Expand description
SIMD-accelerated hex encoding and decoding.
Examples
use hex_simd::AsciiCase;
let bytes = b"Hello world!";
let encoded = hex_simd::encode_to_string(bytes, AsciiCase::Lower);
assert_eq!(encoded, "48656c6c6f20776f726c6421");
let decoded = hex_simd::decode_to_vec(encoded).unwrap();
assert_eq!(decoded, bytes);
Profile settings
To ensure maximum performance, the following profile settings are recommended when compiling this crate:
opt-level = 3
lto = "fat"
codegen-units = 1
CPU feature detection
The feature flag detect
is enabled by default.
When the feature flag detect
is enabled, the APIs will test at runtime whether the CPU (and OS) supports the required instruction set. The runtime detection will be skipped if the fastest implementation is already available at compile-time.
When the feature flag detect
is disabled, the APIs will test at compile-time whether the compiler flags supports the required instruction set.
If the environment supports SIMD acceleration, the APIs will call SIMD functions under the hood. Otherwise, the APIs will call fallback functions.
When the feature flag unstable
is enabled, this crate requires the nightly toolchain to compile.
no_std
support
You can disable the default features to use this crate in a no_std
environment.
You can enable the feature flag alloc
if the environment supports heap allocation.
Currently the feature flag detect
depends on the standard library. Dynamic CPU feature detection is not available in no_std
environments.
Structs
Enums
Traits
Functions
data
is a hex string.alloc
&mut str
.alloc