7 releases (4 breaking)
0.5.0 | Aug 31, 2023 |
---|---|
0.4.0 | Sep 12, 2021 |
0.3.0 | Aug 30, 2021 |
0.2.0 | Aug 28, 2021 |
0.1.2 | Aug 22, 2021 |
#529 in Database interfaces
50 downloads per month
130KB
3K
SLoC
Scooby
An SQL query builder with a pleasant fluent API closely imitating actual SQL. Meant to comfortably build dynamic statements with a little bit of safety checks sprinkled on top to ensure you don't forget important things like ON
clauses. Does not do quoting, does not do validation.
Supports only PostgreSQL syntax at the moment.
Requires Rust 1.54.
Consult documentation for details and examples.
Principles
- Single responsibility: builds SQL statements. Everything else is out of scope.
- API designed to look as close to actual SQL as possible, while being a tiny bit more flexible.
- Everything is raw SQL strings. If you need to pass user input, please use parametrized statements.
- Obvious mistakes should be prevented at compile time, where possible.
- No external dependencies
Supported statements, clauses and features
-
WITH
WHERE
GROUP BY
HAVING
ALL
,DISTINCT
andDISTINCT ON
ORDER BY
ASC
DESC
NULLS FIRST
NULLS LAST
LIMIT
andOFFSET
FROM
with subselects and joins with a nice API:JOIN
,INNER JOIN
andCROSS JOIN
LEFT JOIN
andLEFT OUTER JOIN
RIGHT JOIN
andRIGHT OUTER JOIN
FULL JOIN
andFULL OUTER JOIN
-
WITH
DEFAULT VALUES
VALUES
with compile-time checking that lengths of all values are the same as columnsON CONFLICT
DO NOTHING
DO UPDATE SET
RETURNING
-
WITH
WHERE
RETURNING
-
WITH
SET
with compile-time checking that you've actually set at least somethingWHERE
RETURNING
-
Convenient
x AS y
aliasing -
Convenient
$1
,$2
... parameter placeholder builder
Examples
SELECT
use scooby::postgres::{select, Aliasable, Joinable, Orderable};
// SELECT
// country.name AS name,
// COUNT(*) AS count
// FROM
// Country AS country
// INNER JOIN City AS city ON city.country_id = country.id
// WHERE
// city.population > $1
// GROUP BY country.name
// ORDER BY count DESC
// LIMIT 10
select(("country.name".as_("name"), "COUNT(*)".as_("count")))
.from(
"Country"
.as_("country")
.inner_join("City".as_("city"))
.on("city.country_id = country.id"),
)
.where_("city.population > $1")
.group_by("country.name")
.order_by("count".desc())
.limit(10)
.to_string();
INSERT INTO
use scooby::postgres::insert_into;
// INSERT INTO Dummy (col1, col2) VALUES (a, b), (c, d), (e, f) RETURNING id
insert_into("Dummy")
.columns(("col1", "col2"))
.values([("a", "b"), ("c", "d")])
.values([("e", "f")])
.returning("id")
.to_string();
// INSERT INTO Dummy DEFAULT VALUES
insert_into("Dummy").default_values().to_string();
// INSERT INTO Dummy DEFAULT VALUES ON CONFLICT DO NOTHING
insert_into("Dummy").default_values().on_conflict().do_nothing().to_string();
DELETE FROM
use scooby::postgres::delete_from;
// DELETE FROM Dummy WHERE x > $1 AND y > $2
delete_from("Dummy").where_(("x > $1", "y > $2")).to_string();
WITH
(CTE — Common Table Expression)
use scooby::postgres::{with, select};
// WITH regional_sales AS (
// SELECT region, SUM(amount) AS total_sales
// FROM orders
// GROUP BY region
// ), top_regions AS (
// SELECT region
// FROM regional_sales
// WHERE total_sales > (SELECT SUM(total_sales)/10 FROM regional_sales)
// )
// SELECT region,
// product,
// SUM(quantity) AS product_units,
// SUM(amount) AS product_sales
// FROM orders
// WHERE region IN (SELECT region FROM top_regions)
// GROUP BY region, product;
with("regional_sales")
.as_(
select(("region", "SUM(amount)".as_("total_sales")))
.from("orders")
.group_by("region"),
)
.and("top_regions")
.as_(select("region").from("regional_sales").where_(format!(
"total_sales > ({})",
select("SUM(total_sales)/10").from("regional_sales")
)))
.select((
"region",
"product",
"SUM(quantity)".as_("product_units"),
"SUM(amount)".as_("product_sales"),
))
.from("orders")
.where_(format!(
"region IN ({})",
select("region").from("top_regions")
))
.group_by(("region", "product"))
.to_string();
Parameters
use scooby::postgres::{select, Parameters};
let mut params = Parameters::new();
// SELECT id FROM Thing WHERE x > $1 AND y < $2 AND z IN ($3, $4, $5)
select("id")
.from("Thing")
.where_(format!("x > {}", params.next()))
.where_(format!("y < {}", params.next()))
.where_(format!("z IN ({})", params.next_n(3)))
.to_string();
Testing
Normally:
cargo test
To check syntax:
- Run a local postgresql server on your machine at default port
cargo test --features validate-postgres-syntax