HoneySQL lets you build complex SQL statements by constructing and composing Clojure data structures and then formatting that data to a SQL statement (string) and any parameters it needs.
For the Clojure CLI, add the following dependency to your deps.edn
file:
com.github.seancorfield/honeysql {:mvn/version "2.0.0-rc3"}
For Leiningen, add the following dependency to your project.clj
file:
[com.github.seancorfield/honeysql "2.0.0-rc3"]
HoneySQL produces SQL statements but does not execute them.
To execute SQL statements, you will also need a JDBC wrapper like
seancorfield/next.jdbc
and a JDBC driver for the database you use.
SQL statements are represented as hash maps, with keys that represent clauses in SQL. SQL expressions are generally represented as sequences, where the first element identifies the function or operator and the remaining elements are the arguments or operands.
honey.sql/format
takes a hash map representing a SQL
statement and produces a vector, suitable for use with
next.jdbc
or clojure.java.jdbc
, that has the generated
SQL string as the first element followed by any parameter
values identified in the SQL expressions:
(ns my.example
(:require [honey.sql :as sql]))
(sql/format {:select [:*], :from [:table], :where [:= :id 1]})
;; produces:
;;=> ["SELECT * FROM table WHERE id = ?" 1]
By default, any values found in the data structure, that are not keywords
or symbols, are treated as positional parameters and replaced
by ?
in the SQL string and lifted out into the vector that
is returned from format
.
Most clauses expect a sequence as their value, containing
either a list of SQL entities or the representation of a SQL
expression. Some clauses accept a single SQL entity. A few
accept a more specialized form (such as :set
accepting a
hash map of SQL entities and SQL expressions).
A SQL entity can be a simple keyword (or symbol) or a pair that represents a SQL entity and its alias (where aliases are allowed):
(sql/format {:select [:t.id [:name :item]], :from [[:table :t]], :where [:= :id 1]})
;; produces:
;;=> ["SELECT t.id, name AS item FROM table AS t WHERE id = ?" 1]
The FROM
clause now has a pair that identifies the SQL entity
table
and its alias t
. Columns can be identified either by
their qualified name (as in :t.id
) or their unqualified name
(as in :name
). The SELECT
clause here identifies two SQL
entities: t.id
and name
with the latter aliased to item
.
Symbols can also be used, but you need to quote them to avoid evaluation:
(sql/format '{select [t.id [name item]], from [[table t]], where [= id 1]})
;; or you can use (..) instead of [..] when quoted:
(sql/format '{select (t.id (name item)), from ((table t)), where (= id 1)})
;; also produces:
;;=> ["SELECT t.id, name AS item FROM table AS t WHERE id = ?" 1]
If you wish, you can specify SQL entities as namespace-qualified
keywords (or symbols) and the namespace portion will treated as
the table name, i.e., :foo/bar
instead of :foo.bar
:
(sql/format {:select [:t/id [:name :item]], :from [[:table :t]], :where [:= :id 1]})
;; and
(sql/format '{select [t/id [name item]], from [[table t]], where [= id 1]})
;; both produce:
;;=> ["SELECT t.id, name AS item FROM table AS t WHERE id = ?" 1]
In addition to using hash maps to describe SQL clauses,
HoneySQL uses sequences to describe SQL expressions. Any
sequence that begins with a keyword (or symbol) is considered
to be a kind of function invocation. Certain "functions" are
considered to be "special syntax" and have custom rendering.
Some "functions" are considered to be operators. In general,
[:foo :a 42 "c"]
will render as FOO(a, ?, ?)
with the parameters
42
and "c"
lifted out into the overall vector result
(with a SQL string followed by all its parameters).
Operators can be strictly binary or variadic (most are strictly binary). Special syntax can have zero or more arguments and each form is described in the Special Syntax section.
Some examples:
[:= :a 42] ;=> "a = ?" with a parameter of 42
[:+ 42 :a :b] ;=> "? + a + b" with a parameter of 42
[:= :x [:inline "foo"]] ;=> "x = 'foo'" -- the string is inlined
[:now] ;=> "NOW()"
[:count :*] ;=> "COUNT(*)"
[:or [:<> :name nil] [:= :status-id 0]] ;=> "(name IS NOT NULL) OR (status_id = ?)"
