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Add VarZeroCow
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@Manishearth
Manishearth committed Nov 12, 2024
1 parent 09fde64 commit e5217ce
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295 changes: 295 additions & 0 deletions utils/zerovec/src/cow.rs
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// This file is part of ICU4X. For terms of use, please see the file
// called LICENSE at the top level of the ICU4X source tree
// (online at: https://github.com/unicode-org/icu4x/blob/main/LICENSE ).

use crate::ule::{EncodeAsVarULE, UleError, VarULE};
use alloc::boxed::Box;
use core::fmt;
use core::marker::PhantomData;
use core::mem::ManuallyDrop;
use core::ops::Deref;
use core::ptr::NonNull;

/// Copy-on-write type that efficiently represents [`VarULE`] types as their bitstream representation.
///
/// The primary use case for [`VarULE`] types is the ability to store complex variable-length datastructures
/// inside variable-length collections like [`crate::VarZeroVec`].
///
/// Underlying this ability is the fact that [`VarULE`] types can be efficiently represented as a flat
/// bytestream.
///
/// In zero-copy cases, sometimes one wishes to unconditionally use this bytestream representation, for example
/// to save stack size. A struct with five `Cow<'a, str>`s is not as stack-efficient as a single `Cow` containing
/// the bytestream representation of, say, `Tuple5VarULE<str, str, str, str, str>`.
///
/// This type helps in this case: It is logically a `Cow<'a, V>`, with some optimizations, that is guaranteed
/// to serialize as a byte stream in machine-readable scenarios.
pub struct VarZeroCow<'a, V: ?Sized> {
/// Pointer to data
///
/// # Safety Invariants
///
/// 1. This slice must always be valid as a byte slice
/// 2. This slice must represent a valid `V`
/// 3. If `owned` is true, this slice can be freed.
///
/// The slice may NOT have the lifetime of `'a`.
buf: NonNull<[u8]>,
/// The buffer is `Box<[u8]>` if true
owned: bool,
_phantom: PhantomData<(&'a V, Box<V>)>,
}

// This is mostly just a `Cow<[u8]>`, safe to implement Send and Sync on
unsafe impl<'a, V: ?Sized> Send for VarZeroCow<'a, V> {}
unsafe impl<'a, V: ?Sized> Sync for VarZeroCow<'a, V> {}

impl<'a, V: ?Sized> Drop for VarZeroCow<'a, V> {
fn drop(&mut self) {
if self.owned {
unsafe {
// Safety: (Invariant 3 on buf)
// since owned is true, this is a valid Box<[u8]> and can be cleaned up
let _ = Box::<[u8]>::from_raw(self.buf.as_ptr());
}
}
}
}

impl<'a, V: VarULE + ?Sized> VarZeroCow<'a, V> {
/// Construct from a slice. Errors if the slice doesn't represent a valid `V`
pub fn parse_byte_slice(bytes: &'a [u8]) -> Result<Self, UleError> {
let val = V::parse_byte_slice(bytes)?;
Ok(Self::new_borrowed(val))
}

/// Construct from an owned slice. Errors if the slice doesn't represent a valid `V`
pub fn parse_owned_byte_slice(bytes: Box<[u8]>) -> Result<Self, UleError> {
V::validate_byte_slice(&*bytes)?;
let bytes = ManuallyDrop::new(bytes);
let buf: NonNull<[u8]> = (&**bytes).into();
Ok(Self {
// Invariants upheld:
// 1 & 2: The bytes came from `val` so they're a valid value and byte slice
// 3: This is owned, so we set owned to true.
buf,
owned: true,
_phantom: PhantomData,
})
}

/// Construct from a slice that is known to represent a valid `V`
///
/// # Safety
///
/// `bytes` must be a valid `V`, i.e. it must successfully pass through
/// `V::parse_byte_slice()` or `V::validate_byte_slice()`.
pub unsafe fn from_byte_slice_unchecked(bytes: &'a [u8]) -> Self {
let v = unsafe {
// Safety: invariant passed down from caller
V::from_byte_slice_unchecked(bytes)
};

