You signed in with another tab or window. Reload to refresh your session.You signed out in another tab or window. Reload to refresh your session.You switched accounts on another tab or window. Reload to refresh your session.Dismiss alert
For quickly parsing floating-point numbers third-party crates are no longer needed. A fast float parsing algorithm by the author of lexical has been merged into libcore.
For quickly parsing integers, consider atoi and btoi crates (100% safe code). atoi_radix10 provides even faster parsing, but only with -C target-cpu=native, and at the cost of some unsafe.
For formatting integers in a #[no_std] context consider the numtoa crate.
For working with big numbers consider num-bigint and num-traits.
The text was updated successfully, but these errors were encountered:
lexical6.1.1lexicalcontains multiple soundness issues:BytesItertrait has safety invariants but is public and not markedunsafewrite_float()callsMaybeUninit::assume_init()on uninitialized data, which is is not allowed by the Rust abstract machineradix()callsMaybeUninit::assume_init()on uninitialized data, which is is not allowed by the Rust abstract machineThe crate also has some correctness issues.
Alternatives
For quickly parsing floating-point numbers third-party crates are no longer needed. A fast float parsing algorithm by the author of
lexicalhas been merged into libcore.For quickly parsing integers, consider
atoiandbtoicrates (100% safe code).atoi_radix10provides even faster parsing, but only with-C target-cpu=native, and at the cost of someunsafe.For formatting integers in a
#[no_std]context consider thenumtoacrate.For working with big numbers consider
num-bigintandnum-traits.The text was updated successfully, but these errors were encountered: