rusqlite/src/cache.rs

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//! Prepared statements cache for faster execution.
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use crate::raw_statement::RawStatement;
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use crate::{Connection, Result, Statement};
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use hashlink::LruCache;
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use std::cell::RefCell;
use std::ops::{Deref, DerefMut};
use std::sync::Arc;
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impl Connection {
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/// Prepare a SQL statement for execution, returning a previously prepared
/// (but not currently in-use) statement if one is available. The
/// returned statement will be cached for reuse by future calls to
/// `prepare_cached` once it is dropped.
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///
/// ```rust,no_run
/// # use rusqlite::{Connection, Result};
/// fn insert_new_people(conn: &Connection) -> Result<()> {
/// {
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/// let mut stmt = conn.prepare_cached("INSERT INTO People (name) VALUES (?)")?;
/// stmt.execute(&["Joe Smith"])?;
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/// }
/// {
/// // This will return the same underlying SQLite statement handle without
/// // having to prepare it again.
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/// let mut stmt = conn.prepare_cached("INSERT INTO People (name) VALUES (?)")?;
/// stmt.execute(&["Bob Jones"])?;
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/// }
/// Ok(())
/// }
/// ```
///
/// # Failure
///
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/// Will return `Err` if `sql` cannot be converted to a C-compatible string
/// or if the underlying SQLite call fails.
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pub fn prepare_cached(&self, sql: &str) -> Result<CachedStatement<'_>> {
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self.cache.get(self, sql)
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}
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/// Set the maximum number of cached prepared statements this connection
/// will hold. By default, a connection will hold a relatively small
/// number of cached statements. If you need more, or know that you
/// will not use cached statements, you
/// can set the capacity manually using this method.
pub fn set_prepared_statement_cache_capacity(&self, capacity: usize) {
self.cache.set_capacity(capacity)
}
/// Remove/finalize all prepared statements currently in the cache.
pub fn flush_prepared_statement_cache(&self) {
self.cache.flush()
}
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}
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/// Prepared statements LRU cache.
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// #[derive(Debug)] // FIXME: https://github.com/kyren/hashlink/pull/4
pub struct StatementCache(RefCell<LruCache<Arc<str>, RawStatement>>);
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/// Cacheable statement.
///
/// Statement will return automatically to the cache by default.
/// If you want the statement to be discarded, call `discard()` on it.
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pub struct CachedStatement<'conn> {
stmt: Option<Statement<'conn>>,
cache: &'conn StatementCache,
}
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impl<'conn> Deref for CachedStatement<'conn> {
type Target = Statement<'conn>;
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fn deref(&self) -> &Statement<'conn> {
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self.stmt.as_ref().unwrap()
}
}
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impl<'conn> DerefMut for CachedStatement<'conn> {
fn deref_mut(&mut self) -> &mut Statement<'conn> {
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self.stmt.as_mut().unwrap()
}
}
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impl Drop for CachedStatement<'_> {
#[allow(unused_must_use)]
fn drop(&mut self) {
if let Some(stmt) = self.stmt.take() {
self.cache.cache_stmt(unsafe { stmt.into_raw() });
}
}
}
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impl CachedStatement<'_> {
fn new<'conn>(stmt: Statement<'conn>, cache: &'conn StatementCache) -> CachedStatement<'conn> {
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CachedStatement {
stmt: Some(stmt),
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cache,
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}
}
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/// Discard the statement, preventing it from being returned to its
/// `Connection`'s collection of cached statements.
pub fn discard(mut self) {
self.stmt = None;
}
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}
impl StatementCache {
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/// Create a statement cache.
pub fn with_capacity(capacity: usize) -> StatementCache {
StatementCache(RefCell::new(LruCache::new(capacity)))
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}
fn set_capacity(&self, capacity: usize) {
self.0.borrow_mut().set_capacity(capacity)
}
// Search the cache for a prepared-statement object that implements `sql`.
// If no such prepared-statement can be found, allocate and prepare a new one.
//
// # Failure
//
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// Will return `Err` if no cached statement can be found and the underlying
// SQLite prepare call fails.