;; with a parameter of 0 -- the nil value is inlined as NULL
:inline
is an example of "special syntax" and it renders its
(single) argument as part of the SQL string generated by format
.
Another form of special syntax that is treated as function calls
is keywords or symbols that begin with %
. Such keywords (or symbols)
are split at .
and turned into function calls:
%now ;=> NOW()
%count.* ;=> COUNT(*)
%max.foo ;=> MAX(foo)
%f.a.b ;=> F(a,b)
If you need to reference a table or alias for a column, you can use qualified names in a function invocation:
%max.foo/bar ;=> MAX(foo.bar)
The latter syntax can be convenient in a SELECT
because [:a :b]
is
otherwise taken as a column and its alias, so selecting a function call
expression requires an extra level of nesting:
(sql/format {:select [:a]})
;;=> ["SELECT a"]
(sql/format {:select [[:a :b]]})
;;=> ["SELECT a AS b"]
(sql/format {:select [[[:a :b]]]})
;;=> ["SELECT A(b)"]
;; or use the % notification:
(sql/format {:select [:%a.b]})
;;=> ["SELECT A(b)"]
(sql/format {:select [[[:a :b] :c]]})
;;=> ["SELECT A(b) AS c"]
(sql/format {:select [[:%a.b :c]]})
;;=> ["SELECT A(b) AS c"]
;; putting it all together:
(sql/format {:select [:x [:y :d] [[:z :e]] [[:z :f] :g]]})
;;=> ["SELECT x, y AS d, Z(e), Z(f) AS g"]
(sql/format {:select [:x [:y :d] [:%z.e] [:%z.f :g]]})
;;=> ["SELECT x, y AS d, Z(e), Z(f) AS g"]
As indicated in the preceding sections, values found in the DSL data structure
that are not keywords or symbols are lifted out as positional parameters.
They are replaced by ?
in the generated SQL string and added to the
parameter list in order:
[:between :size 10 20] ;=> "size BETWEEN ? AND ?" with parameters 10 and 20
HoneySQL also supports named parameters. There are two ways of identifying a named parameter:
?
:param
special (functional) syntaxThe values of those parameters are supplied in the format
call as the :params
key of the options hash map.
(sql/format {:select [:*] :from [:table]
:where [:= :a :?x]}
{:params {:x 42}})
["SELECT * FROM table WHERE a = ?" 42]
(sql/format {:select [:*] :from [:table]
:where [:= :a [:param :x]]}
{:params {:x 42}})
["SELECT * FROM table WHERE a = ?" 42]
In addition to the hash map (and sequences) approach of building SQL queries with raw Clojure data structures, a namespace full of helper functions is also available. These functions are generally variadic and threadable:
(ns my.example
(:require [honey.sql :as sql]
[honey.sql.helpers :refer [select from where]]))
(-> (select :t/id [:name :item])
(from [:table :t])
(where [:= :id 1])
(sql/format))
;; produces:
;;=> ["SELECT t.id, name AS item FROM table AS t WHERE id = ?" 1]
There is a helper function for every single clause that HoneySQL
supports out of the box. In addition, there are helpers for
composite
, lateral
, over
, and upsert
that make it easier to construct those
parts of the SQL DSL (examples of composite
appear in the README,
examples of over
appear in the Clause Reference)
In addition to being variadic -- which often lets you omit one
level of [
..]
-- the helper functions merge clauses, which
can make it easier to build queries programmatically:
(-> (select :t/id)
(from [:table :t])
(where [:= :id 1])
(select [:name :item])
(sql/format))
;; produces:
;;=> ["SELECT t.id, name AS item FROM table AS t WHERE id = ?" 1]
If you want to replace a clause with a subsequent helper call, you need to explicitly remove the prior value:
(-> (select :t/id)
(from [:table :t])
(where [:= :id 1])
(dissoc :select)
(select [:name :item])
(sql/format))
;; produces:
;;=> ["SELECT name AS item FROM table AS t WHERE id = ?" 1]
Helpers always use keywords when constructing clauses so you
can rely on using keywords in dissoc
.
The following helpers shadow functions in clojure.core
so
you need to consider this when referring symbols in from the
honey.sql.helpers
namespace: filter
, for
, group-by
, into
, partition-by
,
set
, and update
.