Self::new_borrowed(v)
}

/// Construct this from an [`EncodeAsVarULE`] version of the contained type
///
/// Will always construct an owned version
pub fn from_encodeable<E: EncodeAsVarULE<V>>(encodeable: &E) -> Self {
let b = crate::ule::encode_varule_to_box(encodeable);
Self::new_owned(b)
}

/// Construct a new borrowed version of this
pub fn new_borrowed(val: &'a V) -> Self {
let buf: NonNull<[u8]> = val.as_byte_slice().into();
Self {
// Invariants upheld:
// 1 & 2: The bytes came from `val` so they're a valid value and byte slice
// 3: This is borrowed, so we set owned to false.
buf,
owned: false,
_phantom: PhantomData,
}
}

/// Construct a new borrowed version of this
pub fn new_owned(val: Box<V>) -> Self {
let val = ManuallyDrop::new(val);
let buf: NonNull<[u8]> = val.as_byte_slice().into();
Self {
// Invariants upheld:
// 1 & 2: The bytes came from `val` so they're a valid value and byte slice
// 3: This is owned, so we set owned to true.
buf,
owned: true,
_phantom: PhantomData,
}
}

/// Whether or not this is owned
pub fn is_owned(&self) -> bool {
self.owned
}

/// Get the byte representation of this type
///
/// Is also always a valid `V` and can be passed to
/// `V::from_byte_slice_unchecked()`
pub fn as_bytes(&self) -> &[u8] {
// Safety: Invariant 1 on self.buf
// The valid V invariant comes from Invariant 2
unsafe { self.buf.as_ref() }
}
}

impl<'a, V: VarULE + ?Sized> Deref for VarZeroCow<'a, V> {
type Target = V;
fn deref(&self) -> &V {
// Safety: From invariant 2 on self.buf
unsafe { V::from_byte_slice_unchecked(self.as_bytes()) }
}
}

impl<'a, V: VarULE + ?Sized> From<&'a V> for VarZeroCow<'a, V> {
fn from(other: &'a V) -> Self {
Self::new_borrowed(other)
}
}

impl<'a, V: VarULE + ?Sized> From<Box<V>> for VarZeroCow<'a, V> {
fn from(other: Box<V>) -> Self {
Self::new_owned(other)
}
}

impl<'a, V: VarULE + ?Sized + fmt::Debug> fmt::Debug for VarZeroCow<'a, V> {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> Result<(), fmt::Error> {
self.deref().fmt(f)
}
}

// We need manual impls since `#[derive()]` is disallowed on packed types
impl<'a, V: VarULE + ?Sized + PartialEq> PartialEq for VarZeroCow<'a, V> {
fn eq(&self, other: &Self) -> bool {
self.deref().eq(other.deref())
}
}

impl<'a, V: VarULE + ?Sized + Eq> Eq for VarZeroCow<'a, V> {}

impl<'a, V: VarULE + ?Sized + PartialOrd> PartialOrd for VarZeroCow<'a, V> {
fn partial_cmp(&self, other: &Self) -> Option<core::cmp::Ordering> {
self.deref().partial_cmp(other.deref())
}
}

impl<'a, V: VarULE + ?Sized + Ord> Ord for VarZeroCow<'a, V> {
fn cmp(&self, other: &Self) -> core::cmp::Ordering {
self.deref().cmp(other.deref())
}
}

// # Safety
//
// encode_var_ule_len: Defers to the impl for &V
//
// encode_var_ule_write: Defers to the impl for &V
unsafe impl<'a, V: VarULE + ?Sized> EncodeAsVarULE<V> for VarZeroCow<'a, V> {
fn encode_var_ule_as_slices<R>(&self, _: impl FnOnce(&[&[u8]]) -> R) -> R {
// unnecessary if the other two are implemented
unreachable!()
}

