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use crate::model::TermRef;
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use crate::sparql::algebra::QueryDataset;
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use crate::sparql::EvaluationError;
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use crate::storage::numeric_encoder::{insert_term, EncodedQuad, EncodedTerm, StrHash, StrLookup};
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use crate::storage::{StorageError, StorageReader};
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use std::cell::RefCell;
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use std::collections::hash_map::Entry;
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use std::collections::HashMap;
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use std::iter::empty;
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pub struct DatasetView {
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reader: StorageReader,
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extra: RefCell<HashMap<StrHash, String>>,
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dataset: EncodedDatasetSpec,
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}
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impl DatasetView {
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pub fn new(reader: StorageReader, dataset: &QueryDataset) -> Self {
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let dataset = EncodedDatasetSpec {
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default: dataset
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.default_graph_graphs()
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.map(|graphs| graphs.iter().map(|g| g.as_ref().into()).collect::<Vec<_>>()),
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named: dataset
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.available_named_graphs()
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.map(|graphs| graphs.iter().map(|g| g.as_ref().into()).collect::<Vec<_>>()),
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};
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Self {
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reader,
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extra: RefCell::new(HashMap::default()),
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dataset,
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}
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}
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fn store_encoded_quads_for_pattern(
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&self,
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subject: Option<&EncodedTerm>,
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predicate: Option<&EncodedTerm>,
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object: Option<&EncodedTerm>,
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graph_name: Option<&EncodedTerm>,
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) -> impl Iterator<Item = Result<EncodedQuad, EvaluationError>> + 'static {
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self.reader
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.quads_for_pattern(subject, predicate, object, graph_name)
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.map(|t| t.map_err(|e| e.into()))
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}
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#[allow(clippy::needless_collect)]
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pub fn encoded_quads_for_pattern(
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&self,
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subject: Option<&EncodedTerm>,
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predicate: Option<&EncodedTerm>,
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object: Option<&EncodedTerm>,
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graph_name: Option<&EncodedTerm>,
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) -> Box<dyn Iterator<Item = Result<EncodedQuad, EvaluationError>>> {
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if let Some(graph_name) = graph_name {
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if graph_name.is_default_graph() {
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if let Some(default_graph_graphs) = &self.dataset.default {
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if default_graph_graphs.len() == 1 {
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// Single graph optimization
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Box::new(
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self.store_encoded_quads_for_pattern(
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subject,
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predicate,
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object,
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Some(&default_graph_graphs[0]),
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)
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.map(|quad| {
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let quad = quad?;
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Ok(EncodedQuad::new(
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quad.subject,
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quad.predicate,
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quad.object,
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EncodedTerm::DefaultGraph,
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))
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}),
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)
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} else {
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let iters = default_graph_graphs
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.iter()
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.map(|graph_name| {
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self.store_encoded_quads_for_pattern(
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subject,
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predicate,
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object,
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Some(graph_name),
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)
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})
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.collect::<Vec<_>>();
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Box::new(iters.into_iter().flatten().map(|quad| {
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let quad = quad?;
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Ok(EncodedQuad::new(
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quad.subject,
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quad.predicate,
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quad.object,
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EncodedTerm::DefaultGraph,
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))
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}))
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}
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} else {
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Box::new(
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self.store_encoded_quads_for_pattern(subject, predicate, object, None)
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.map(|quad| {
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let quad = quad?;
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Ok(EncodedQuad::new(
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quad.subject,
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quad.predicate,
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quad.object,
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EncodedTerm::DefaultGraph,
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))
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}),
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)
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}
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} else if self
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.dataset
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.named
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.as_ref()
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.map_or(true, |d| d.contains(graph_name))
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{
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Box::new(self.store_encoded_quads_for_pattern(
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subject,
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predicate,
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object,
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Some(graph_name),
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))
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} else {
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Box::new(empty())
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}
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} else if let Some(named_graphs) = &self.dataset.named {
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let iters = named_graphs
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.iter()
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.map(|graph_name| {
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self.store_encoded_quads_for_pattern(
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subject,
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predicate,
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object,
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Some(graph_name),
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)
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})
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.collect::<Vec<_>>();
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Box::new(iters.into_iter().flatten())
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} else {
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Box::new(
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self.store_encoded_quads_for_pattern(subject, predicate, object, None)
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.filter(|quad| match quad {
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Err(_) => true,
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Ok(quad) => !quad.graph_name.is_default_graph(),
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}),
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)
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}
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}
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pub fn encode_term<'a>(&self, term: impl Into<TermRef<'a>>) -> EncodedTerm {
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let term = term.into();
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let encoded = term.into();
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insert_term(term, &encoded, &mut |key, value| {
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self.insert_str(key, value);
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Ok(())
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})
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.unwrap();
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encoded
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}
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pub fn insert_str(&self, key: &StrHash, value: &str) {
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if let Entry::Vacant(e) = self.extra.borrow_mut().entry(*key) {
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if !matches!(self.reader.contains_str(key), Ok(true)) {
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e.insert(value.to_owned());
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}
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}
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}
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}
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impl StrLookup for DatasetView {
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fn get_str(&self, key: &StrHash) -> Result<Option<String>, StorageError> {
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Ok(if let Some(value) = self.extra.borrow().get(key) {
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Some(value.clone())
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} else {
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self.reader.get_str(key)?
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})
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}
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fn contains_str(&self, key: &StrHash) -> Result<bool, StorageError> {
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Ok(self.extra.borrow().contains_key(key) || self.reader.contains_str(key)?)
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}
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}
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struct EncodedDatasetSpec {
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default: Option<Vec<EncodedTerm>>,
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named: Option<Vec<EncodedTerm>>,
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}
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