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mod.rs
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mod.rs
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//! The term dictionary main role is to associate the sorted [`Term`s](crate::Term) to
//! a [`TermInfo`] struct that contains some meta-information
//! about the term.
//!
//! Internally, the term dictionary relies on the `fst` crate to store
//! a sorted mapping that associate each term to its rank in the lexicographical order.
//! For instance, in a dictionary containing the sorted terms "abba", "bjork", "blur" and "donovan",
//! the [`TermOrdinal`] are respectively `0`, `1`, `2`, and `3`.
//!
//! For `u64`-terms, tantivy explicitly uses a `BigEndian` representation to ensure that the
//! lexicographical order matches the natural order of integers.
//!
//! `i64`-terms are transformed to `u64` using a continuous mapping `val ⟶ val - i64::MIN`
//! and then treated as a `u64`.
//!
//! `f64`-terms are transformed to `u64` using a mapping that preserve order, and are then treated
//! as `u64`.
//!
//! A second datastructure makes it possible to access a [`TermInfo`].
#[cfg(not(feature = "quickwit"))]
mod fst_termdict;
#[cfg(not(feature = "quickwit"))]
use fst_termdict as termdict;
#[cfg(feature = "quickwit")]
mod sstable_termdict;
#[cfg(feature = "quickwit")]
use sstable_termdict as termdict;
#[cfg(test)]
mod tests;
/// Position of the term in the sorted list of terms.
pub type TermOrdinal = u64;
use std::io;
use common::file_slice::FileSlice;
use common::BinarySerializable;
use tantivy_fst::Automaton;
use self::termdict::{
TermDictionary as InnerTermDict, TermDictionaryBuilder as InnerTermDictBuilder,
TermStreamerBuilder,
};
pub use self::termdict::{TermMerger, TermStreamer};
use crate::postings::TermInfo;
#[derive(Debug, Eq, PartialEq)]
#[repr(u32)]
enum DictionaryType {
Fst = 1,
SSTable = 2,
}
impl TryFrom<u32> for DictionaryType {
type Error = &'static str;
fn try_from(value: u32) -> Result<Self, Self::Error> {
match value {
1 => Ok(DictionaryType::Fst),
2 => Ok(DictionaryType::SSTable),
_ => Err("Invalid value for DictionaryType"),
}
}
}
#[cfg(not(feature = "quickwit"))]
const CURRENT_TYPE: DictionaryType = DictionaryType::Fst;
#[cfg(feature = "quickwit")]
const CURRENT_TYPE: DictionaryType = DictionaryType::SSTable;
// TODO in the future this should become an enum of supported dictionaries
/// A TermDictionary wrapping either an FST based dictionary or a SSTable based one.
pub struct TermDictionary(InnerTermDict);
impl TermDictionary {
/// Opens a `TermDictionary`.
pub fn open(file: FileSlice) -> io::Result<Self> {
let (main_slice, dict_type) = file.split_from_end(4);
let mut dict_type = dict_type.read_bytes()?;
let dict_type = u32::deserialize(&mut dict_type)?;
let dict_type = DictionaryType::try_from(dict_type).map_err(|_| {
io::Error::new(
io::ErrorKind::Other,
format!("Unsupported dictionary type, found {dict_type}"),
)
})?;
if dict_type != CURRENT_TYPE {
return Err(io::Error::new(
io::ErrorKind::Other,
format!(
"Unsupported dictionary type, compiled tantivy with {CURRENT_TYPE:?}, but got \
{dict_type:?}",
),
));
}
InnerTermDict::open(main_slice).map(TermDictionary)
}
/// Creates an empty term dictionary which contains no terms.
pub fn empty() -> Self {
TermDictionary(InnerTermDict::empty())
}
/// Returns the number of terms in the dictionary.
