src/Database | ||
test | ||
.editorconfig | ||
.env-example | ||
.gitignore | ||
.tidyrc.json | ||
AUTHORS | ||
bower.json | ||
CHANGELOG.md | ||
flake.lock | ||
flake.nix | ||
LICENSE | ||
Makefile | ||
package.json | ||
packages.dhall | ||
README.md | ||
Rows.pl | ||
spago.dhall | ||
spago.yaml |
purescript-postgresql-client
purescript-postgresql-client is a PostgreSQL client library for PureScript based on node-postgres
.
Install
To use this library, you need to add pg
and decimal.js
as an npm dependency. You can also
find first of them on https://github.com/brianc/node-postgres.
Usage
This guide is a literate Purescript file which is extracted into testing module (using literate-purescript
) so it is a little verbose.
Let's start with imports.
module Test.README where
import Prelude
import Control.Monad.Except.Trans (ExceptT, runExceptT)
import Database.PostgreSQL (Connection, fromPool, Pool, Query(Query), PGError)
import Database.PostgreSQL.PG (command, execute, query, withTransaction) as PG
import Database.PostgreSQL.Pool (new) as Pool
import Database.PostgreSQL.Row (Row0(Row0), Row3(Row3))
import Data.Decimal as Decimal
import Data.Tuple.Nested ((/\))
import Effect.Aff (Aff)
import Effect.Aff.Class (liftAff)
import Effect.Class (liftEffect)
import Test.Assert (assert)
import Test.Config (load) as Config
The whole API for interaction with PostgreSQL is performed asynchronously in Aff
(the only function which runs in plain Effect
is Pool.new
). Core library
functions usually results in somthing like Aff (Either PGError a)
which can be easily
wrapped by user into ExceptT
or any other custom monad stack. This base API is exposed by
PostgreSQL.Aff
module.
To be honest we provide alternatives to functions in the Database.PostgreSQL.PG
module that work on any stack m
with MonadError PGError m
and MonadAff m
.
The module contains two functions withClient
and withTransaction
that require additional parameter - a transformation from a custom monad stack to Aff (Either PGError a)
.
We are going to work with custom AppM
type in this tutorial but please don't consider it as the only option
if you encounter any troubles integrating it into your own app monad stack.
type AppM a = ExceptT PGError Aff a
withTransaction :: forall a. Pool -> (Connection -> AppM a) -> AppM a
withTransaction p = PG.withTransaction runExceptT p
Our tests runner reads the configuration for the current process environment or from
the .env file (please check .env-example for details).
We assume here that Postgres is running on a standard local port
with ident
authentication so configuration can be nearly empty (defaultConfiguration
).
It requires only database name which we pass to the newPool
function.
Additionally we pass idleTimeoutMillis
value because this code
is run by our test suite and we want to exit after its execution quickly ;-)
run ∷ AppM Unit
run = do
config ← liftAff $ Config.load
pool ← liftEffect $ Pool.new config
We can now create our temporary table which we are going to query in this example.
PG.execute
ignores result value which is what we want in this case.
The last Row0
value indicates that this Query
doesn't take any additional parameters.
Database quering functions like execute
below can perform the action using the pool
or the connection instance so they expect a value of type Connection
(which is just
a wrapper around Either
- newtype Connection = Connection (Either Pool Client)
).
PG.execute (fromPool pool) (Query """
CREATE TEMPORARY TABLE fruits (
name text NOT NULL,
delicious boolean NOT NULL,
price NUMERIC(4,2) NOT NULL,
added TIMESTAMP WITH TIME ZONE NOT NULL DEFAULT CURRENT_TIMESTAMP,
PRIMARY KEY (name)
);
""") Row0
There is a withTransaction
helper provided. You can wrap the whole
piece of interaction with database in it. It will rollback if any exception
is thrown during execution of a given Aff
block. It excecutes COMMIT
in the other case.
We start our session with insert of some data. It is done by PG.execute
function with INSERT
statement.
Please notice that we are passing a tuple of the arguments to this query
using dedicated constructor. In this case Row3
. This library provides types
from Row0
to Row19
and they are wrappers which provide instances for
automatic conversions from and to SQL values.
For details please investigate following classes ToSQLRow
, ToSQLValue
,
FromSQLRow
and FromSQLValue
.
withTransaction pool \h -> do
PG.execute h (Query """
INSERT INTO fruits (name, delicious, price)
VALUES ($1, $2, $3)
""") (Row3 "coconut" true (Decimal.fromString "8.30"))
We can also use nested tuples instead of Row*
constructors. This can be a bit more
verbose but is not restricted to limited and constant number of arguments.
/\
is just an alias for the Tuple
constructor from Data.Tuple.Nested
.
PG.execute h (Query """
INSERT INTO fruits (name, delicious, price)
VALUES ($1, $2, $3)
""") ("lemon" /\ false /\ Decimal.fromString "3.30")
Of course Row*
types and nested tuples can be also used when we are fetching
data from db.
query
function processes db response and returns an Array
of rows.
names <- PG.query (fromPool pool) (Query """
SELECT name, delicious
FROM fruits
ORDER BY name ASC
""") Row0
liftEffect <<< assert $ names == ["coconut" /\ true, "lemon" /\ false]
There is also a command
function at our disposal.
Some postgres SQL expressions return a "command tag" which carries
a value with a number of rows which were affected by a given query.
For example we can have: DELETE rows
, UPDATE rows
, INSERT oid rows
etc.
This function should return rows
value associated with given response.
deleted <- PG.command (fromPool pool) (Query """DELETE FROM fruits """) Row0
liftEffect <<< assert $ deleted == 2
Generating SQL Queries
The purspg
preprocessor has been replaced by sqltopurs
, which is a code
generator instead of a preprocessor, and easier to use.
Hacking
Testing
Test database is read from the environment or loaded from .env file. You can find .env-example in the repo with some simple testing db setup.
Releasing
Till we are hosted on the github platform let's just use github releasing model for tagging new versions and github-release-notes
to generate CHANGELOG.md from it:
$ # This only requires repo access
$ export GREN_GITHUB_TOKEN=...
$ github-release-notes changelog --override