use crate::util::{ primitives::{PatternID, SmallIndex}, search::MatchKind, }; /// An error that occurred during the construction of an Aho-Corasick /// automaton. /// /// Build errors occur when some kind of limit has been exceeded, either in the /// number of states, the number of patterns of the length of a pattern. These /// limits aren't part of the public API, but they should generally be large /// enough to handle most use cases. /// /// When the `std` feature is enabled, this implements the `std::error::Error` /// trait. #[derive(Clone, Debug)] pub struct BuildError { kind: ErrorKind, } /// The kind of error that occurred. #[derive(Clone, Debug)] enum ErrorKind { /// An error that occurs when allocating a new state would result in an /// identifier that exceeds the capacity of a `StateID`. StateIDOverflow { /// The maximum possible id. max: u64, /// The maximum ID requested. requested_max: u64, }, /// An error that occurs when adding a pattern to an Aho-Corasick /// automaton would result in an identifier that exceeds the capacity of a /// `PatternID`. PatternIDOverflow { /// The maximum possible id. max: u64, /// The maximum ID requested. requested_max: u64, }, /// Occurs when a pattern string is given to the Aho-Corasick constructor /// that is too long. PatternTooLong { /// The ID of the pattern that was too long. pattern: PatternID, /// The length that was too long. len: usize, }, } impl BuildError { pub(crate) fn state_id_overflow( max: u64, requested_max: u64, ) -> BuildError { BuildError { kind: ErrorKind::StateIDOverflow { max, requested_max } } } pub(crate) fn pattern_id_overflow( max: u64, requested_max: u64, ) -> BuildError { BuildError { kind: ErrorKind::PatternIDOverflow { max, requested_max }, } } pub(crate) fn pattern_too_long( pattern: PatternID, len: usize, ) -> BuildError { BuildError { kind: ErrorKind::PatternTooLong { pattern, len } } } } #[cfg(feature = "std")] impl std::error::Error for BuildError {} impl core::fmt::Display for BuildError { fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result { match self.kind { ErrorKind::StateIDOverflow { max, requested_max } => { write!( f, "state identifier overflow: failed to create state ID \ from {}, which exceeds the max of {}", requested_max, max, ) } ErrorKind::PatternIDOverflow { max, requested_max } => { write!( f, "pattern identifier overflow: failed to create pattern ID \ from {}, which exceeds the max of {}", requested_max, max, ) } ErrorKind::PatternTooLong { pattern, len } => { write!( f, "pattern {} with length {} exceeds \ the maximum pattern length of {}", pattern.as_usize(), len, SmallIndex::MAX.as_usize(), ) } } } } /// An error that occurred during an Aho-Corasick search. /// /// An error that occurs during a search is limited to some kind of /// misconfiguration that resulted in an illegal call. Stated differently, /// whether an error occurs is not dependent on the specific bytes in the /// haystack. /// /// Examples of misconfiguration: /// /// * Executing a stream or overlapping search on a searcher that was built was /// something other than [`MatchKind::Standard`](crate::MatchKind::Standard) /// semantics. /// * Requested an anchored or an unanchored search on a searcher that doesn't /// support unanchored or anchored searches, respectively. /// /// When the `std` feature is enabled, this implements the `std::error::Error` /// trait. #[derive(Clone, Debug, Eq, PartialEq)] pub struct MatchError(alloc::boxed::Box); impl MatchError { /// Create a new error value with the given kind. /// /// This is a more verbose version of the kind-specific constructors, e.g., /// `MatchError::unsupported_stream`. pub fn new(kind: MatchErrorKind) -> MatchError { MatchError(alloc::boxed::Box::new(kind)) } /// Returns a reference to the underlying error kind. pub fn kind(&self) -> &MatchErrorKind { &self.0 } /// Create a new "invalid anchored search" error. This occurs when the /// caller requests an anchored search but where anchored searches aren't /// supported. /// /// This is the same as calling `MatchError::new` with a /// [`MatchErrorKind::InvalidInputAnchored`] kind. pub fn invalid_input_anchored() -> MatchError { MatchError::new(MatchErrorKind::InvalidInputAnchored) } /// Create a new "invalid unanchored search" error. This occurs when the /// caller requests an unanchored search but where unanchored searches /// aren't supported. /// /// This is the same as calling `MatchError::new` with a /// [`MatchErrorKind::InvalidInputUnanchored`] kind. pub fn invalid_input_unanchored() -> MatchError { MatchError::new(MatchErrorKind::InvalidInputUnanchored) } /// Create a new "unsupported stream search" error. This occurs when the /// caller requests a stream search while using an Aho-Corasick automaton /// with a match kind other than [`MatchKind::Standard`]. /// /// The match kind given should be the match kind of the automaton. It /// should never be `MatchKind::Standard`. pub fn unsupported_stream(got: MatchKind) -> MatchError { MatchError::new(MatchErrorKind::UnsupportedStream { got }) } /// Create a new "unsupported overlapping search" error. This occurs when /// the caller requests an overlapping search while using an Aho-Corasick /// automaton with a match kind other than [`MatchKind::Standard`]. /// /// The match kind given should be the match kind of the automaton. It /// should never be `MatchKind::Standard`. pub fn unsupported_overlapping(got: MatchKind) -> MatchError { MatchError::new(MatchErrorKind::UnsupportedOverlapping { got }) } /// Create a new "unsupported empty pattern" error. This occurs when the /// caller requests a search for which matching an automaton that contains /// an empty pattern string is not supported. pub fn unsupported_empty() -> MatchError { MatchError::new(MatchErrorKind::UnsupportedEmpty) } } /// The underlying kind of a [`MatchError`]. /// /// This is a **non-exhaustive** enum. That means new variants may be added in /// a semver-compatible release. #[non_exhaustive] #[derive(Clone, Debug, Eq, PartialEq)] pub enum MatchErrorKind { /// An error indicating that an anchored search was requested, but from a /// searcher that was built without anchored support. InvalidInputAnchored, /// An error indicating that an unanchored search was requested, but from a /// searcher that was built without unanchored support. InvalidInputUnanchored, /// An error indicating that a stream search was attempted on an /// Aho-Corasick automaton with an unsupported `MatchKind`. UnsupportedStream { /// The match semantics for the automaton that was used. got: MatchKind, }, /// An error indicating that an overlapping search was attempted on an /// Aho-Corasick automaton with an unsupported `MatchKind`. UnsupportedOverlapping { /// The match semantics for the automaton that was used. got: MatchKind, }, /// An error indicating that the operation requested doesn't support /// automatons that contain an empty pattern string. UnsupportedEmpty, } #[cfg(feature = "std")] impl std::error::Error for MatchError {} impl core::fmt::Display for MatchError { fn fmt(&self, f: &mut core::fmt::Formatter) -> core::fmt::Result { match *self.kind() { MatchErrorKind::InvalidInputAnchored => { write!(f, "anchored searches are not supported or enabled") } MatchErrorKind::InvalidInputUnanchored => { write!(f, "unanchored searches are not supported or enabled") } MatchErrorKind::UnsupportedStream { got } => { write!( f, "match kind {:?} does not support stream searching", got, ) } MatchErrorKind::UnsupportedOverlapping { got } => { write!( f, "match kind {:?} does not support overlapping searches", got, ) } MatchErrorKind::UnsupportedEmpty => { write!( f, "matching with an empty pattern string is not \ supported for this operation", ) } } } }