err(2));
sourcepub fn binary_search_in_range_by(
&self,
predicate: impl FnMut(&T) -> Ordering,
range: Range<usize>,
) -> Option<Result<usize, usize>>
pub fn binary_search_in_range_by( &self, predicate: impl FnMut(&T) -> Ordering, range: Range<usize>, ) -> Option<Result<usize, usize>>
Binary searches a VarZeroVec<T>
for the given predicate within a certain sorted range.
If the range is out of bounds, returns None
. Otherwise, returns a Result
according
to the behavior of the standard library function binary_search
.
The index is returned relative to the start of the range.
§Example
let strings = vec!["a", "b", "f", "g", "m", "n", "q"];
let vec = VarZeroVec::<str>::from(&strings);
// Same behavior as binary_search when the range covers the whole slice:
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("g"), 0..7),
Some(Ok(3))
);
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("h"), 0..7),
Some(Err(4))
);
// Will not look outside of the range:
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("g"), 0..1),
Some(Err(1))
);
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("g"), 6..7),
Some(Err(0))
);
// Will return indices relative to the start of the range:
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("g"), 1..6),
Some(Ok(2))
);
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("h"), 1..6),
Some(Err(3))
);
// Will return `None` if the range is out of bounds:
assert_eq!(
vec.binary_search_in_range_by(|v| v.cmp("x"), 100..200),
None
);
assert_eq!(vec.binary_search_in_range_by(|v| v.cmp("x"), 0..200), None);
Trait Implementations§
source§impl<T: ?Sized, F: VarZeroVecFormat> AsRef<VarZeroSlice<T, F>> for VarZeroSlice<T, F>
impl<T: ?Sized, F: VarZeroVecFormat> AsRef<VarZeroSlice<T, F>> for VarZeroSlice<T, F>
source§fn as_ref(&self) -> &VarZeroSlice<T, F>
fn as_ref(&self) -> &VarZeroSlice<T, F>
source§impl<T, F: VarZeroVecFormat> Debug for VarZeroSlice<T, F>
impl<T, F: VarZeroVecFormat> Debug for VarZeroSlice<T, F>
source§impl<T, E, F> EncodeAsVarULE<VarZeroSlice<T, F>> for &[E]
impl<T, E, F> EncodeAsVarULE<VarZeroSlice<T, F>> for &[E]
source§fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
cb
with a piecewise list of byte slices that when concatenated
produce the memory pattern of the corresponding instance of T
. Read moresource§fn encode_var_ule_len(&self) -> usize
fn encode_var_ule_len(&self) -> usize
VarULE
typesource§fn encode_var_ule_write(&self, dst: &mut [u8])
fn encode_var_ule_write(&self, dst: &mut [u8])
VarULE
type to the dst
buffer. dst
should
be the size of Self::encode_var_ule_len()
source§impl<T, F> EncodeAsVarULE<VarZeroSlice<T, F>> for VarZeroVec<'_, T, F>
impl<T, F> EncodeAsVarULE<VarZeroSlice<T, F>> for VarZeroVec<'_, T, F>
source§fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
cb
with a piecewise list of byte slices that when concatenated
produce the memory pattern of the corresponding instance of T
. Read moresource§fn encode_var_ule_len(&self) -> usize
fn encode_var_ule_len(&self) -> usize
VarULE
typesource§fn encode_var_ule_write(&self, dst: &mut [u8])
fn encode_var_ule_write(&self, dst: &mut [u8])
VarULE
type to the dst
buffer. dst
should
be the size of Self::encode_var_ule_len()
source§impl<T, E, F> EncodeAsVarULE<VarZeroSlice<T, F>> for Vec<E>
impl<T, E, F> EncodeAsVarULE<VarZeroSlice<T, F>> for Vec<E>
source§fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R
cb
with a piecewise list of byte slices that when concatenated
produce the memory pattern of the corresponding instance of T
. Read moresource§fn encode_var_ule_len(&self) -> usize
fn encode_var_ule_len(&self) -> usize
VarULE
typesource§fn encode_var_ule_write(&self, dst: &mut [u8])
fn encode_var_ule_write(&self, dst: &mut [u8])
VarULE
type to the dst
buffer. dst
should
be the size of Self::encode_var_ule_len()
source§impl<'a, T: ?Sized, F> From<&'a VarZeroSlice<T, F>> for VarZeroVec<'a, T, F>
impl<'a, T: ?Sized, F> From<&'a VarZeroSlice<T, F>> for VarZeroVec<'a, T, F>
source§fn from(other: &'a VarZeroSlice<T, F>) -> Self
fn from(other: &'a VarZeroSlice<T, F>) -> Self
source§impl<'a, T: ?Sized + VarULE, F: VarZeroVecFormat> From<&'a VarZeroSlice<T, F>> for VarZeroVecOwned<T, F>
impl<'a, T: ?Sized + VarULE, F: VarZeroVecFormat> From<&'a VarZeroSlice<T, F>> for VarZeroVecOwned<T, F>
source§fn from(other: &'a VarZeroSlice<T, F>) -> Self
fn from(other: &'a VarZeroSlice<T, F>) -> Self
source§impl<T: VarULE + ?Sized, F: VarZeroVecFormat> Index<usize> for VarZeroSlice<T, F>
impl<T: VarULE + ?Sized, F: VarZeroVecFormat> Index<usize> for VarZeroSlice<T, F>
source§impl<T: VarULE + ?Sized + Ord, F: VarZeroVecFormat> Ord for VarZeroSlice<T, F>
impl<T: VarULE + ?Sized + Ord, F: VarZeroVecFormat> Ord for VarZeroSlice<T, F>
source§impl<T, F> PartialEq for VarZeroSlice<T, F>
impl<T, F> PartialEq for VarZeroSlice<T, F>
source§fn eq(&self, other: &VarZeroSlice<T, F>) -> bool
fn eq(&self, other: &VarZeroSlice<T, F>) -> bool
self
and other
values to be equal, and is used
by ==
.source§impl<T: VarULE + ?Sized + PartialOrd, F: VarZeroVecFormat> PartialOrd for VarZeroSlice<T, F>
impl<T: VarULE + ?Sized + PartialOrd, F: VarZeroVecFormat> PartialOrd for VarZeroSlice<T, F>
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moresource§impl<T: VarULE + ?Sized + 'static, F: VarZeroVecFormat> VarULE for VarZeroSlice<T, F>
impl<T: VarULE + ?Sized + 'static, F: VarZeroVecFormat> VarULE for VarZeroSlice<T, F>
source§fn validate_byte_slice(bytes: &[u8]) -> Result<(), ZeroVecError>
fn validate_byte_slice(bytes: &[u8]) -> Result<(), ZeroVecError>
&[u8]
. Read moresource§unsafe fn from_byte_slice_unchecked(bytes: &[u8]) -> &Self
unsafe fn from_byte_slice_unchecked(bytes: &[u8]) -> &Self
&[u8]
, and return it as &Self
with the same lifetime, assuming
that this byte slice has previously been run through Self::parse_byte_slice()
with
success. Read moresource§fn as_byte_slice(&self) -> &[u8]
fn as_byte_slice(&self) -> &[u8]
source§fn parse_byte_slice(bytes: &[u8]) -> Result<&Self, ZeroVecError>
fn parse_byte_slice(bytes: &[u8]) -> Result<&Self, ZeroVecError>
source§impl<'zf, T> ZeroFrom<'zf, VarZeroSlice<T>> for &'zf VarZeroSlice<T>
impl<'zf, T> ZeroFrom<'zf, VarZeroSlice<T>> for &'zf VarZeroSlice<T>
source§fn zero_from(other: &'zf VarZeroSlice<T>) -> Self
fn zero_from(other: &'zf VarZeroSlice<T>) -> Self
C
into a struct that may retain references into C
.source§impl<'zf, T> ZeroFrom<'zf, VarZeroSlice<T>> for VarZeroVec<'zf, T>
impl<'zf, T> ZeroFrom<'zf, VarZeroSlice<T>> for VarZeroVec<'zf, T>
source§fn zero_from(other: &'zf VarZeroSlice<T>) -> Self
fn zero_from(other: &'zf VarZeroSlice<T>) -> Self
C
into a struct that may retain references into C
.source§impl<T, F> ZeroVecLike<T> for VarZeroSlice<T, F>
impl<T, F> ZeroVecLike<T> for VarZeroSlice<T, F>
§type SliceVariant = VarZeroSlice<T, F>
type SliceVariant = VarZeroSlice<T, F>
source§fn zvl_new_borrowed() -> &'static Self::SliceVariant
fn zvl_new_borrowed() -> &'static Self::SliceVariant
source§fn zvl_binary_search(&self, k: &T) -> Result<usize, usize>where
T: Ord,
fn zvl_binary_search(&self, k: &T) -> Result<usize, usize>where
T: Ord,
Ok(index)
if found,
returns Err(insert_index)
if not found, where insert_index
is the
index where it should be inserted to maintain sort order.source§fn zvl_binary_search_in_range(
&self,
k: &T,
range: Range<usize>,
) -> Option<Result<usize, usize>>where
T: Ord,
fn zvl_binary_search_in_range(
&self,
k: &T,
range: Range<usize>,
) -> Option<Result<usize, usize>>where
T: Ord,
None
if the range is out of bounds, and
Ok
or Err
in the same way as zvl_binary_search
.
