Struct alloc::raw_vec::RawVec
[−]
[src]
pub struct RawVec<T> { // some fields omitted }
A low-level utility for more ergonomically allocating, reallocating, and deallocating a a buffer of memory on the heap without having to worry about all the corner cases involved. This type is excellent for building your own data structures like Vec and VecDeque. In particular:
- Produces heap::EMPTY on zero-sized types
- Produces heap::EMPTY on zero-length allocations
- Catches all overflows in capacity computations (promotes them to "capacity overflow" panics)
- Guards against 32-bit systems allocating more than isize::MAX bytes
- Guards against overflowing your length
- Aborts on OOM
- Avoids freeing heap::EMPTY
- Contains a ptr::Unique and thus endows the user with all related benefits
This type does not in anyway inspect the memory that it manages. When dropped it will free its memory, but it won't try to Drop its contents. It is up to the user of RawVec to handle the actual things stored inside of a RawVec.
Note that a RawVec always forces its capacity to be usize::MAX for zero-sized types. This enables you to use capacity growing logic catch the overflows in your length that might occur with zero-sized types.
However this means that you need to be careful when roundtripping this type
with a Box<[T]>
: cap()
won't yield the len. However with_capacity
,
shrink_to_fit
, and from_box
will actually set RawVec's private capacity
field. This allows zero-sized types to not be special-cased by consumers of
this type.
Methods
impl<T> RawVec<T>
fn new() -> Self
Creates the biggest possible RawVec without allocating. If T has positive
size, then this makes a RawVec with capacity 0. If T has 0 size, then it
it makes a RawVec with capacity usize::MAX
. Useful for implementing
delayed allocation.
fn with_capacity(cap: usize) -> Self
Creates a RawVec with exactly the capacity and alignment requirements
for a [T; cap]
. This is equivalent to calling RawVec::new when cap
is 0
or T is zero-sized. Note that if T
is zero-sized this means you will not
get a RawVec with the requested capacity!
Panics
- Panics if the requested capacity exceeds
usize::MAX
bytes. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
Aborts
Aborts on OOM
unsafe fn from_raw_parts(ptr: *mut T, cap: usize) -> Self
Reconstitutes a RawVec from a pointer and capacity.
Undefined Behavior
The ptr must be allocated, and with the given capacity. The
capacity cannot exceed isize::MAX
(only a concern on 32-bit systems).
If the ptr and capacity come from a RawVec, then this is guaranteed.
fn from_box(slice: Box<[T]>) -> Self
Converts a Box<[T]>
into a RawVec<T>
.
impl<T> RawVec<T>
fn ptr(&self) -> *mut T
Gets a raw pointer to the start of the allocation. Note that this is
heap::EMPTY if cap = 0
or T is zero-sized. In the former case, you must
be careful.
fn cap(&self) -> usize
Gets the capacity of the allocation.
This will always be usize::MAX
if T
is zero-sized.
fn double(&mut self)
Doubles the size of the type's backing allocation. This is common enough to want to do that it's easiest to just have a dedicated method. Slightly more efficient logic can be provided for this than the general case.
This function is ideal for when pushing elements one-at-a-time because
you don't need to incur the costs of the more general computations
reserve needs to do to guard against overflow. You do however need to
manually check if your len == cap
.
Panics
- Panics if T is zero-sized on the assumption that you managed to exhaust
all
usize::MAX
slots in your imaginary buffer. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
Aborts
Aborts on OOM
Examples
struct MyVec<T> { buf: RawVec<T>, len: usize, } impl<T> MyVec<T> { pub fn push(&mut self, elem: T) { if self.len == self.buf.cap() { self.buf.double(); } // double would have aborted or panicked if the len exceeded // `isize::MAX` so this is safe to do unchecked now. unsafe { ptr::write(self.buf.ptr().offset(self.len as isize), elem); } self.len += 1; } }
fn double_in_place(&mut self) -> bool
Attempts to double the size of the type's backing allocation in place. This is common enough to want to do that it's easiest to just have a dedicated method. Slightly more efficient logic can be provided for this than the general case.
Returns true if the reallocation attempt has succeeded, or false otherwise.
Panics
- Panics if T is zero-sized on the assumption that you managed to exhaust
all
usize::MAX
slots in your imaginary buffer. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
fn reserve_exact(&mut self, used_cap: usize, needed_extra_cap: usize)
Ensures that the buffer contains at least enough space to hold
used_cap + needed_extra_cap
elements. If it doesn't already,
will reallocate the minimum possible amount of memory necessary.
Generally this will be exactly the amount of memory necessary,
but in principle the allocator is free to give back more than
we asked for.
If used_cap
exceeds self.cap()
, this may fail to actually allocate
the requested space. This is not really unsafe, but the unsafe
code you write that relies on the behavior of this function may break.
Panics
- Panics if the requested capacity exceeds
usize::MAX
bytes. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
Aborts
Aborts on OOM
fn reserve(&mut self, used_cap: usize, needed_extra_cap: usize)
Ensures that the buffer contains at least enough space to hold
used_cap + needed_extra_cap
elements. If it doesn't already have
enough capacity, will reallocate enough space plus comfortable slack
space to get amortized O(1)
behavior. Will limit this behavior
if it would needlessly cause itself to panic.
If used_cap
exceeds self.cap()
, this may fail to actually allocate
the requested space. This is not really unsafe, but the unsafe
code you write that relies on the behavior of this function may break.
This is ideal for implementing a bulk-push operation like extend
.
Panics
- Panics if the requested capacity exceeds
usize::MAX
bytes. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
Aborts
Aborts on OOM
Examples
struct MyVec<T> { buf: RawVec<T>, len: usize, } impl<T> MyVec<T> { pub fn push_all(&mut self, elems: &[T]) { self.buf.reserve(self.len, elems.len()); // reserve would have aborted or panicked if the len exceeded // `isize::MAX` so this is safe to do unchecked now. for x in elems { unsafe { ptr::write(self.buf.ptr().offset(self.len as isize), x.clone()); } self.len += 1; } } }
fn reserve_in_place(&mut self, used_cap: usize, needed_extra_cap: usize) -> bool
Attempts to ensure that the buffer contains at least enough space to hold
used_cap + needed_extra_cap
elements. If it doesn't already have
enough capacity, will reallocate in place enough space plus comfortable slack
space to get amortized O(1)
behaviour. Will limit this behaviour
if it would needlessly cause itself to panic.
If used_cap
exceeds self.cap()
, this may fail to actually allocate
the requested space. This is not really unsafe, but the unsafe
code you write that relies on the behaviour of this function may break.
Returns true if the reallocation attempt has succeeded, or false otherwise.
Panics
- Panics if the requested capacity exceeds
usize::MAX
bytes. - Panics on 32-bit platforms if the requested capacity exceeds
isize::MAX
bytes.
fn shrink_to_fit(&mut self, amount: usize)
Shrinks the allocation down to the specified amount. If the given amount is 0, actually completely deallocates.
Panics
Panics if the given amount is larger than the current capacity.
Aborts
Aborts on OOM.
unsafe fn into_box(self) -> Box<[T]>
Converts the entire buffer into Box<[T]>
.
While it is not strictly Undefined Behavior to call this procedure while some of the RawVec is unintialized, it cetainly makes it trivial to trigger it.
Note that this will correctly reconstitute any cap
changes
that may have been performed. (see description of type for details)
fn unsafe_no_drop_flag_needs_drop(&self) -> bool
This is a stupid name in the hopes that someone will find this in the not too distant future and remove it with the rest of