greg/mentat
1
0
Fork 0
Code Issues 294 Pull requests Packages Projects Releases 9 Wiki Activity

Create generalized in-memory cache for attributes (#525)

Browse source 
* Nit: Alphabetical ordering of imports

* Create Cache and provide functions for calling it

* Get tests working. Move to using NamespacedKeyword over KnownEntid in function signature

* Add is_cached check to caching tests

* Move lazy and add/remove boolean flags to enums

* Move function definitions into generic trait and implement trait for AttributeCache

* Remove lazy cache and generalize cache

* Update tests

* Eager cache becomes simple key value store. AttributeMap handles attribute storing specifics

* Update tests to test presence of correct values in cache

* Move EagerCache, AttributeValueProvider and ValueProvider into mentat_db

* Add test for get_for_entid

* Add test for lookup attribute

* Make caches cloneable. Add value_for alongside values_for

* Use cache in attribute lookups

* Split test for values and value and add cardinality

* address review feedback r=rnewman
This commit is contained in:
Emily Toop 2018-02-07 10:56:12 -08:00 committed by GitHub
parent d848d954cf
commit 715d434945
No known key found for this signature in database
GPG key ID: 4AEE18F83AFDEB23
6 changed files with 496 additions and 25 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

99
db/src/cache.rs Normal file
View file

@ -0,0 +1,99 @@
// Copyright 2016 Mozilla
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not use
// this file except in compliance with the License. You may obtain a copy of the
// License at http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software distributed
// under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See the License for the
// specific language governing permissions and limitations under the License.
use std::cmp::Ord;
use std::collections::BTreeMap;
use std::fmt::Debug;
use rusqlite;
use errors::{
Result
};
use db::{
TypedSQLValue,
};
use mentat_core::{
Entid,
TypedValue,
};
pub type CacheMap<K, V> = BTreeMap<K, V>;
pub trait ValueProvider<K, V>: Clone {
fn fetch_values<'sqlite>(&mut self, sqlite: &'sqlite rusqlite::Connection) -> Result<CacheMap<K, V>>;
}
pub trait Cacheable {
type Key;
type Value;
fn cache_values<'sqlite>(&mut self, sqlite: &'sqlite rusqlite::Connection) -> Result<()>;
fn get(&self, key: &Self::Key) -> Option<&Self::Value>;
}
#[derive(Clone)]
pub struct EagerCache<K, V, VP> where K: Ord, VP: ValueProvider<K, V> {
pub cache: CacheMap<K, V>,
value_provider: VP,
}
impl<K, V, VP> EagerCache<K, V, VP> where K: Ord, VP: ValueProvider<K, V> {
pub fn new(value_provider: VP) -> Self {
EagerCache {
cache: CacheMap::new(),
value_provider: value_provider,
}
}
}
impl<K, V, VP> Cacheable for EagerCache<K, V, VP>
where K: Ord + Clone + Debug + ::std::hash::Hash,
V: Clone,
VP: ValueProvider<K, V> {
type Key = K;
type Value = V;
fn cache_values<'sqlite>(&mut self, sqlite: &'sqlite rusqlite::Connection) -> Result<()> {
// fetch results and add to cache
self.cache = self.value_provider.fetch_values(sqlite)?;
Ok(())
}
fn get(&self, key: &Self::Key) -> Option<&Self::Value> {
self.cache.get(&key)
}
}
#[derive(Clone)]
pub struct AttributeValueProvider {
pub attribute: Entid,
}
impl ValueProvider<Entid, Vec<TypedValue>> for AttributeValueProvider {
fn fetch_values<'sqlite>(&mut self, sqlite: &'sqlite rusqlite::Connection) -> Result<CacheMap<Entid, Vec<TypedValue>>> {
let sql = "SELECT e, v, value_type_tag FROM datoms WHERE a = ? ORDER BY e ASC";
let mut stmt = sqlite.prepare(sql)?;
let value_iter = stmt.query_map(&[&self.attribute], |row| {
let entid: Entid = row.get(0);
let value_type_tag: i32 = row.get(2);
let value = TypedValue::from_sql_value_pair(row.get(1), value_type_tag).map(|x| x).unwrap();
(entid, value)
}).map_err(|e| e.into());
value_iter.map(|v| {
v.fold(CacheMap::new(), |mut map, row| {
let _ = row.map(|r| {
map.entry(r.0).or_insert(vec![]).push(r.1);
});
map
})
})
}
}

