This is a fork of @ff00ff/mammoth. We made this fork because the upstream project has not been active. We'd love to get rid of this fork if that changes.
This fork is based on the 1.x version rather than newer 2.x version. We made this decision because the 2.x version is still in alpha, and we ran into memory issues during TS compilation in the probject we were using it for. We start from c7c525c978aa6326042b35ca95f93699a69370c5 because that is the last commit before the big 2.x refactor.
List of changes (commits)
- Changes nullable expressions to use the
null
data type, rather thanundefined
. - Fixes
with
query to return the value provided by constructed query. - Adds support for constant tables using
VALUES
lists. - Adds support for
LATERAL
joins.
📖 Work-in-progress documentation site is available at https://mammoth.tools/.
npm i @ff00ff/mammoth
Mammoth is a type-safe query builder. It only supports Postgres which we consider a feature. It's syntax is as close to SQL as possible so you already know how to use it. It's autocomplete features are great. It helps you avoid mistakes so you can develop applications faster.
const rows = await db
.select(star())
.from(db.foo)
.leftJoin(db.bar)
.on(db.foo.barId.eq(db.bar.id))
.where(db.foo.id.eq(`1`));
The above query produces the following SQL:
SELECT
*
FROM foo
LEFT JOIN bar ON (foo.bar_id = bar.id)
WHERE
foo.id = $1
More importantly, the resulting type of rows is { id: string; barId: string; name: string | undefined }[]
. Notice how the name is automatically nullable because of the left join.
Basic update
const updateCount = await db.update(db.foo).set({ name: `Test` }).where(db.foo.value.gt(0));
UPDATE foo
SET
name = $1
WHERE
value > $2
Basic insert
const rows = await db
.insertInto(db.foo)
.values({
name: `Test`,
value: 123,
})
.returning(`id`);
INSERT INTO foo (
name,
value
) VALUES (
$1,
$2
)
RETURNING
id
Insert into select
const affectedCount = await db
.insertInto(db.foo, ['name'])
.select(db.bar.name)
.from(db.bar)
.where(db.bar.name.isNotNull());
INSERT INTO foo (name)
SELECT
bar.name
FROM bar
WHERE
bar.name IS NOT NULL
Select with count(*)
db.select(count()).from(db.foo);
SELECT COUNT(*) FROM foo
Select with aggregate expression
db.select(arrayAgg(db.foo.name.orderBy(db.foo.name.desc()))).from(db.foo);
SELECT array_agg(foo.name ORDER BY foo.name DESC) "arrayAgg" FROM foo
With (CTE) query
db.with(
`regionalSales`,
() =>
db
.select(db.orderLog.region, sum(db.orderLog.amount).as(`totalSales`))
.from(db.orderLog)
.groupBy(db.orderLog.region),
`topRegions`,
({ regionalSales }) =>
db
.select(regionalSales.region)
.from(regionalSales)
.where(
regionalSales.totalSales.gt(
db.select(sum(regionalSales.totalSales).divide(10)).from(regionalSales),
),
),
({ topRegions }) =>
db
.select(
db.orderLog.region,
db.orderLog.product,
sum(db.orderLog.quantity).as(`productUnits`),
sum(db.orderLog.amount).as(`productSales`),
)
.from(db.orderLog)
.where(db.orderLog.region.in(db.select(topRegions.region).from(topRegions)))
.groupBy(db.orderLog.region, db.orderLog.product),
);
WITH "regionalSales" AS (SELECT order_log.region, SUM (order_log.amount) "totalSales" FROM order_log GROUP BY order_log.region), "topRegions" AS (SELECT "regionalSales".region FROM "regionalSales" WHERE "regionalSales"."totalSales" > (SELECT SUM ("regionalSales"."totalSales") / $1 FROM "regionalSales")) SELECT order_log.region, order_log.product, SUM (order_log.quantity) "productUnits", SUM (order_log.amount) "productSales" FROM order_log WHERE order_log.region IN (SELECT "topRegions".region FROM "topRegions") GROUP BY order_log.region, order_log.product
Mammoth is a query builder pur sang so it doesn't include a database driver. You need to create a db and pass a callback to execute the query.
import { defineDb } from '@ff00ff/mammoth';
import { foo, bar } from './tables';
const db = defineDb({ foo, bar }, async (query, parameters) => {
const result = await pool.query(query, parameters);
return {
affectedCount: result.rowCount,
rows: result.rows,
};
});
In the defineDb
call you pass all your tables so they can be access through the db instance. You have to define all the tables to make sure Mammoth understands the type information. This should be close to the CREATE TABLE syntax.
const foo = defineTable({
id: uuid().primaryKey().default(`gen_random_uuid()`),
createDate: timestampWithTimeZone().notNull().default(`now()`),
name: text().notNull(),
value: integer(),
});
You should keep your column names camelCase in the defineTable call as they are automatically transformed to train_case throughout Mammoth.
