use std::convert; use std::result; use libc::c_int; use {Result, Error, Connection, Statement, MappedRows, AndThenRows, Rows, Row, str_to_cstring}; use types::ToSql; impl Connection { /// Convenience method to prepare and execute a single SQL statement with named parameter(s). /// /// On success, returns the number of rows that were changed or inserted or deleted (via /// `sqlite3_changes`). /// /// ## Example /// /// ```rust,no_run /// # use rusqlite::{Connection, Result}; /// fn insert(conn: &Connection) -> Result { /// conn.execute_named("INSERT INTO test (name) VALUES (:name)", &[(":name", &"one")]) /// } /// ``` /// /// # Failure /// /// Will return `Err` if `sql` cannot be converted to a C-compatible string or if the /// underlying SQLite call fails. pub fn execute_named(&self, sql: &str, params: &[(&str, &ToSql)]) -> Result { self.prepare(sql).and_then(|mut stmt| stmt.execute_named(params)) } /// Convenience method to execute a query with named parameter(s) that is expected to return /// a single row. /// /// If the query returns more than one row, all rows except the first are ignored. /// /// # Failure /// /// Will return `Err` if `sql` cannot be converted to a C-compatible string or if the /// underlying SQLite call fails. pub fn query_row_named(&self, sql: &str, params: &[(&str, &ToSql)], f: F) -> Result where F: FnOnce(&Row) -> T { let mut stmt = try!(self.prepare(sql)); let mut rows = try!(stmt.query_named(params)); rows.get_expected_row().map(|r| f(&r)) } } impl<'conn> Statement<'conn> { /// Return the index of an SQL parameter given its name. /// /// # Failure /// /// Will return Err if `name` is invalid. Will return Ok(None) if the name /// is valid but not a bound parameter of this statement. pub fn parameter_index(&self, name: &str) -> Result> { let c_name = try!(str_to_cstring(name)); Ok(self.stmt.bind_parameter_index(&c_name)) } /// Execute the prepared statement with named parameter(s). If any parameters /// that were in the prepared statement are not included in `params`, they /// will continue to use the most-recently bound value from a previous call /// to `execute_named`, or `NULL` if they have never been bound. /// /// On success, returns the number of rows that were changed or inserted or deleted (via /// `sqlite3_changes`). /// /// ## Example /// /// ```rust,no_run /// # use rusqlite::{Connection, Result}; /// fn insert(conn: &Connection) -> Result { /// let mut stmt = try!(conn.prepare("INSERT INTO test (name) VALUES (:name)")); /// stmt.execute_named(&[(":name", &"one")]) /// } /// ``` /// /// # Failure /// /// Will return `Err` if binding parameters fails, the executed statement returns rows (in /// which case `query` should be used instead), or the underling SQLite call fails. pub fn execute_named(&mut self, params: &[(&str, &ToSql)]) -> Result { try!(self.bind_parameters_named(params)); self.execute_() } /// Execute the prepared statement with named parameter(s), returning a handle for the /// resulting rows. If any parameters that were in the prepared statement are not included in /// `params`, they will continue to use the most-recently bound value from a previous call to /// `query_named`, or `NULL` if they have never been bound. /// /// ## Example /// /// ```rust,no_run /// # use rusqlite::{Connection, Result}; /// fn query(conn: &Connection) -> Result<()> { /// let mut stmt = try!(conn.prepare("SELECT * FROM test where name = :name")); /// let mut rows = try!(stmt.query_named(&[(":name", &"one")])); /// while let Some(row) = rows.next() { /// // ... /// } /// Ok(()) /// } /// ``` /// /// # Failure /// /// Will return `Err` if binding parameters fails. pub fn query_named<'a>(&'a mut self, params: &[(&str, &ToSql)]) -> Result> { try!(self.bind_parameters_named(params)); Ok(Rows::new(self)) } /// Execute the prepared statement with named parameter(s), returning an iterator over the /// result of calling the mapping function over the query's rows. If any parameters that were /// in the prepared statement are not included in `params`, they will continue to use the /// most-recently bound value from a previous call to `query_named`, or `NULL` if they have /// never been bound. /// /// ## Example /// /// ```rust,no_run /// # use rusqlite::{Connection, Result}; /// fn get_names(conn: &Connection) -> Result> { /// let mut stmt = try!(conn.prepare("SELECT name FROM people WHERE id = :id")); /// let rows = try!(stmt.query_map_named(&[(":id", &"one")], |row| row.get(0))); /// /// let mut names = Vec::new(); /// for name_result in rows { /// names.push(try!(name_result)); /// } /// /// Ok(names) /// } /// ``` /// /// ## Failure /// /// Will return `Err` if binding parameters fails. pub fn query_map_named<'a, T, F>(&'a mut self, params: &[(&str, &ToSql)], f: F) -> Result> where F: FnMut(&Row) -> T { let rows = try!