14
db/src/lib.rs
View file

@ -33,18 +33,19 @@ use itertools::Itertools;
pub use errors::{Error, ErrorKind, ResultExt, Result};
mod add_retract_alter_set;
pub mod cache;
pub mod db;
mod bootstrap;
pub mod debug;
mod add_retract_alter_set;
pub mod entids;
pub mod errors;
pub mod internal_types; // pub because we need them for building entities programmatically.
mod metadata;
mod schema;
pub mod types;
pub mod internal_types; // pub because we need them for building entities programmatically.
mod upsert_resolution;
mod tx;
pub mod types;
mod upsert_resolution;
// Export these for reference from tests. cfg(test) should work, but doesn't.
// #[cfg(test)]
@ -57,11 +58,12 @@ pub use schema::{
AttributeBuilder,
AttributeValidation,
};
pub use bootstrap::{
CORE_SCHEMA_VERSION,
};
use edn::symbols;
pub use entids::{
DB_SCHEMA_CORE,
};
@ -82,8 +84,6 @@ pub use types::{
TxReport,
};
use edn::symbols;
pub fn to_namespaced_keyword(s: &str) -> Result<symbols::NamespacedKeyword> {
let splits = [':', '/'];
let mut i = s.split(&splits[..]);

221
src/cache.rs Normal file
View file

@ -0,0 +1,221 @@
// Copyright 2016 Mozilla
//
// Licensed under the Apache License, Version 2.0 (the "License"); you may not use
// this file except in compliance with the License. You may obtain a copy of the
// License at http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software distributed
// under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See the License for the
// specific language governing permissions and limitations under the License.
use std::collections::BTreeMap;
use rusqlite;
use mentat_core::{
Entid,
TypedValue,
};
use mentat_db::cache::{
AttributeValueProvider,
Cacheable,
EagerCache,
CacheMap,
};
use errors::{
Result,
};
pub enum CacheAction {
Register,
Deregister,
}
#[derive(Clone)]
pub struct AttributeCacher {
a_e_vs_cache: BTreeMap<Entid, EagerCache<Entid, Vec<TypedValue>, AttributeValueProvider>>, // values keyed by attribute
}
impl AttributeCacher {
pub fn new() -> Self {
AttributeCacher {
a_e_vs_cache: BTreeMap::new(),
}
}
pub fn register_attribute<'sqlite>(&mut self, sqlite: &'sqlite rusqlite::Connection, attribute: Entid) -> Result<()> {
let value_provider = AttributeValueProvider{ attribute: attribute };
let mut cacher = EagerCache::new(value_provider);
cacher.cache_values(sqlite)?;
self.a_e_vs_cache.insert(attribute, cacher);
Ok(())
}
pub fn deregister_attribute(&mut self, attribute: &Entid) -> Option<CacheMap<Entid, Vec<TypedValue>>> {
self.a_e_vs_cache.remove(&attribute).map(|m| m.cache)
}
pub fn get(&self, attribute: &Entid) -> Option<&CacheMap<Entid, Vec<TypedValue>>> {
self.a_e_vs_cache.get( &attribute ).map(|m| &m.cache)
}
pub fn get_values_for_entid(&self, attribute: &Entid, entid: &Entid) -> Option<&Vec<TypedValue>> {
self.a_e_vs_cache.get(&attribute).and_then(|c| c.get(&entid))
}
pub fn get_value_for_entid(&self, attribute: &Entid, entid: &Entid) -> Option<&TypedValue> {
self.get_values_for_entid(attribute, entid).and_then(|c| c.first())
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::rc::Rc;
use mentat_core::{
HasSchema,
KnownEntid,
};
use mentat_db::db;
use mentat_db::types::TypedValue;
use conn::Conn;
fn populate_db() -> (Conn, rusqlite::Connection) {
let mut sqlite = db::new_connection("").unwrap();
let mut conn = Conn::connect(&mut sqlite).unwrap();
let _report = conn.transact(&mut sqlite, r#"[
{ :db/ident :foo/bar
:db/valueType :db.type/long
:db/cardinality :db.cardinality/one },
{ :db/ident :foo/baz
:db/valueType :db.type/boolean
:db/cardinality :db.cardinality/one },
{ :db/ident :foo/bap
:db/valueType :db.type/string
:db/cardinality :db.cardinality/many}]"#).expect("transaction expected to succeed");
let _report = conn.transact(&mut sqlite, r#"[
{ :foo/bar 100
:foo/baz false
:foo/bap ["one","two","buckle my shoe"] },
{ :foo/bar 200
:foo/baz true
:foo/bap ["three", "four", "knock at my door"] }]"#).expect("transaction expected to succeed");
(conn, sqlite)
}
fn assert_values_present_for_attribute(attribute_cache: &mut AttributeCacher, attribute: &KnownEntid, values: Vec<Vec<TypedValue>>) {
let cached_values: Vec<Vec<TypedValue>> = attribute_cache.get(&attribute.0)
.expect("Expected cached values")
.values()
.cloned()
.collect();
assert_eq!(cached_values, values);
}
#[test]
fn test_add_to_cache() {
let (conn, sqlite) = populate_db();
let schema = conn.current_schema();
let mut attribute_cache = AttributeCacher::new();
let kw = kw!(:foo/bar);
let entid = schema.get_entid(&kw).expect("Expected entid for attribute");
attribute_cache.register_attribute(&sqlite, entid.0.clone() ).expect("No errors on add to cache");
assert_values_present_for_attribute(&mut attribute_cache, &entid, vec![vec![TypedValue::Long(100)], vec![TypedValue::Long(200)]]);
}
#[test]
fn test_add_attribute_already_in_cache() {
let (conn, mut sqlite) = populate_db();
let schema = conn.current_schema();
let kw = kw!(:foo/bar);
let entid = schema.get_entid(&kw).expect("Expected entid for attribute");
let mut attribute_cache = AttributeCacher::new();
attribute_cache.register_attribute(&mut sqlite, entid.0.clone()).expect("No errors on add to cache");
assert_values_present_for_attribute(&mut attribute_cache, &entid, vec![vec![TypedValue::Long(100)], vec![TypedValue::Long(200)]]);
attribute_cache.register_attribute(&mut sqlite, entid.0.clone()).expect("No errors on add to cache");
assert_values_present_for_attribute(&mut attribute_cache, &entid, vec![vec![TypedValue::Long(100)], vec![TypedValue::Long(200)]]);
}
#[test]
fn test_remove_from_cache() {
let (conn, mut sqlite) = populate_db();
let schema = conn.current_schema();
let kwr = kw!(:foo/bar);
let entidr = schema.get_entid(&kwr).expect("Expected entid for attribute");
let kwz = kw!(:foo/baz);
let entidz = schema.get_entid(&kwz).expect("Expected entid for attribute");
let mut attribute_cache = AttributeCacher::new();
attribute_cache.register_attribute(&mut sqlite, entidr.0.clone()).expect("No errors on add to cache");
assert_values_present_for_attribute(&mut attribute_cache, &entidr, vec![vec![TypedValue::Long(100)], vec![TypedValue::Long(200)]]);
attribute_cache.register_attribute(&mut sqlite, entidz.0.clone()).expect("No errors on add to cache");
assert_values_present_for_attribute(&mut attribute_cache, &entidz, vec![vec![TypedValue::Boolean(false)], vec![TypedValue::Boolean(true)]]);
// test that we can remove an item from cache
attribute_cache.deregister_attribute(&entidz.0).expect("No errors on remove from cache");
assert_eq!(attribute_cache.get(&entidz.0), None);
}
#[test]
fn test_remove_attribute_not_in_cache() {
let (conn, _sqlite) = populate_db();
let mut attribute_cache = AttributeCacher::new();
let schema = conn.current_schema();
let kw = kw!(:foo/baz);
let entid = schema.get_entid(&kw).expect("Expected entid for attribute").0;
assert_eq!(None, attribute_cache.deregister_attribute(&entid));
}
#[test]
fn test_fetch_attribute_value_for_entid() {
let (conn, mut sqlite) = populate_db();
let schema = conn.current_schema();
let entities = conn.q_once(&sqlite, r#"[:find ?e . :where [?e :foo/bar 100]]"#, None).expect("Expected query to work").into_scalar().expect("expected scalar results");
let entid = match entities {
Some(TypedValue::Ref(entid)) => entid,
x => panic!("expected Some(Ref), got {:?}", x),
};
let kwr = kw!(:foo/bar);
let attr_entid = schema.get_entid(&kwr).expect("Expected entid for attribute").0;
let mut attribute_cache = AttributeCacher::new();
attribute_cache.register_attribute(&mut sqlite, attr_entid.clone()).expect("No errors on add to cache");
let val = attribute_cache.get_value_for_entid(&attr_entid, &entid).expect("Expected value");
assert_eq!(*val, TypedValue::Long(100));
}
#[test]
fn test_fetch_attribute_values_for_entid() {
let (conn, mut sqlite) = populate_db();
let schema = conn.current_schema();
let entities = conn.q_once(&sqlite, r#"[:find ?e . :where [?e :foo/bar 100]]"#, None).expect("Expected query to work").into_scalar().expect("expected scalar results");
let entid = match entities {
Some(TypedValue::Ref(entid)) => entid,
x => panic!("expected Some(Ref), got {:?}", x),
};
let kwp = kw!(:foo/bap);
let attr_entid = schema.get_entid(&kwp).expect("Expected entid for attribute").0;
let mut attribute_cache = AttributeCacher::new();
attribute_cache.register_attribute(&mut sqlite, attr_entid.clone()).expect("No errors on add to cache");
let val = attribute_cache.get_values_for_entid(&attr_entid, &entid).expect("Expected value");
assert_eq!(*val, vec![TypedValue::String(Rc::new("buckle my shoe".to_string())), TypedValue::String(Rc::new("one".to_string())), TypedValue::String(Rc::new("two".to_string()))]);
}
}

151
src/conn.rs
View file

@ -10,7 +10,7 @@
#![allow(dead_code)]
use std::sync::{Arc, Mutex};
use std::sync::{Arc, Mutex, RwLock, RwLockReadGuard, RwLockWriteGuard};
use rusqlite;
use rusqlite::{
@ -48,7 +48,20 @@ use mentat_tx::entities::TempId;
use mentat_tx_parser;
use cache::{
AttributeCacher,
};
pub use cache::{
CacheAction,
};
use entity_builder::{
InProgressBuilder,
};
use errors::*;
use query::{
lookup_value_for_attribute,
lookup_values_for_attribute,
@ -59,10 +72,6 @@ use query::{
QueryOutput,
};
use entity_builder::{
InProgressBuilder,
};
/// Connection metadata required to query from, or apply transactions to, a Mentat store.
///
/// Owned data for the volatile parts (generation and partition map), and `Arc` for the infrequently
@ -102,6 +111,8 @@ pub struct Conn {
// TODO: maintain cache of query plans that could be shared across threads and invalidated when
// the schema changes. #315.
attribute_cache: RwLock<AttributeCacher>,
}
/// A convenience wrapper around a single SQLite connection and a Conn. This is suitable
@ -143,6 +154,7 @@ pub struct InProgress<'a, 'c> {
generation: u64,
partition_map: PartitionMap,
schema: Schema,
cache: RwLockWriteGuard<'a, AttributeCacher>,
}
/// Represents an in-progress set of reads to the store. Just like `InProgress`,
@ -191,12 +203,14 @@ impl<'a, 'c> Queryable for InProgress<'a, 'c> {
fn lookup_values_for_attribute<E>(&self, entity: E, attribute: &edn::NamespacedKeyword) -> Result<Vec<TypedValue>>
where E: Into<Entid> {
lookup_values_for_attribute(&*(self.transaction), &self.schema, entity, attribute)
let cc = &*self.cache;
lookup_values_for_attribute(&*(self.transaction), &self.schema, cc, entity, attribute)
}
fn lookup_value_for_attribute<E>(&self, entity: E, attribute: &edn::NamespacedKeyword) -> Result<Option<TypedValue>>
where E: Into<Entid> {
lookup_value_for_attribute(&*(self.transaction), &self.schema, entity, attribute)
let cc = &*self.cache;
lookup_value_for_attribute(&*(self.transaction), &self.schema, cc, entity, attribute)
}
}
@ -385,7 +399,8 @@ impl Conn {
// Intentionally not public.
fn new(partition_map: PartitionMap, schema: Schema) -> Conn {
Conn {
metadata: Mutex::new(Metadata::new(0, partition_map, Arc::new(schema)))
metadata: Mutex::new(Metadata::new(0, partition_map, Arc::new(schema))),
attribute_cache: RwLock::new(AttributeCacher::new())
}
}
@ -412,6 +427,10 @@ impl Conn {
self.metadata.lock().unwrap().schema.clone()
}
pub fn attribute_cache<'s>(&'s self) -> RwLockReadGuard<'s, AttributeCacher> {
self.attribute_cache.read().unwrap()
}
/// Query the Mentat store, using the given connection and the current metadata.
pub fn q_once<T>(&self,
sqlite: &rusqlite::Connection,
@ -439,14 +458,16 @@ impl Conn {
sqlite: &rusqlite::Connection,
entity: Entid,
attribute: &edn::NamespacedKeyword) -> Result<Vec<TypedValue>> {
lookup_values_for_attribute(sqlite, &*self.current_schema(), entity, attribute)
let cc: &AttributeCacher = &*self.attribute_cache();
lookup_values_for_attribute(sqlite, &*self.current_schema(), cc, entity, attribute)
}
pub fn lookup_value_for_attribute(&self,
sqlite: &rusqlite::Connection,
entity: Entid,
attribute: &edn::NamespacedKeyword) -> Result<Option<TypedValue>> {
lookup_value_for_attribute(sqlite, &*self.current_schema(), entity, attribute)
let cc: &AttributeCacher = &*self.attribute_cache();
lookup_value_for_attribute(sqlite, &*self.current_schema(), cc, entity, attribute)
}
/// Take a SQLite transaction.
@ -469,6 +490,7 @@ impl Conn {
generation: current_generation,
partition_map: current_partition_map,
schema: (*current_schema).clone(),
cache: self.attribute_cache.write().unwrap(),
})
}
@ -505,6 +527,34 @@ impl Conn {
Ok(report)
}
// TODO: Figure out how to set max cache size and max result size and implement those on cache
// Question: Should those be only for lazy cache? The eager cache could perhaps grow infinitely
// and it becomes up to the client to manage memory usage by excising from cache when no longer