Below is a list of clauses per query and a short description on what we Mammoth supports.
SELECT
- [ WITH [ RECURSIVE ] with_query [, ...] ] — Partial support. Recursive not supported yet.
- SELECT [ ALL | DISTINCT [ ON ( expression [, ...] ) ] ] — Mostly supported. Distinct not yet.
- [ * | expression [ [ AS ] output_name ] [, ...] ] — mostly supported. Selecting certain expressions like update queries, insert and delete queries are not supported yet. Select queries are though.
- [ FROM from_item [, ...] ] — partially supported. Only 1 table is currently supported in the from.
- [ WHERE condition ] — mostly supported. The condition concept is pretty broad but it should contain a lot of cases.
- [ GROUP BY grouping_element [, ...] ] — supported.
- [ HAVING condition [, ...] ] — supported.
- [ WINDOW window_name AS ( window_definition ) [, ...] ] — not supported.
- [ { UNION | INTERSECT | EXCEPT } [ ALL | DISTINCT ] select ] — not supported yet
- [ ORDER BY expression [ ASC | DESC | USING operator ] [ NULLS { FIRST | LAST } ] [, ...] ] — supported, but expressions are pretty broad and there might be cases not covered yet.
- [ LIMIT { count | ALL } ] — supported.
- [ OFFSET start [ ROW | ROWS ] ] — supported.
- [ FETCH { FIRST | NEXT } [ count ] { ROW | ROWS } ONLY ] — supported
- [ FOR { UPDATE | NO KEY UPDATE | SHARE | KEY SHARE } [ OF table_name [, ...] ] [ NOWAIT | SKIP LOCKED ] [...] ] — supported
UPDATE
- [ WITH [ RECURSIVE ] with_query [, ...] ] — Partial support. Recursive not supported yet.
- UPDATE [ ONLY ] table_name [ * ] [ [ AS ] alias ] — supported
- SET { column_name = { expression | DEFAULT } | — supported, but expression concept is very broad and might be incomplete
- ( column_name [, ...] ) = [ ROW ] ( { expression | DEFAULT } [, ...] ) | — supported, but expression concept is very broad and might be incomplete in some cases
- ( column_name [, ...] ) = ( sub-SELECT ) — not supported
- } [, ...]
- [ FROM from_item [, ...] ] — partially supported. Only 1 table as from item is supported
- [ WHERE condition | WHERE CURRENT OF cursor_name ] — supported, but the condition concept is very broad and is incomplete in some cases.
- [ RETURNING * | output_expression [ [ AS ] output_name ] [, ...] ] — supported, but up to 10 expressions
DELETE
- [ WITH [ RECURSIVE ] with_query [, ...] ] — Partial support. Recursive not supported yet.
- DELETE FROM [ ONLY ] table_name [ * ] [ [ AS ] alias ] — supported
- [ USING from_item [, ...] ] — supported
- [ WHERE condition | WHERE CURRENT OF cursor_name ] — supported, but the condition concept is very broad and might be incomplete
- [ RETURNING * | output_expression [ [ AS ] output_name ] [, ... ] ] — supported, but up to 10 expressions
INSERT
- [ WITH [ RECURSIVE ] with_query [, ...] ] — Partial support. Recursive not supported yet.
- INSERT INTO table_name [ AS alias ] [ ( column_name [, ...] ) ] — supported
- [ OVERRIDING { SYSTEM | USER } VALUE ] — not supported
- { DEFAULT VALUES | VALUES ( { expression | DEFAULT } [, ...] ) [, ...] | query } - supported, but expression is a broad concept and may not be complete
- [ ON CONFLICT [ conflict_target ] conflict_action ] — supported
- [ RETURNING * | output_expression [ [ AS ] output_name ] [, ...] ] — supported, but limited to 10 expressions
Truncate
- RESTART IDENTITY
- CASCADE
Now that we've hit 1.0 Mammoth will stick to semantic versioning, meaning, breaking changes will only be included in major updates.
Once you clone the repo, do a npm install
+ npm run build
. Now you should be able to run npm test
seeing everything turn green. Feel free to pick up one of the open issues — in particular you can pick up one labeled with "good first issue". Be sure to claim the issue before you start so we avoid two or more people working on the same thing.