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fn get<'conn>(
&'conn self,
conn: &'conn Connection,
sql: &str,
) -> Result<CachedStatement<'conn>> {
let trimmed = sql.trim();
let mut cache = self.0.borrow_mut();
let stmt = match cache.remove(trimmed) {
Some(raw_stmt) => Ok(Statement::new(conn, raw_stmt)),
None => conn.prepare(trimmed),
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};
stmt.map(|mut stmt| {
stmt.stmt.set_statement_cache_key(trimmed);
CachedStatement::new(stmt, self)
})
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}
// Return a statement to the cache.
fn cache_stmt(&self, stmt: RawStatement) {
if stmt.is_null() {
return;
}
let mut cache = self.0.borrow_mut();
stmt.clear_bindings();
if let Some(sql) = stmt.statement_cache_key() {
cache.insert(sql, stmt);
} else {
debug_assert!(
false,
"bug in statement cache code, statement returned to cache that without key"
);
}
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}
fn flush(&self) {
let mut cache = self.0.borrow_mut();
cache.clear()
}
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}
#[cfg(test)]
mod test {
use super::StatementCache;
use crate::Connection;
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use fallible_iterator::FallibleIterator;
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impl StatementCache {
fn clear(&self) {
self.0.borrow_mut().clear();
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}
fn len(&self) -> usize {
self.0.borrow().len()
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}
fn capacity(&self) -> usize {
self.0.borrow().capacity()
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}
}
#[test]
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fn test_cache() {
let db = Connection::open_in_memory().unwrap();
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let cache = &db.cache;
let initial_capacity = cache.capacity();
assert_eq!(0, cache.len());
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assert!(initial_capacity > 0);
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let sql = "PRAGMA schema_version";
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{
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let mut stmt = db.prepare_cached(sql).unwrap();
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assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
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}
assert_eq!(1, cache.len());
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{
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let mut stmt = db.prepare_cached(sql).unwrap();
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assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
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}
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assert_eq!(1, cache.len());
cache.clear();
assert_eq!(0, cache.len());
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assert_eq!(initial_capacity, cache.capacity());
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}
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#[test]
fn test_set_capacity() {
let db = Connection::open_in_memory().unwrap();
let cache = &db.cache;
let sql = "PRAGMA schema_version";
{
let mut stmt = db.prepare_cached(sql).unwrap();
assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
}
assert_eq!(1, cache.len());
db.set_prepared_statement_cache_capacity(0);
assert_eq!(0, cache.len());
{
let mut stmt = db.prepare_cached(sql).unwrap();
assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
}
assert_eq!(0, cache.len());
db.set_prepared_statement_cache_capacity(8);
{
let mut stmt = db.prepare_cached(sql).unwrap();
assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
}
assert_eq!(1, cache.len());
}
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#[test]
fn test_discard() {
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let db = Connection::open_in_memory().unwrap();
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let cache = &db.cache;
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let sql = "PRAGMA schema_version";
{
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let mut stmt = db.prepare_cached(sql).unwrap();
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assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
stmt.discard();
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}
assert_eq!(0, cache.len());
}
#[test]
fn test_ddl() {
let db = Connection::open_in_memory().unwrap();
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db.execute_batch(
r#"
CREATE TABLE foo (x INT);
INSERT INTO foo VALUES (1);
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"#,
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)
.unwrap();
let sql = "SELECT * FROM foo";
{
let mut stmt = db.prepare_cached(sql).unwrap();
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assert_eq!(
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Ok(Some(1i32)),
stmt.query([]).unwrap().map(|r| r.get(0)).next()
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);
}
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db.execute_batch(
r#"
ALTER TABLE foo ADD COLUMN y INT;
UPDATE foo SET y = 2;
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"#,
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)
.unwrap();
{
let mut stmt = db.prepare_cached(sql).unwrap();
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assert_eq!(
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Ok(Some((1i32, 2i32))),
stmt.query([])
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.unwrap()
.map(|r| Ok((r.get(0)?, r.get(1)?)))
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.next()
);
}
}
#[test]
fn test_connection_close() {
let conn = Connection::open_in_memory().unwrap();
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conn.prepare_cached("SELECT * FROM sqlite_master;").unwrap();
conn.close().expect("connection not closed");
}
#[test]
fn test_cache_key() {
let db = Connection::open_in_memory().unwrap();
let cache = &db.cache;
assert_eq!(0, cache.len());
//let sql = " PRAGMA schema_version; -- comment";
let sql = "PRAGMA schema_version; ";
{
let mut stmt = db.prepare_cached(sql).unwrap();
assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
}
assert_eq!(1, cache.len());
{
let mut stmt = db.prepare_cached(sql).unwrap();
assert_eq!(0, cache.len());
assert_eq!(0, stmt.query_row([], |r| r.get::<_, i64>(0)).unwrap());
}
assert_eq!(1, cache.len());
}
#[test]
fn test_empty_stmt() {
let conn = Connection::open_in_memory().unwrap();
conn.prepare_cached("").unwrap();
}
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}