Yesql is a Clojure library for using SQL.
Add this to your Leiningen :dependencies
:
Plus you'll want a database driver. Here are some examples (but double check, because there may be a newer version available):
Database | :dependencies Entry |
---|---|
PostgreSQL | [org.postgresql/postgresql "9.4-1201-jdbc41"] |
MySQL | [mysql/mysql-connector-java "5.1.32"] |
Oracle | [com.oracle/ojdbc14 "10.2.0.4.0"] |
SQLite | [org.xerial/sqlite-jdbc "3.7.2"] |
Derby | [org.apache.derby/derby "10.11.1.1"] |
(Any database with a JDBC driver should work. If you know of a driver that's not listed here, please open a pull request to update this section.)
See the Migration Guide.
You're writing Clojure. You need to write some SQL.
I think we're all agreed that this is a problem:
(query "SELECT * FROM users WHERE country_code = ?" "GB")
Unless these query strings are short, they quickly get hard to read and hard to rewrite. Plus the lack of indentation & syntax highlighting is horrible.
But something like this is not the solution:
(select :*
(from :users)
(where (= :country_code "GB")))
Clojure is a great language for writing DSLs, but we don't need a new
one. SQL is already a mature DSL. And s-expressions are great, but
here they're not adding anything. This is parens-for-parens sake.
(Don't agree? Wait until this extra syntax layer breaks down and you
start wrestling with a (raw-sql)
function.)
So what's the solution? Keep the SQL as SQL. Have one file with your query:
-- name: users-by-country
SELECT *
FROM users
WHERE country_code = :country
...and then read that file to turn it into a regular Clojure function:
(defqueries "some/where/users_by_country.sql"
{:connection db-spec})
;;; A function with the name `users-by-country` has been created.
;;; Let's use it:
(users-by-country {:country "GB"})
;=> ({:name "Kris" :country "GB" ...} ...)
By keeping the SQL and Clojure separate you get:
- No syntactic surprises. Your database doesn't stick to the SQL
standard - none of them do - but Yesql doesn't care. You will
never spend time hunting for "the equivalent sexp syntax". You will
never need to fall back to a
(raw-sql "some('funky'::SYNTAX)")
function. - Better editor support. Your editor probably already has great SQL support. By keeping the SQL as SQL, you get to use it.
- Team interoperability. Your DBAs can read and write the SQL you use in your Clojure project.
- Easier performance tuning. Need to
EXPLAIN
that query plan? It's much easier when your query is ordinary SQL. - Query reuse. Drop the same SQL files into other projects, because they're just plain ol' SQL. Share them as a submodule.
When you need your SQL to work with many different kinds of database at once. If you want one complex query to be transparently translated into different dialects for MySQL, Oracle, Postgres etc., then you genuinely do need an abstraction layer on top of SQL.
Create an SQL query. Note we can supply named parameters (in
snake_case
)
and a comment string:
-- Counts the users in a given country.
SELECT count(*) AS count
FROM user
WHERE country_code = :country_code
Make sure it's on the classpath. For this example, it's in
src/some/where/
. Now we can use it in our Clojure program.
(require '[yesql.core :refer [defquery]])
; Define a database connection spec. (This is standard clojure.java.jdbc.)
(def db-spec {:classname "org.postgresql.Driver"
:subprotocol "postgresql"
:subname "//localhost:5432/demo"
:user "me"})
; Import the SQL query as a function.
(defquery users-by-country "some/where/users_by_country.sql"
{:connection db-spec})
Lo! The function has been created, with automatic, useful docstrings in the REPL:
(clojure.repl/doc users-by-country)
;=> -------------------------
;=> user/users-by-country
;=> ([{:keys [country_code]}]
;=> [{:keys [country_code]} {:keys [connection]}])
;=>
;=> Counts the users in a given country.
Now we can use it:
; Use it standalone.
(users-by-country {:country "GB"})
;=> ({:count 58})
; Use it in a clojure.java.jdbc transaction.
(require '[clojure.java.jdbc :as jdbc])
(jdbc/with-db-transaction [tx db-spec]
{:limeys (users-by-country {:country "GB"} {:connection tx})
:yanks (users-by-country {:country "US"} {:connection tx})})
As an alternative to the above, you can have many SQL statements in a
single SQL file. The file format is: (<name tag> [docstring comments] <the query>)*
, like so:
-- name: users-by-country
-- Counts the users in a given country.
SELECT count(*) AS count
FROM user
WHERE country_code = :country_code
-- name: user-count
-- Counts all the users.
SELECT count(*) AS count
FROM user
Then read the file in like so:
(require '[yesql.core :refer [defqueries]])
(defqueries "some/where/queryfile.sql"
{:connection db-spec})
defqueries
returns a sequence of the vars it binds, which can be
useful feedback while developing.
