Crate simdutf8[−][src]
Blazingly fast API-compatible UTF-8 validation for Rust using SIMD extensions, based on the implementation from simdjson. Originally ported to Rust by the developers of simd-json.rs.
Quick start
Use basic::from_utf8()
as a drop-in replacement for std::str::from_utf8()
.
use simdutf8::basic::from_utf8; println!("{}", from_utf8(b"I \xE2\x9D\xA4\xEF\xB8\x8F UTF-8!").unwrap());
If you need detailed information on validation failures, use compat::from_utf8()
instead.
use simdutf8::compat::from_utf8; let err = from_utf8(b"I \xE2\x9D\xA4\xEF\xB8 UTF-8!").unwrap_err(); assert_eq!(err.valid_up_to(), 5); assert_eq!(err.error_len(), Some(2));
APIs
Basic flavor
Use the basic
API flavor for maximum speed. It is fastest on valid UTF-8, but only checks
for errors after processing the whole byte sequence and does not provide detailed information if the data
is not valid UTF-8. basic::Utf8Error
is a zero-sized error struct.
Compat flavor
The compat
flavor is fully API-compatible with std::str::from_utf8
. In particular, compat::from_utf8()
returns a compat::Utf8Error
, which has valid_up_to()
and
error_len()
methods. The first is useful for verification of streamed data. The
second is useful e.g. for replacing invalid byte sequences with a replacement character.
It also fails early: errors are checked on-the-fly as the string is processed and once
an invalid UTF-8 sequence is encountered, it returns without processing the rest of the data.
This comes at a performance penality compared to the basic
module even if the input is valid UTF-8.
Implementation selection
The fastest implementation is selected at runtime using the std::is_x86_feature_detected!
macro unless the CPU
targeted by the compiler supports the fastest available implementation.
So if you compile with RUSTFLAGS="-C target-cpu=native"
on a recent x86-64 machine, the AVX 2 implementation is selected at
compile time and runtime selection is disabled.
For no-std support (compiled with --no-default-features
) the implementation is always selected at compile time based on
the targeted CPU. Use RUSTFLAGS="-C target-feature=+avx2"
for the AVX 2 implementation or RUSTFLAGS="-C target-feature=+sse4.2"
for the SSE 4.2 implementation.
If you want to be able to call A SIMD implementation directly, use the public_imp
feature flag. The validation
implementations are then accessible via basic::imp::x86
and compat::imp::x86
.
Modules
basic | The |
compat | The |