Indices are returned relative to the start of the range.source§fn zvl_binary_search_by(
&self,
predicate: impl FnMut(&T) -> Ordering,
) -> Result<usize, usize>
fn zvl_binary_search_by( &self, predicate: impl FnMut(&T) -> Ordering, ) -> Result<usize, usize>
Ok(index)
if found,
returns Err(insert_index)
if not found, where insert_index
is the
index where it should be inserted to maintain sort order.source§fn zvl_binary_search_in_range_by(
&self,
predicate: impl FnMut(&T) -> Ordering,
range: Range<usize>,
) -> Option<Result<usize, usize>>
fn zvl_binary_search_in_range_by( &self, predicate: impl FnMut(&T) -> Ordering, range: Range<usize>, ) -> Option<Result<usize, usize>>
None
if the range is out of bounds, and
Ok
or Err
in the same way as zvl_binary_search
.
Indices are returned relative to the start of the range.source§fn zvl_as_borrowed(&self) -> &VarZeroSlice<T, F>
fn zvl_as_borrowed(&self) -> &VarZeroSlice<T, F>
&self
. Read moresource§fn zvl_get_as_t<R>(g: &Self::GetType, f: impl FnOnce(&T) -> R) -> R
fn zvl_get_as_t<R>(g: &Self::GetType, f: impl FnOnce(&T) -> R) -> R
source§fn zvl_is_empty(&self) -> bool
fn zvl_is_empty(&self) -> bool
impl<T, F> Eq for VarZeroSlice<T, F>
Auto Trait Implementations§
impl<T, F> Freeze for VarZeroSlice<T, F>where
T: ?Sized,
impl<T, F> RefUnwindSafe for VarZeroSlice<T, F>
impl<T, F> Send for VarZeroSlice<T, F>
impl<T, F = Index16> !Sized for VarZeroSlice<T, F>
impl<T, F> Sync for VarZeroSlice<T, F>
impl<T, F> Unpin for VarZeroSlice<T, F>
impl<T, F> UnwindSafe for VarZeroSlice<T, F>
Blanket Implementations§
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
source§impl<T> EncodeAsVarULE<T> for T
impl<T> EncodeAsVarULE<T> for T
source§fn encode_var_ule_as_slices<R>(&self, cb: impl FnOnce(&[&[u8]]) -> R) -> R
fn encode_var_ule_as_slices<R>(&self, cb: impl FnOnce(&[&[u8]]) -> R) -> R
cb
with a piecewise list of byte slices that when concatenated
produce the memory pattern of the corresponding instance of T
. Read moresource§fn encode_var_ule_len(&self) -> usize
fn encode_var_ule_len(&self) -> usize
VarULE
typesource§fn encode_var_ule_write(&self, dst: &mut [u8])
fn encode_var_ule_write(&self, dst: &mut [u8])
VarULE
type to the dst
buffer. dst
should
be the size of Self::encode_var_ule_len()