As with defquery
, each function will have a docstring based on the
comments, and a parameter map based on the SQL parameters.
Yesql supports named parameters, and ?
-style positional
parameters. Here's an example:
-- name: young-users-by-country
SELECT *
FROM user
WHERE (
country_code = ?
OR
country_code = ?
)
AND age < :maxage
Supply the ?
parameters as a vector under the :?
key, like so:
(young-users-by-country {:? ["GB" "US"]
:maxage 18})
Similarly to defqueries
, require-sql
lets you create a number of
query functions at a time, but with a syntax more like
clojure.core/require
.
Using the queryfile.sql
from the previous example:
(require '[yesql.core :refer [require-sql]])
; Use :as to alias the entire namespace, and :refer to refer functions
; into the current namespace. Use one or both.
(require-sql ["some/where/queryfile.sql" :as user :refer [user-count])
(user-count)
;=> ({:count 132})
(user/users-by-country db-spec "GB")
;=> ({:count 58})
Yesql supports IN
-style queries. Define your query with a
single-element in the IN
list, like so:
-- name: find-users
-- Find the users with the given ID(s).
SELECT *
FROM user
WHERE user_id IN (:id)
AND age > :min_age
And then supply the IN
-list as a vector, like so:
(defqueries "some/where/queryfile.sql"
{:connection db-spec})
(find-users {:id [1001 1003 1005]
:maxage 18})
The query will be automatically expanded to ... IN (1001, 1003, 1005) ...
under the hood, and work as expected.
Just remember that some databases have a limit on the number of values
in an IN
-list, and Yesql makes no effort to circumvent such limits.
Like clojure.java.jdbc
, Yesql accepts functions to pre-process each
row, and the final result, like so:
-- name: current-time
-- Selects the current time, according to the database.
SELECT sysdate
FROM dual;
(defqueries "/some/where/queryfile.sql"
{:connection db-spec})
;;; Without processors, this query returns a list with one element,
;;; containing a map with one key:
(current-time)
;=> ({:sysdate #inst "2014-09-30T07:30:06.764000000-00:00"})
;;; With processors we just get the value we want:
(current-time {} {:result-set-fn first
:row-fn :sysdate
:identifiers identity})
;=> #inst "2014-09-30T07:30:06.764000000-00:00"
As with clojure.java.jdbc
the default :result-set-fn
is doall
,
the default :row-fn
is identity
, and the default :identifiers
is
clojure.string/lower-case
.
A note of caution: Remember you're often better off doing your
processing directly in SQL. For example, if you're counting a million
rows, you can do it with {:result-set-fn count}
or
SELECT count(*) ...
. Both wil give the same answer, but the
SQL-version will avoid sending a million rows over the wire to do it.
To do INSERT/UPDATE/DELETE
statements, you just need to add an !
to the end of the function name, and Yesql will execute the function
appropriately. For example:
-- name: save-person!
UPDATE person
SET name = :name
WHERE id = :id
(save-person! {:id 1
:name "Dave"})
;=> 1
A !
-tagged function will return the number of rows affected.
!
enables every statement type - not just INSERT/UPDATE/DELETE
but
also CREATE/DROP/ALTER/BEGIN/...
- anything your driver will
support.
There's one more variant: when you want to insert data and get back a
database-generated primary key, the driver requires a special call, so
Yesql needs to be specially-informed. You can do an "insert returning
autogenerated key" with the <!
suffix, like so:
-- name: create-person<!
INSERT INTO person (name) VALUES (:name)
(create-person<! {:name "Dave"})
;=> {:name "Dave" :id 5}
The exact return value will depend on your database driver. For
example PostgreSQL returns the whole row, whereas Derby returns just
{:1 5M}
.
The <!
suffix is intended to mirror core.async
, so it should be easy to remember.
Yesql uses the marvellous expectations library for tests. It's like clojure.test, but has lighter-weight syntax and much better failure messages.
Call lein test
to run the test suite.
Call lein test-all
to run the tests against all (supported) versions of Clojure.
Call lein autoexpect
to automatically re-run the tests as source files change.
Yesql has inspired ports to other languages:
Language | Project |
---|---|
JavaScript | Preql |
JavaScript | sqlt |
Python | Anosql |
Go | DotSql |
Go | goyesql |
C# | JaSql |
Ruby | yayql |
Erlang | eql |
Clojure | YeSPARQL |
Ready to use. The API is subject to change. Feedback is welcomed.
Copyright © 2013-2016 Kris Jenkins
Distributed under the Eclipse Public License, the same as Clojure.
No. There are no Objects here, only Values. Yesql is a VRM. This is better because it's pronounced, "Vroom!"