HoneySQL 1.x did not support any DDL statements. It was fairly common for people to use the nilenso/honeysql-postgres library to get DDL support, even if they didn't need the PostgreSQL-specific extensions. That library does not work with HoneySQL 2.x but all of the functionality from it (up to 0.4.112) has been incorporated into HoneySQL now and is described in the PostgreSQL section (because that covers all of the things that the nilenso library supported and much of it was PostgreSQL-specific!).
See also the DDL Clauses section of the Clause Reference for documentation about supported DDL.
By default, HoneySQL operates in ANSI SQL mode but it supports a lot of PostgreSQL extensions in that mode. PostgreSQL is mostly a superset of ANSI SQL so it makes sense to support as much as possible of the union of ANSI SQL and PostgreSQL out of the box.
The dialects supported by HoneySQL 2.x are:
:ansi
-- the default, including most PostgreSQL extensions:sqlserver
-- Microsoft SQL Server:mysql
-- MySQL (and Percona and MariaDB):oracle
-- OracleThe most visible difference between dialects is how SQL entities
should be quoted (if the :quoted true
option is provided to format
).
Most databases use "
for quoting (the :ansi
and :oracle
dialects).
The :sqlserver
dialect uses [
..]
and the :mysql
dialect uses
..
. In addition, the :oracle
dialect disables AS
in aliases.
Currently, the only dialect that has substantive differences from
the others is :mysql
for which the :set
clause
has a different precedence than ANSI SQL.
You can change the dialect globally using the set-dialect!
function,
passing in one of the keywords above. You need to call this function
before you call format
for the first time.
You can change the dialect for a single format
call by
specifying the :dialect
option in that call.
SQL entities are not quoted by default but if you specify the
dialect in a format
call, they will be quoted. If you don't
specify a dialect in the format
call, you can specify
:quoted true
to have SQL entities quoted.
(sql/format '{select (id) from (table)} {:quoted true})
;;=> ["SELECT \"id\" FROM \"table\""]
(sql/format '{select (id) from (table)} {:dialect :mysql})
;;=> ["SELECT `id` FROM `table`"]
(sql/set-dialect! :sqlserver)
;;=> nil
(sql/format '{select (id) from (table)} {:quoted true})
;;=> ["SELECT [id] FROM [table]"]
Out of the box, as part of the extended ANSI SQL support, HoneySQL supports quite a few PostgreSQL extensions.
Note: the nilenso/honeysql-postgres library which provided PostgreSQL support for HoneySQL 1.x does not work with HoneySQL 2.x. However, HoneySQL 2.x includes all of the functionality from that library (up to 0.4.112) out of the box!
In addition to the :quoted
and :dialect
options described above,
format
also accepts :checking
, :inline
, and :params
.
The :params
option was mentioned above and is used to specify
the values of named parameters in the DSL.
The :inline
option suppresses the generation of parameters in
the SQL string and instead tries to inline all the values directly
into the SQL string. The behavior is as if each value in the DSL
was wrapped in [:inline
..]
:
nil
becomes the SQL value NULL
,"foo"
becomes 'foo'
),-
replaced by a space),str
) and added to the SQL string.The :checking
option defaults to :none
. If :checking :basic
is
specified, certain obvious errors -- such as IN
with an empty collection --
are treated as an error and an exception is thrown. If :checking :strict
is specified, certain dubious constructs -- such as IN
with a collection
containing NULL
values -- are also treated as an error and an exception is
thrown. It is expected that this feature will be expanded over time
to help avoid generating illegal SQL.
format
accepts options as either a single hash map argument or
as named arguments (alternating keys and values). If you are using
Clojure 1.11 (or later) you can mix'n'match, providing some options
as named arguments followed by other options in a hash map.
The full list of supported SQL clauses is documented in the Clause Reference. The full list of operators supported (as prefix-form "functions") is documented in the Operator Reference section. The full list of "special syntax" functions is documented in the Special Syntax section. The best documentation for the helper functions is in the honey.sql.helpers namespace. More detail about certain core HoneySQL functionality can be found in the Reference documentation. If you're migrating to HoneySQL 2.x, this overview of differences between 1.x and 2.x should help.
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