#[inline]
fn encode_var_ule_len(&self) -> usize {
<&V as EncodeAsVarULE<V>>::encode_var_ule_len(&self.deref())
}

#[inline]
fn encode_var_ule_write(&self, dst: &mut [u8]) {
<&V as EncodeAsVarULE<V>>::encode_var_ule_write(&self.deref(), dst)
}
}

#[cfg(feature = "serde")]
impl<'a, V: VarULE + ?Sized + serde::Serialize> serde::Serialize for VarZeroCow<'a, V> {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: serde::Serializer,
{
if serializer.is_human_readable() {
<V as serde::Serialize>::serialize(self.deref(), serializer)
} else {
serializer.serialize_bytes(self.as_bytes())
}
}
}

#[cfg(feature = "serde")]
impl<'a, 'de: 'a, V: VarULE + ?Sized> serde::Deserialize<'de> for VarZeroCow<'a, V>
where
Box<V>: serde::Deserialize<'de>,
{
fn deserialize<Des>(deserializer: Des) -> Result<Self, Des::Error>
where
Des: serde::Deserializer<'de>,
{
if deserializer.is_human_readable() {
let b = Box::<V>::deserialize(deserializer)?;
Ok(Self::new_owned(b))
} else {
let bytes = <&[u8]>::deserialize(deserializer)?;
Self::parse_byte_slice(bytes).map_err(serde::de::Error::custom)
}
}
}

#[cfg(feature = "databake")]
impl<'a, V: VarULE + ?Sized> databake::Bake for VarZeroCow<'a, V> {
fn bake(&self, env: &databake::CrateEnv) -> databake::TokenStream {
env.insert("zerovec");
let bytes = self.as_bytes().bake(env);
databake::quote! {
zerovec::VarZeroCow::from_byte_slice_unchecked(#bytes)
}
}
}

#[cfg(feature = "databake")]
impl<'a, V: VarULE + ?Sized> databake::BakeSize for VarZeroCow<'a, V> {
fn borrows_size(&self) -> usize {
self.as_bytes().len()
}
}

#[cfg(test)]
mod tests {
use super::VarZeroCow;
use crate::ule::tuplevar::Tuple3VarULE;
use crate::vecs::{VarZeroSlice};
#[test]
fn test_cow_roundtrip() {
type Messy = Tuple3VarULE<str, [u8], VarZeroSlice<str>>;
let vec = vec!["one", "two", "three"];
let messy: VarZeroCow<Messy> =
VarZeroCow::from_encodeable(&("hello", &b"g\xFF\xFFdbye"[..], vec));

assert_eq!(messy.a(), "hello");
assert_eq!(messy.b(), b"g\xFF\xFFdbye");
assert_eq!(&messy.c()[1], "two");

#[cfg(feature = "serde")]
{
let bincode = bincode::serialize(&messy).unwrap();
let deserialized: VarZeroCow<Messy> = bincode::deserialize(&bincode).unwrap();
assert_eq!(messy, deserialized, "Single element roundtrips with bincode");

let json = serde_json::to_string(&messy).unwrap();
let deserialized: VarZeroCow<Messy> = serde_json::from_str(&json).unwrap();
assert_eq!(messy, deserialized, "Single element roundtrips with serde");

}
}
}
3 changes: 2 additions & 1 deletion utils/zerovec/src/lib.rs
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Expand Up @@ -213,6 +213,7 @@

extern crate alloc;

mod cow;
#[cfg(feature = "hashmap")]
pub mod hashmap;
mod map;
Expand All @@ -225,11 +226,11 @@ mod zerovec;
// This must be after `mod zerovec` for some impls on `ZeroSlice<RawBytesULE>`
// to show up in the right spot in the docs
pub mod ule;

#[cfg(feature = "yoke")]
mod yoke_impls;
mod zerofrom_impls;

pub use crate::cow::VarZeroCow;
#[cfg(feature = "hashmap")]
pub use crate::hashmap::ZeroHashMap;
pub use crate::map::map::ZeroMap;
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