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feat: Add a way to do ops on Streams of IndexedDocIndexes

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This commit is contained in:
Clément Renault 2018-09-10 20:13:42 +02:00
parent f6a40ed7e4
commit 9ee71848bb
4 changed files with 439 additions and 9 deletions
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9
raptor/src/lib.rs
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@ -5,12 +5,7 @@ pub mod metadata;
pub mod vec_read_only;
pub mod automaton;
pub use self::metadata::{
Metadata, MetadataBuilder,
// Stream, StreamBuilder,
// Union, OpBuilder,
// IndexedValues,
};
pub use self::metadata::{Metadata, MetadataBuilder};
pub use self::rank::RankedStream;
pub type DocumentId = u64;
@ -23,7 +18,6 @@ pub type DocumentId = u64;
#[derive(Debug, Copy, Clone, Eq, PartialEq, PartialOrd, Ord, Hash)]
#[repr(C)]
pub struct DocIndex {
/// The document identifier where the word was found.
pub document: DocumentId,
@ -50,7 +44,6 @@ pub struct DocIndex {
// TODO do data oriented programming ? very arrays ?
#[derive(Debug, Copy, Clone, Eq, PartialEq, PartialOrd, Ord, Hash)]
pub struct Match {
/// The word index in the query sentence.
/// Same as the `attribute_index` but for the query words.
///

126
raptor/src/metadata/difference.rs Normal file
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@ -0,0 +1,126 @@
use fst::{Streamer, Automaton};
use crate::metadata::ops::{self, IndexedDocIndexes};
use crate::metadata::{stream_ops, Metadata};
fn union_with_automatons<'a, A>(metas: &'a [Metadata], autos: Vec<A>) -> ops::Union
where A: 'a + Automaton + Clone,
{
let mut op = ops::OpBuilder::with_automatons(autos);
for metadata in metas {
op.push(metadata);
}
op.union()
}
pub struct Difference<'f> {
inner: stream_ops::Difference<'f>,
}
impl<'f> Difference<'f> {
pub fn new<A>(positives: &'f [Metadata], negatives: &'f [Metadata], automatons: Vec<A>) -> Self
where A: 'f + Automaton + Clone
{
let positives = union_with_automatons(positives, automatons.clone());
let negatives = union_with_automatons(negatives, automatons);
let mut builder = stream_ops::OpBuilder::new();
builder.push(positives);
builder.push(negatives);
Difference { inner: builder.difference() }
}
}
impl<'a, 'f> Streamer<'a> for Difference<'f> {
type Item = (&'a [u8], &'a [IndexedDocIndexes]);
fn next(&'a mut self) -> Option<Self::Item> {
self.inner.next()
}
}
#[cfg(test)]
mod tests {
use super::*;
use fst::automaton::AlwaysMatch;
use crate::metadata::{Metadata, MetadataBuilder};
use crate::vec_read_only::VecReadOnly;
use crate::DocIndex;
fn construct_metadata(documents: Vec<(String, DocIndex)>) -> Metadata {
let mapw = Vec::new();
let indexesw = Vec::new();
let mut builder = MetadataBuilder::new(mapw, indexesw);
for (string, doc_index) in documents {
builder.insert(string, doc_index);
}
let (map, indexes) = builder.into_inner().unwrap();
Metadata::from_bytes(map, indexes).unwrap()
}
#[test]
fn empty() {
let positive_metas = construct_metadata(vec![
("chameau".into(), DocIndex{ document: 12, attribute: 1, attribute_index: 22 }),
("chameau".into(), DocIndex{ document: 31, attribute: 0, attribute_index: 1 }),
]);
let negative_metas = construct_metadata(vec![
("chameau".into(), DocIndex{ document: 12, attribute: 1, attribute_index: 22 }),
("chameau".into(), DocIndex{ document: 31, attribute: 0, attribute_index: 1 }),
]);
let positives = &[positive_metas];
let negatives = &[negative_metas];
let mut diff = Difference::new(positives, negatives, vec![AlwaysMatch]);
assert_eq!(diff.next(), None);
}
#[test]
fn one_positive() {
let di1 = DocIndex{ document: 12, attribute: 1, attribute_index: 22 };
let di2 = DocIndex{ document: 31, attribute: 0, attribute_index: 1 };
let positive_metas = construct_metadata(vec![
("chameau".into(), di1),
("chameau".into(), di2),
]);
let negative_metas = construct_metadata(vec![
("chameau".into(), di1),
]);
let positives = &[positive_metas];
let negatives = &[negative_metas];