(self.query_named(params)); Ok(MappedRows { rows: rows, map: f, }) } /// Execute the prepared statement with named parameter(s), returning an iterator over the /// result of calling the mapping function over the query's rows. If any parameters that were /// in the prepared statement are not included in `params`, they will continue to use the /// most-recently bound value from a previous call to `query_named`, or `NULL` if they have /// never been bound. /// /// ## Example /// /// ```rust,no_run /// # use rusqlite::{Connection, Result}; /// struct Person { name: String }; /// /// fn name_to_person(name: String) -> Result { /// // ... check for valid name /// Ok(Person{ name: name }) /// } /// /// fn get_names(conn: &Connection) -> Result> { /// let mut stmt = try!(conn.prepare("SELECT name FROM people WHERE id = :id")); /// let rows = try!(stmt.query_and_then_named(&[(":id", &"one")], |row| { /// name_to_person(row.get(0)) /// })); /// /// let mut persons = Vec::new(); /// for person_result in rows { /// persons.push(try!(person_result)); /// } /// /// Ok(persons) /// } /// ``` /// /// ## Failure /// /// Will return `Err` if binding parameters fails. pub fn query_and_then_named<'a, T, E, F>(&'a mut self, params: &[(&str, &ToSql)], f: F) -> Result> where E: convert::From, F: FnMut(&Row) -> result::Result { let rows = try!(self.query_named(params)); Ok(AndThenRows { rows: rows, map: f, }) } fn bind_parameters_named(&mut self, params: &[(&str, &ToSql)]) -> Result<()> { for &(name, value) in params { if let Some(i) = try!(self.parameter_index(name)) { try!(self.bind_parameter(value, i)); } else { return Err(Error::InvalidParameterName(name.into())); } } Ok(()) } } #[cfg(test)] mod test { use Connection; use error::Error; #[test] fn test_execute_named() { let db = Connection::open_in_memory().unwrap(); db.execute_batch("CREATE TABLE foo(x INTEGER)").unwrap(); assert_eq!(db.execute_named("INSERT INTO foo(x) VALUES (:x)", &[(":x", &1i32)]).unwrap(), 1); assert_eq!(db.execute_named("INSERT INTO foo(x) VALUES (:x)", &[(":x", &2i32)]).unwrap(), 1); assert_eq!(3i32, db.query_row_named("SELECT SUM(x) FROM foo WHERE x > :x", &[(":x", &0i32)], |r| r.get(0)) .unwrap()); } #[test] fn test_stmt_execute_named() { let db = Connection::open_in_memory().unwrap(); let sql = "CREATE TABLE test (id INTEGER PRIMARY KEY NOT NULL, name TEXT NOT NULL, flag \ INTEGER)"; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("INSERT INTO test (name) VALUES (:name)").unwrap(); stmt.execute_named(&[(":name", &"one")]).unwrap(); assert_eq!(1i32, db.query_row_named("SELECT COUNT(*) FROM test WHERE name = :name", &[(":name", &"one")], |r| r.get(0)) .unwrap()); } #[test] fn test_query_named() { let db = Connection::open_in_memory().unwrap(); let sql = r#" CREATE TABLE test (id INTEGER PRIMARY KEY NOT NULL, name TEXT NOT NULL, flag INTEGER); INSERT INTO test(id, name) VALUES (1, "one"); "#; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("SELECT id FROM test where name = :name").unwrap(); let mut rows = stmt.query_named(&[(":name", &"one")]).unwrap(); let id: i32 = rows.next().unwrap().unwrap().get(0); assert_eq!(1, id); } #[test] fn test_query_map_named() { let db = Connection::open_in_memory().unwrap(); let sql = r#" CREATE TABLE test (id INTEGER PRIMARY KEY NOT NULL, name TEXT NOT NULL, flag INTEGER); INSERT INTO test(id, name) VALUES (1, "one"); "#; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("SELECT id FROM test where name = :name").unwrap(); let mut rows = stmt.query_map_named(&[(":name", &"one")], |row| { let id: i32 = row.get(0); 2 * id }) .unwrap(); let doubled_id: i32 = rows.next().unwrap().unwrap(); assert_eq!(2, doubled_id); } #[test] fn test_query_and_then_named() { let db = Connection::open_in_memory().unwrap(); let sql = r#" CREATE TABLE test (id INTEGER PRIMARY KEY NOT NULL, name TEXT NOT NULL, flag INTEGER); INSERT INTO test(id, name) VALUES (1, "one"); INSERT INTO test(id, name) VALUES (2, "one"); "#; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("SELECT id FROM test where name = :name ORDER BY id ASC") .unwrap(); let mut rows = stmt.query_and_then_named(&[(":name", &"one")], |row| { let id: i32 = row.get(0); if id == 1 { Ok(id) } else { Err(Error::SqliteSingleThreadedMode) } }) .unwrap(); // first row should be Ok let doubled_id: i32 = rows.next().unwrap().unwrap(); assert_eq!(1, doubled_id); // second row should be Err match rows.next().unwrap() { Ok(_) => panic!("invalid Ok"), Err(Error::SqliteSingleThreadedMode) => (), Err(_) => panic!("invalid Err"), } } #[test] fn test_unbound_parameters_are_null() { let db = Connection::open_in_memory().unwrap(); let sql = "CREATE TABLE test (x TEXT, y TEXT)"; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("INSERT INTO test (x, y) VALUES (:x, :y)").unwrap(); stmt.execute_named(&[(":x", &"one")]).unwrap(); let result: Option = db.query_row("SELECT y FROM test WHERE x = 'one'", &[], |row| row.get(0)) .unwrap(); assert!(result.is_none()); } #[test] fn test_unbound_parameters_are_reused() { let db = Connection::open_in_memory().unwrap(); let sql = "CREATE TABLE test (x TEXT, y TEXT)"; db.execute_batch(sql).unwrap(); let mut stmt = db.prepare("INSERT INTO test (x, y) VALUES (:x, :y)").unwrap(); stmt.execute_named(&[(":x", &"one")]).unwrap(); stmt.execute_named(&[(":y", &"two")]).unwrap(); let result: String = db.query_row("SELECT x FROM test WHERE y = 'two'", &[], |row| row.get(0)) .unwrap(); assert_eq!(result, "one"); } }