// needed
/// Adds or removes the values of a given attribute to an in memory cache
/// The attribute should be a namespaced string `:foo/bar`.
/// cache_action determines if the attribute should be added or removed from the cache.
/// CacheAction::Add is idempotent - each attribute is only added once and cannot be both lazy
/// and eager.
/// CacheAction::Remove throws an error if the attribute does not currently exist in the cache.
/// CacheType::Eager fetches all the values of the attribute and caches them on add.
/// CacheType::Lazy caches values only after they have first been fetched.
pub fn cache(&mut self,
sqlite: &mut rusqlite::Connection,
attribute: &NamespacedKeyword,
cache_action: CacheAction) -> Result<()> {
// fetch the attribute for the given name
let schema = self.current_schema();
let mut cache = self.attribute_cache.write().unwrap();
let attribute_entid = schema.get_entid(&attribute).ok_or_else(|| ErrorKind::UnknownAttribute(attribute.to_string()))?;
match cache_action {
CacheAction::Register => { cache.register_attribute(sqlite, attribute_entid.0)?; },
CacheAction::Deregister => { cache.deregister_attribute(&attribute_entid.0); },
}
Ok(())
}
}
#[cfg(test)]
@ -512,6 +562,9 @@ mod tests {
use super::*;
extern crate mentat_parser_utils;
use std::time::Instant;
use mentat_core::{
TypedValue,
};
@ -708,4 +761,82 @@ mod tests {
x => panic!("expected EDN parse error, got {:?}", x),
}
}
#[test]
fn test_add_to_cache_failure_no_attribute() {
let mut sqlite = db::new_connection("").unwrap();
let mut conn = Conn::connect(&mut sqlite).unwrap();
let _report = conn.transact(&mut sqlite, r#"[
{ :db/ident :foo/bar
:db/valueType :db.type/long },
{ :db/ident :foo/baz
:db/valueType :db.type/boolean }]"#).unwrap();
let kw = kw!(:foo/bat);
let res = conn.cache(&mut sqlite,&kw, CacheAction::Register);
match res.unwrap_err() {
Error(ErrorKind::UnknownAttribute(msg), _) => assert_eq!(msg, ":foo/bat"),
x => panic!("expected UnknownAttribute error, got {:?}", x),
}
}
// TODO expand tests to cover lookup_value_for_attribute comparing with and without caching
#[test]
fn test_lookup_attribute_with_caching() {
let mut sqlite = db::new_connection("").unwrap();
let mut conn = Conn::connect(&mut sqlite).unwrap();
let _report = conn.transact(&mut sqlite, r#"[
{ :db/ident :foo/bar
:db/valueType :db.type/long },
{ :db/ident :foo/baz
:db/valueType :db.type/boolean }]"#).expect("transaction expected to succeed");
{
let mut in_progress = conn.begin_transaction(&mut sqlite).expect("transaction");
for _ in 1..100 {
let _report = in_progress.transact(r#"[
{ :foo/bar 100
:foo/baz false },
{ :foo/bar 200
:foo/baz true },
{ :foo/bar 100
:foo/baz false },
{ :foo/bar 300
:foo/baz true },
{ :foo/bar 400
:foo/baz false },
{ :foo/bar 500
:foo/baz true }]"#).expect("transaction expected to succeed");
}
in_progress.commit().expect("Committed");
}
let entities = conn.q_once(&sqlite, r#"[:find ?e . :where [?e :foo/bar 400]]"#, None).expect("Expected query to work").into_scalar().expect("expected rel results");
let first = entities.expect("expected a result");
let entid = match first {
TypedValue::Ref(entid) => entid,
x => panic!("expected Some(Ref), got {:?}", x),
};
let kw = kw!(:foo/bar);
let start = Instant::now();
let uncached_val = conn.lookup_value_for_attribute(&sqlite, entid, &kw).expect("Expected value on lookup");
let finish = Instant::now();
let uncached_elapsed_time = finish.duration_since(start);
println!("Uncached time: {:?}", uncached_elapsed_time);
conn.cache(&mut sqlite, &kw, CacheAction::Register).expect("expected caching to work");
for _ in 1..5 {
let start = Instant::now();
let cached_val = conn.lookup_value_for_attribute(&sqlite, entid, &kw).expect("Expected value on lookup");
let finish = Instant::now();
let cached_elapsed_time = finish.duration_since(start);
assert_eq!(cached_val, uncached_val);
println!("Cached time: {:?}", cached_elapsed_time);
assert!(cached_elapsed_time < uncached_elapsed_time);
}
}
}