let mut diff = Difference::new(positives, negatives, vec![AlwaysMatch]);
let idi = IndexedDocIndexes{ index: 0, doc_indexes: VecReadOnly::new(vec![di2]) };
assert_eq!(diff.next(), Some(("chameau".as_bytes(), &[idi][..])));
assert_eq!(diff.next(), None);
}
#[test]
fn more_negative_than_positive() {
let di1 = DocIndex{ document: 12, attribute: 1, attribute_index: 22 };
let di2 = DocIndex{ document: 31, attribute: 0, attribute_index: 1 };
let positive_metas = construct_metadata(vec![
("chameau".into(), di1),
]);
let negative_metas = construct_metadata(vec![
("chameau".into(), di1),
("chameau".into(), di2),
]);
let positives = &[positive_metas];
let negatives = &[negative_metas];
let mut diff = Difference::new(positives, negatives, vec![AlwaysMatch]);
assert_eq!(diff.next(), None);
}
}

4
raptor/src/metadata/mod.rs
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@ -1,6 +1,8 @@
mod ops_indexed_value;
pub mod ops;
pub mod stream_ops;
pub mod doc_indexes;
pub mod difference;
pub mod ops_indexed_value;
use fst::{Map, MapBuilder};
use std::error::Error;

309
raptor/src/metadata/stream_ops.rs Normal file
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@ -0,0 +1,309 @@
use std::rc::Rc;
use std::collections::{BinaryHeap, HashMap, BTreeMap};
use std::cmp;
use fst::{IntoStreamer, Streamer};
use sdset::multi::OpBuilder as SdOpBuilder;
use sdset::{SetOperation, Set};
use crate::metadata::ops::IndexedDocIndexes;
use crate::vec_read_only::VecReadOnly;
use crate::DocIndex;
type BoxedStream<'f> = Box<for<'a> Streamer<'a, Item=(&'a [u8], &'a [IndexedDocIndexes])> + 'f>;
pub struct OpBuilder<'f> {
streams: Vec<BoxedStream<'f>>,
}
impl<'f> OpBuilder<'f> {
pub fn new() -> Self {
Self { streams: Vec::new() }
}
/// Push a stream of `IndexedDocIndexes`.
///
/// # Warning
///
/// You must ensure yourself that the automatons are
/// all the same in the same order for each stream you push.
pub fn push<I, S>(&mut self, stream: I)
where
I: for<'a> IntoStreamer<'a, Into=S, Item=(&'a [u8], &'a [IndexedDocIndexes])>,
S: 'f + for<'a> Streamer<'a, Item=(&'a [u8], &'a [IndexedDocIndexes])>,
{
self.streams.push(Box::new(stream.into_stream()));
}
pub fn union(self) -> Union<'f> {
Union {
heap: StreamHeap::new(self.streams),
outs: Vec::new(),
cur_slot: None,
}
}
pub fn intersection(self) -> Intersection<'f> {
Intersection {
heap: StreamHeap::new(self.streams),
outs: Vec::new(),
cur_slot: None,
}
}
pub fn difference(self) -> Difference<'f> {
Difference {
heap: StreamHeap::new(self.streams),
outs: Vec::new(),
cur_slot: None,
}
}
pub fn symmetric_difference(self) -> SymmetricDifference<'f> {
SymmetricDifference {
heap: StreamHeap::new(self.streams),
outs: Vec::new(),
cur_slot: None,
}
}
}
// FIXME reuse it from metadata::ops
struct SlotIndexedDocIndexes {
aut_index: usize,
start: usize,
len: usize,
}
macro_rules! logical_operation {
(struct $name:ident, $operation:ident) => {
pub struct $name<'f> {
heap: StreamHeap<'f>,
outs: Vec<IndexedDocIndexes>,
cur_slot: Option<Slot>,
}
impl<'a, 'f> Streamer<'a> for $name<'f> {
type Item = (&'a [u8], &'a [IndexedDocIndexes]);
// The Metadata could be types as "key-values present" and "key-values possibly not present"
// in other words Metadata that "needs" to have key-values and other that doesn't needs.
//
// We could probably allow the user to define in Metadata some Document
// that needs to be deleted and only declare the DocumentId, and not every DocIndex of each words.
fn next(&'a mut self) -> Option<Self::Item> {
if let Some(slot) = self.cur_slot.take() {
self.heap.refill(slot);
}
let slot = match self.heap.pop() {
None => return None,
Some(slot) => {
self.cur_slot = Some(slot);
self.cur_slot.as_mut().unwrap()
}
};
self.outs.clear();
// retrieve all the doc_indexes of all the streams,
// store them in an HashMap which the key is
// the aut_index (associated with the state that is ignored),
// the doc_indexes must be stored in another BTreeMap which the key
// is the rdr_index.
