/// Pull out an alternation of literals from the given sequence of HIR /// expressions. /// /// There are numerous ways for this to fail. Generally, this only applies /// to regexes of the form 'foo|bar|baz|...|quux'. It can also fail if there /// are "too few" alternates, in which case, the regex engine is likely faster. /// /// And currently, this only returns something when 'hirs.len() == 1'. pub(crate) fn alternation_literals(
info: &RegexInfo,
hirs: &[&Hir],
) -> Option<Vec<Vec<u8>>> { use regex_syntax::hir::{HirKind, Literal};
// Might as well skip the work below if we know we can't build an // Aho-Corasick searcher. if !cfg!(feature = "perf-literal-multisubstring") { return None;
} // This is pretty hacky, but basically, if `is_alternation_literal` is // true, then we can make several assumptions about the structure of our // HIR. This is what justifies the `unreachable!` statements below. if hirs.len() != 1
|| !info.props()[0].look_set().is_empty()
|| info.props()[0].explicit_captures_len() > 0
|| !info.props()[0].is_alternation_literal()
|| info.config().get_match_kind() != MatchKind::LeftmostFirst
{ return None;
} let hir = &hirs[0]; let alts = match *hir.kind() {
HirKind::Alternation(ref alts) => alts,
_ => return None, // one literal isn't worth it
};
letmut lits = vec![]; for alt in alts { letmut lit = vec![]; match *alt.kind() {
HirKind::Literal(Literal(ref bytes)) => {
lit.extend_from_slice(bytes)
}
HirKind::Concat(ref exprs) => { for e in exprs { match *e.kind() {
HirKind::Literal(Literal(ref bytes)) => {
lit.extend_from_slice(bytes);
}
_ => unreachable!("expected literal, got {:?}", e),
}
}
}
_ => unreachable!("expected literal or concat, got {:?}", alt),
}
lits.push(lit);
} // Why do this? Well, when the number of literals is small, it's likely // that we'll use the lazy DFA which is in turn likely to be faster than // Aho-Corasick in such cases. Primarily because Aho-Corasick doesn't have // a "lazy DFA" but either a contiguous NFA or a full DFA. We rarely use // the latter because it is so hungry (in time and space), and the former // is decently fast, but not as fast as a well oiled lazy DFA. // // However, once the number starts getting large, the lazy DFA is likely // to start thrashing because of the modest default cache size. When // exactly does this happen? Dunno. But at whatever point that is (we make // a guess below based on ad hoc benchmarking), we'll want to cut over to // Aho-Corasick, where even the contiguous NFA is likely to do much better. if lits.len() < 3000 {
debug!("skipping Aho-Corasick because there are too few literals"); return None;
}
Some(lits)
}
Messung V0.5 in Prozent
¤ Dauer der Verarbeitung: 0.16 Sekunden
(vorverarbeitet am 2026-06-23)
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