use super::raw::RawConnection;
use super::result::PgResult;
use super::row::PgRow;
use std::rc::Rc;
#[allow(missing_debug_implementations)]
pub struct Cursor {
current_row: usize,
db_result: Rc<PgResult>,
}
impl Cursor {
pub(super) fn new(result: PgResult, conn: &mut RawConnection) -> crate::QueryResult<Cursor> {
let next_res = conn.get_next_result()?;
debug_assert!(next_res.is_none());
Ok(Self {
current_row: 0,
db_result: Rc::new(result),
})
}
}
impl ExactSizeIterator for Cursor {
fn len(&self) -> usize {
self.db_result.num_rows() - self.current_row
}
}
impl Iterator for Cursor {
type Item = crate::QueryResult<PgRow>;
fn next(&mut self) -> Option<Self::Item> {
if self.current_row < self.db_result.num_rows() {
let row = self.db_result.clone().get_row(self.current_row);
self.current_row += 1;
Some(Ok(row))
} else {
None
}
}
fn nth(&mut self, n: usize) -> Option<Self::Item> {
self.current_row = (self.current_row + n).min(self.db_result.num_rows());
self.next()
}
fn size_hint(&self) -> (usize, Option<usize>) {
let len = self.len();
(len, Some(len))
}
fn count(self) -> usize
where
Self: Sized,
{
self.len()
}
}
#[allow(missing_debug_implementations)]
pub struct RowByRowCursor<'a> {
first_row: bool,
db_result: Rc<PgResult>,
conn: &'a mut super::ConnectionAndTransactionManager,
}
impl<'a> RowByRowCursor<'a> {
pub(super) fn new(
db_result: PgResult,
conn: &'a mut super::ConnectionAndTransactionManager,
) -> Self {
RowByRowCursor {
first_row: true,
db_result: Rc::new(db_result),
conn,
}
}
}
impl Iterator for RowByRowCursor<'_> {
type Item = crate::QueryResult<PgRow>;
fn next(&mut self) -> Option<Self::Item> {
if !self.first_row {
let get_next_result = super::update_transaction_manager_status(
self.conn.raw_connection.get_next_result(),
self.conn,
);
match get_next_result {
Ok(Some(res)) => {
if let Some(old_res) = Rc::get_mut(&mut self.db_result) {
*old_res = res;
} else {
self.db_result = Rc::new(res);
}
}
Ok(None) => {
return None;
}
Err(e) => return Some(Err(e)),
}
}
if self.db_result.num_rows() > 0 {
debug_assert_eq!(self.db_result.num_rows(), 1);
self.first_row = false;
Some(Ok(self.db_result.clone().get_row(0)))
} else {
None
}
}
}
impl Drop for RowByRowCursor<'_> {
fn drop(&mut self) {
loop {
let res = super::update_transaction_manager_status(
self.conn.raw_connection.get_next_result(),
self.conn,
);
if matches!(res, Err(_) | Ok(None)) {
break;
}
}
}
}
#[cfg(test)]
mod tests {
use crate::connection::DefaultLoadingMode;
use crate::pg::PgRowByRowLoadingMode;
#[test]
fn fun_with_row_iters() {
crate::table! {
#[allow(unused_parens)]
users(id) {
id -> Integer,
name -> Text,
}
}
use crate::connection::LoadConnection;
use crate::deserialize::{FromSql, FromSqlRow};
use crate::pg::Pg;
use crate::prelude::*;
use crate::row::{Field, Row};
use crate::sql_types;
let conn = &mut crate::test_helpers::connection();
crate::sql_query(
"CREATE TABLE IF NOT EXISTS users(id INTEGER PRIMARY KEY, name TEXT NOT NULL);",
)
.execute(conn)
.unwrap();
crate::insert_into(users::table)
.values(vec![
(users::id.eq(1), users::name.eq("Sean")),
(users::id.eq(2), users::name.eq("Tess")),
])
.execute(conn)
.unwrap();
let query = users::table.select((users::id, users::name));
let expected = vec![(1, String::from("Sean")), (2, String::from("Tess"))];
let row_iter = LoadConnection::<DefaultLoadingMode>::load(conn, &query).unwrap();
for (row, expected) in row_iter.zip(&expected) {
let row = row.unwrap();
let deserialized = <(i32, String) as FromSqlRow<
(sql_types::Integer, sql_types::Text),
_,
>>::build_from_row(&row)
.unwrap();
assert_eq!(&deserialized, expected);
}
{
let collected_rows = LoadConnection::<DefaultLoadingMode>::load(conn, &query)
.unwrap()
.collect::<Vec<_>>();
for (row, expected) in collected_rows.iter().zip(&expected) {
let deserialized = row
.as_ref()
.map(|row| {
<(i32, String) as FromSqlRow<
(sql_types::Integer, sql_types::Text),
_,
>>::build_from_row(row).unwrap()
})
.unwrap();
assert_eq!(&deserialized, expected);
}
}
let mut row_iter = LoadConnection::<DefaultLoadingMode>::load(conn, &query).unwrap();
let first_row = row_iter.next().unwrap().unwrap();
let first_fields = (first_row.get(0).unwrap(), first_row.get(1).unwrap());
let first_values = (first_fields.0.value(), first_fields.1.value());
let second_row = row_iter.next().unwrap().unwrap();
let second_fields = (second_row.get(0).unwrap(), second_row.get(1).unwrap());
let second_values = (second_fields.0.value(), second_fields.1.value());