//
// This will permit us to do set operations on readers (using the rdr_index)
// the BTreeMap will gives the rdr_index in order and the final result
// will be aggregated in a Vec of IndexedDocIndexes which the aut_index and state
// are the key of the first HashMap
// TODO use the fnv Hasher!
let mut builders = HashMap::new();
let iv = slot.indexed_value();
let builder = builders.entry(iv.index).or_insert_with(BTreeMap::new);
builder.insert(slot.rdr_index, iv.doc_indexes);
while let Some(mut slot) = self.heap.pop_if_equal(slot.input()) {
let iv = slot.indexed_value();
let builder = builders.entry(iv.index).or_insert_with(BTreeMap::new);
builder.insert(slot.rdr_index, iv.doc_indexes);
self.heap.refill(slot);
}
// now that we have accumulated all the doc_indexes like so:
// HashMap<(aut_index, state*), BtreeMap<rdr_index, doc_indexes>>
// we will be able to retrieve, for each aut_index, the doc_indexes
// that are needed to do the set operation
let mut doc_indexes = Vec::new();
let mut doc_indexes_slots = Vec::with_capacity(builders.len());
for (aut_index, values) in builders {
let sets = values.iter().map(|(_, v)| Set::new_unchecked(v.as_slice())).collect();
let builder = SdOpBuilder::from_vec(sets);
let start = doc_indexes.len();
builder.$operation().extend_vec(&mut doc_indexes);
let len = doc_indexes.len() - start;
if len == 0 { continue }
let slot = SlotIndexedDocIndexes {
aut_index: aut_index,
start: start,
len: len,
};
doc_indexes_slots.push(slot);
}
let read_only = VecReadOnly::new(doc_indexes);
self.outs.reserve(doc_indexes_slots.len());
for slot in doc_indexes_slots {
let indexes = IndexedDocIndexes {
index: slot.aut_index,
doc_indexes: read_only.range(slot.start, slot.len),
};
self.outs.push(indexes);
}
if self.outs.is_empty() { return None }
Some((slot.input(), &self.outs))
}
}
}}
logical_operation!(struct Union, union);
logical_operation!(struct Intersection, intersection);
logical_operation!(struct Difference, difference);
logical_operation!(struct SymmetricDifference, symmetric_difference);
struct StreamHeap<'f> {
rdrs: Vec<BoxedStream<'f>>,
heap: BinaryHeap<Slot>,
}
impl<'f> StreamHeap<'f> {
fn new(streams: Vec<BoxedStream<'f>>) -> StreamHeap<'f> {
let mut heap = StreamHeap {
rdrs: streams,
heap: BinaryHeap::new(),
};
for i in 0..heap.rdrs.len() {
heap.refill(Slot::new(i));
}
heap
}
fn pop(&mut self) -> Option<Slot> {
self.heap.pop()
}
fn peek_is_duplicate(&self, key: &[u8]) -> bool {
self.heap.peek().map(|s| s.input() == key).unwrap_or(false)
}
fn pop_if_equal(&mut self, key: &[u8]) -> Option<Slot> {
if self.peek_is_duplicate(key) {
self.pop()
} else {
None
}
}
fn pop_if_le(&mut self, key: &[u8]) -> Option<Slot> {
if self.heap.peek().map(|s| s.input() <= key).unwrap_or(false) {
self.pop()
} else {
None
}
}
fn num_slots(&self) -> usize {
self.rdrs.len()
}
fn refill(&mut self, mut slot: Slot) {
if let Some((input, outputs)) = self.rdrs[slot.rdr_index].next() {
slot.set_input(input);
for output in outputs {
slot.set_aut_index(output.index);
slot.set_output(output.doc_indexes.clone());
self.heap.push(slot.clone());
}
}
}
}
#[derive(Debug, Clone)]
struct Slot {
rdr_index: usize,
aut_index: usize,
input: Rc<Vec<u8>>,
output: Option<VecReadOnly<DocIndex>>,
}
impl PartialEq for Slot {
fn eq(&self, other: &Self) -> bool {
(&self.input, self.rdr_index, self.aut_index)
.eq(&(&other.input, other.rdr_index, other.aut_index))
}
}
impl Eq for Slot { }
impl PartialOrd for Slot {
fn partial_cmp(&self, other: &Self) -> Option<cmp::Ordering> {
(&self.input, self.rdr_index, self.aut_index)
.partial_cmp(&(&other.input, other.rdr_index, other.aut_index))
.map(|ord| ord.reverse())
}
}
impl Ord for Slot {
fn cmp(&self, other: &Self) -> cmp::Ordering {
self.partial_cmp(other).unwrap()
}
}
impl Slot {
fn new(rdr_index: usize) -> Self {
Slot {
rdr_index: rdr_index,
aut_index: 0,
input: Rc::new(Vec::with_capacity(64)),
output: None,
}
}
fn indexed_value(&mut self) -> IndexedDocIndexes {
IndexedDocIndexes {
index: self.aut_index,
doc_indexes: self.output.take().unwrap(),
}
}
fn input(&self) -> &[u8] {
&self.input
}
fn set_input(&mut self, input: &[u8]) {
if *self.input != input {
let inner = Rc::make_mut(&mut self.input);
inner.clear();
inner.extend(input);
}
}
fn set_aut_index(&mut self, aut_index: usize) {
self.aut_index = aut_index;
}
fn set_output(&mut self, output: VecReadOnly<DocIndex>) {
self.output = Some(output);
}
}
#[derive(Copy, Clone, Debug, Eq, Hash, Ord, PartialEq, PartialOrd)]
pub struct IndexedValueWithState {
pub index: usize,
pub value: u64,
}