/// Term ordinals range from 0 to `num_terms() - 1`.
pub fn num_terms(&self) -> usize {
self.0.num_terms()
}
/// Returns the ordinal associated with a given term.
pub fn term_ord<K: AsRef<[u8]>>(&self, key: K) -> io::Result<Option<TermOrdinal>> {
self.0.term_ord(key)
}
/// Stores the term associated with a given term ordinal in
/// a `bytes` buffer.
///
/// Term ordinals are defined as the position of the term in
/// the sorted list of terms.
///
/// Returns true if and only if the term has been found.
///
/// Regardless of whether the term is found or not,
/// the buffer may be modified.
pub fn ord_to_term(&self, ord: TermOrdinal, bytes: &mut Vec<u8>) -> io::Result<bool> {
self.0.ord_to_term(ord, bytes)
}
// this isn't used, and has different prototype in Fst and SSTable
// Returns the number of terms in the dictionary.
// pub fn term_info_from_ord(&self, term_ord: TermOrdinal) -> TermInfo {
// self.0.term_info_from_ord(term_ord)
// }
/// Lookups the value corresponding to the key.
pub fn get<K: AsRef<[u8]>>(&self, key: K) -> io::Result<Option<TermInfo>> {
self.0.get(key)
}
/// Returns a range builder, to stream all of the terms
/// within an interval.
pub fn range(&self) -> TermStreamerBuilder<'_> {
self.0.range()
}
/// A stream of all the sorted terms.
pub fn stream(&self) -> io::Result<TermStreamer<'_>> {
self.0.stream()
}
/// Returns a search builder, to stream all of the terms
/// within the Automaton
pub fn search<'a, A: Automaton + 'a>(&'a self, automaton: A) -> TermStreamerBuilder<'a, A>
{
self.0.search(automaton)
}
#[cfg(feature = "quickwit")]
/// Lookups the value corresponding to the key.
pub async fn get_async<K: AsRef<[u8]>>(&self, key: K) -> io::Result<Option<TermInfo>> {
self.0.get_async(key).await
}
#[cfg(feature = "quickwit")]
#[doc(hidden)]
pub async fn warm_up_dictionary(&self) -> io::Result<()> {
self.0.warm_up_dictionary().await
}
#[cfg(feature = "quickwit")]
/// Returns a file slice covering a set of sstable blocks
/// that includes the key range passed in arguments.
pub fn file_slice_for_range(
&self,
key_range: impl std::ops::RangeBounds<[u8]>,
limit: Option<u64>,
) -> FileSlice {
self.0.file_slice_for_range(key_range, limit)
}
}
/// A TermDictionaryBuilder wrapping either an FST or a SSTable dictionary builder.
pub struct TermDictionaryBuilder<W: io::Write>(InnerTermDictBuilder<W>);
impl<W: io::Write> TermDictionaryBuilder<W> {
/// Creates a new `TermDictionaryBuilder`
pub fn create(w: W) -> io::Result<Self> {
InnerTermDictBuilder::create(w).map(TermDictionaryBuilder)
}
/// Inserts a `(key, value)` pair in the term dictionary.
///
/// *Keys have to be inserted in order.*
pub fn insert<K: AsRef<[u8]>>(&mut self, key_ref: K, value: &TermInfo) -> io::Result<()> {
self.0.insert(key_ref, value)
}
/// # Warning
/// Horribly dangerous internal API
///
/// If used, it must be used by systematically alternating calls
/// to insert_key and insert_value.
///
/// Prefer using `.insert(key, value)`
pub fn insert_key(&mut self, key: &[u8]) -> io::Result<()> {
self.0.insert_key(key)
}
/// # Warning
///
/// Horribly dangerous internal API. See `.insert_key(...)`.
pub fn insert_value(&mut self, term_info: &TermInfo) -> io::Result<()> {
self.0.insert_value(term_info)
}
/// Finalize writing the builder, and returns the underlying
/// `Write` object.
pub fn finish(self) -> io::Result<W> {
let mut writer = self.0.finish()?;
(CURRENT_TYPE as u32).serialize(&mut writer)?;
Ok(writer)
}
}