Crates.io | watto |
lib.rs | watto |
version | 0.2.0 |
source | src |
created_at | 2022-09-12 13:21:43.997749 |
updated_at | 2024-11-22 11:13:13.380562 |
description | Utilities for parsing and serializing Plain Old Data |
homepage | https://github.com/getsentry/watto |
repository | https://github.com/getsentry/watto |
max_upload_size | |
id | 663741 |
size | 36,152 |
Utilities for parsing and serializing Plain Old Data.
The API is primarily defined on the [Pod
] trait, which can be implemented
for #[repr(C)]
types. It is then possible to get a reference to that [Pod
]
or a slice thereof directly from an underlying buffer.
Similarly, the [Pod
] can also be turned into its underlying buffer as well,
for example to write it out into an output buffer.
writer
: Exports an additional [Writer
] wrapping a [std::io::Write
]
which allows explicitly aligning the output buffer by adding padding bytes.
strings
: Exports a [StringTable
] for serializing and reading deduplicated strings.
use std::mem;
use std::io::Write;
use watto::Pod;
/// Our format looks like this:
/// * A header, containing the number of `A`s.
/// * An aligned slice of `A`s (length given by the header)
/// * An aligned slice of `B`s (length implicitly given by end of buffer)
#[repr(C)]
struct Header {
version: u32,
num_as: u32,
}
unsafe impl Pod for Header {}
#[repr(C)]
#[derive(Debug, PartialEq)]
struct A(u16);
unsafe impl Pod for A {}
#[repr(C)]
#[derive(Debug, PartialEq)]
struct B(u64);
unsafe impl Pod for B {}
// Writing into an output buffer:
let mut writer = watto::Writer::new(vec![]);
writer.write_all(Header { version: 1, num_as: 3 }.as_bytes()).unwrap();
writer.align_to(mem::align_of::<A>()).unwrap();
writer.write_all(&[A(1), A(2), A(3)].as_bytes()).unwrap();
writer.align_to(mem::align_of::<B>()).unwrap();
writer.write_all(&[B(4), B(5), B(6)].as_bytes()).unwrap();
let buffer = writer.into_inner();
// Reading from a buffer:
let buffer = &buffer;
let (header, buffer) = Header::ref_from_prefix(buffer).unwrap();
let (_, buffer) = watto::align_to(buffer, mem::align_of::<A>()).unwrap();
let (r#as, buffer) = A::slice_from_prefix(buffer, header.num_as as usize).unwrap();
let (_, buffer) = watto::align_to(buffer, mem::align_of::<B>()).unwrap();
let bs = B::slice_from_bytes(buffer).unwrap();
assert_eq!(header.num_as, 3);
assert_eq!(r#as, &[A(1), A(2), A(3)]);
assert_eq!(bs, &[B(4), B(5), B(6)]);
Watto is strongly inspired by zerocopy
.
Differences between the two include:
zerocopy
has two distinct traits for reading and writing bytes, watto
only has one for both.zerocopy
, reading a value requires wrapping it in LayoutVerified
. In watto
, types implementing
Pod
can be read directly.watto
includes a Writer
that allows explicit alignment of output.watto
includes a StringTable
for (de)serializing strings.zerocopy
includes endianness-aware integer types.Qui-Gon Jinn: I have... acquired a pod in a game of chance. The fastest ever built.
Watto: I hope you didn't kill anyone I know for it.
Watto is licensed under the Apache-2.0 license.