assert!(row_iter.next().is_none());
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(first_values.0).unwrap(),
expected[0].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(first_values.1).unwrap(),
expected[0].1
);
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(second_values.0).unwrap(),
expected[1].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(second_values.1).unwrap(),
expected[1].1
);
let first_fields = (first_row.get(0).unwrap(), first_row.get(1).unwrap());
let first_values = (first_fields.0.value(), first_fields.1.value());
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(first_values.0).unwrap(),
expected[0].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(first_values.1).unwrap(),
expected[0].1
);
}
#[test]
fn loading_modes_return_the_same_result() {
use crate::prelude::*;
crate::table! {
#[allow(unused_parens)]
users(id) {
id -> Integer,
name -> Text,
}
}
let conn = &mut crate::test_helpers::connection();
crate::sql_query(
"CREATE TABLE IF NOT EXISTS users(id INTEGER PRIMARY KEY, name TEXT NOT NULL);",
)
.execute(conn)
.unwrap();
crate::insert_into(users::table)
.values(vec![
(users::id.eq(1), users::name.eq("Sean")),
(users::id.eq(2), users::name.eq("Tess")),
])
.execute(conn)
.unwrap();
let users_by_default_mode = users::table
.select(users::name)
.load_iter::<String, DefaultLoadingMode>(conn)
.unwrap()
.collect::<QueryResult<Vec<_>>>()
.unwrap();
let users_row_by_row = users::table
.select(users::name)
.load_iter::<String, PgRowByRowLoadingMode>(conn)
.unwrap()
.collect::<QueryResult<Vec<_>>>()
.unwrap();
assert_eq!(users_by_default_mode, users_row_by_row);
assert_eq!(users_by_default_mode, vec!["Sean", "Tess"]);
}
#[test]
fn fun_with_row_iters_row_by_row() {
crate::table! {
#[allow(unused_parens)]
users(id) {
id -> Integer,
name -> Text,
}
}
use crate::connection::LoadConnection;
use crate::deserialize::{FromSql, FromSqlRow};
use crate::pg::Pg;
use crate::prelude::*;
use crate::row::{Field, Row};
use crate::sql_types;
let conn = &mut crate::test_helpers::connection();
crate::sql_query(
"CREATE TABLE IF NOT EXISTS users(id INTEGER PRIMARY KEY, name TEXT NOT NULL);",
)
.execute(conn)
.unwrap();
crate::insert_into(users::table)
.values(vec![
(users::id.eq(1), users::name.eq("Sean")),
(users::id.eq(2), users::name.eq("Tess")),
])
.execute(conn)
.unwrap();
let query = users::table.select((users::id, users::name));
let expected = vec![(1, String::from("Sean")), (2, String::from("Tess"))];
let row_iter = LoadConnection::<PgRowByRowLoadingMode>::load(conn, &query).unwrap();
for (row, expected) in row_iter.zip(&expected) {
let row = row.unwrap();
let deserialized = <(i32, String) as FromSqlRow<
(sql_types::Integer, sql_types::Text),
_,
>>::build_from_row(&row)
.unwrap();
assert_eq!(&deserialized, expected);
}
{
let collected_rows = LoadConnection::<PgRowByRowLoadingMode>::load(conn, &query)
.unwrap()
.collect::<Vec<_>>();
for (row, expected) in collected_rows.iter().zip(&expected) {
let deserialized = row
.as_ref()
.map(|row| {
<(i32, String) as FromSqlRow<
(sql_types::Integer, sql_types::Text),
_,
>>::build_from_row(row).unwrap()
})
.unwrap();
assert_eq!(&deserialized, expected);
}
}
let mut row_iter = LoadConnection::<PgRowByRowLoadingMode>::load(conn, &query).unwrap();
let first_row = row_iter.next().unwrap().unwrap();
let first_fields = (first_row.get(0).unwrap(), first_row.get(1).unwrap());
let first_values = (first_fields.0.value(), first_fields.1.value());
let second_row = row_iter.next().unwrap().unwrap();
let second_fields = (second_row.get(0).unwrap(), second_row.get(1).unwrap());
let second_values = (second_fields.0.value(), second_fields.1.value());
assert!(row_iter.next().is_none());
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(first_values.0).unwrap(),
expected[0].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(first_values.1).unwrap(),
expected[0].1
);
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(second_values.0).unwrap(),
expected[1].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(second_values.1).unwrap(),
expected[1].1
);
let first_fields = (first_row.get(0).unwrap(), first_row.get(1).unwrap());
let first_values = (first_fields.0.value(), first_fields.1.value());
assert_eq!(
<i32 as FromSql<sql_types::Integer, Pg>>::from_nullable_sql(first_values.0).unwrap(),
expected[0].0
);
assert_eq!(
<String as FromSql<sql_types::Text, Pg>>::from_nullable_sql(first_values.1).unwrap(),
expected[0].1
);
}
}