1
src/lib.rs
View file

@ -73,6 +73,7 @@ macro_rules! kw {
};
}
pub mod cache;
pub mod errors;
pub mod ident;
pub mod vocabulary;

35
src/query.rs
View file

@ -69,6 +69,10 @@ use errors::{
Result,
};
use cache::{
AttributeCacher,
};
pub type QueryExecutionResult = Result<QueryOutput>;
pub trait IntoResult {
@ -170,44 +174,59 @@ fn lookup_attribute(schema: &Schema, attribute: &NamespacedKeyword) -> Result<Kn
/// If the attribute is multi-valued, an arbitrary value is returned.
/// If no value is present for that entity, `None` is returned.
/// If `attribute` isn't an attribute, `None` is returned.
pub fn lookup_value<'sqlite, 'schema, E, A>
pub fn lookup_value<'sqlite, 'schema, 'cache, E, A>
(sqlite: &'sqlite rusqlite::Connection,
schema: &'schema Schema,
cache: &'cache AttributeCacher,
entity: E,
attribute: A) -> Result<Option<TypedValue>>
where E: Into<Entid>, A: Into<Entid> {
fetch_values(sqlite, schema, entity.into(), attribute.into(), true).into_scalar_result()
let entid = entity.into();
let attrid = attribute.into();
let cached = cache.get_value_for_entid(&attrid, &entid).cloned();
if cached.is_some() {
return Ok(cached);
}
fetch_values(sqlite, schema, entid, attrid, true).into_scalar_result()
}
pub fn lookup_values<'sqlite, 'schema, E, A>
pub fn lookup_values<'sqlite, 'schema, 'cache, E, A>
(sqlite: &'sqlite rusqlite::Connection,
schema: &'schema Schema,
cache: &'cache AttributeCacher,
entity: E,
attribute: A) -> Result<Vec<TypedValue>>
where E: Into<Entid>, A: Into<Entid> {
fetch_values(sqlite, schema, entity.into(), attribute.into(), false).into_coll_result()
let entid = entity.into();
let attrid = attribute.into();
if let Some(cached) = cache.get_values_for_entid(&attrid, &entid).cloned() {
return Ok(cached);
}
fetch_values(sqlite, schema, entid, attrid, false).into_coll_result()
}
/// Return a single value for the provided entity and attribute.
/// If the attribute is multi-valued, an arbitrary value is returned.
/// If no value is present for that entity, `None` is returned.
/// If `attribute` doesn't name an attribute, an error is returned.
pub fn lookup_value_for_attribute<'sqlite, 'schema, 'attribute, E>
pub fn lookup_value_for_attribute<'sqlite, 'schema, 'cache, 'attribute, E>
(sqlite: &'sqlite rusqlite::Connection,
schema: &'schema Schema,
cache: &'cache AttributeCacher,
entity: E,
attribute: &'attribute NamespacedKeyword) -> Result<Option<TypedValue>>
where E: Into<Entid> {
lookup_value(sqlite, schema, entity.into(), lookup_attribute(schema, attribute)?)
lookup_value(sqlite, schema, cache, entity.into(), lookup_attribute(schema, attribute)?)
}
pub fn lookup_values_for_attribute<'sqlite, 'schema, 'attribute, E>
pub fn lookup_values_for_attribute<'sqlite, 'schema, 'cache, 'attribute, E>
(sqlite: &'sqlite rusqlite::Connection,
schema: &'schema Schema,
cache: &'cache AttributeCacher,
entity: E,
attribute: &'attribute NamespacedKeyword) -> Result<Vec<TypedValue>>
where E: Into<Entid> {
lookup_values(sqlite, schema, entity.into(), lookup_attribute(schema, attribute)?)
lookup_values(sqlite, schema, cache, entity.into(), lookup_attribute(schema, attribute)?)
}
fn run_statement<'sqlite, 'stmt, 'bound>